warg/mpv-config
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Oscar Wallberg
2023-12-20 02:59:59 +01:00
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.gitignore
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cache
watch_later
README.md
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# mpv-config
My MPV config
## Installation
### Linux/Mac
1. Clone this repo into the mpv config location
```sh
git clone https://github.com/warigan/mpv-config ~/.config/mpv
```
2. Rename files:
```sh
mv input_linux.conf input.conf
mv mpv_linux.conf mpv.conf
```
3. (Optional) To use `autosubsync`, choose synctools in `script-opts/autosubsync.conf`, install them on your system then specify their paths.
### Windows
1. Clone this repo into the mpv config location
```pwsh
git clone https://github.com/warigan/mpv-config C:\users\USERNAME\AppData\Roaming\mpv
```
2. Rename files:
```sh
mv input_windows.conf input.conf
mv mpv_windows.conf mpv.conf
```
3. (Optional) To use `autosubsync`, choose synctools in `script-opts/autosubsync.conf`, install them on your system then specify their paths.
4. (Optional) To use `autosub`, it is recommended to configure login credentials in `scripts/autosub.lua`.
## Usage
### Shader profiles
Use `Ctrl+[1-6]` to select a shader profile for Animated videos and `Ctrl+9` for live action. `Ctrl+0` clears the shaders so no profile is active. By default `Anime4K: Mode A (HQ)` is selected (`Ctrl+1`) which provides high quality Anime without sacrificing frames (at least on my system). `Anime4K: Mode A+A (HQ)` (`Ctrl+4`) gives (arguably) the best quality, but at a higher performance cost. For more information, see [Anime4K docs](https://github.com/bloc97/Anime4K/blob/master/md/GLSL_Instructions_Advanced.md).
NOTE: Profile switching is not saved across sessions, so if you don't want to use `Ctrl+1` you would have to change every time you open a video. I recommend you instead change the default in `mpv.conf`.
### Subtitles
To auto-download subtitles for the currently playing video, press `b`. To auto-sync the currently selected subtitles with the audio, press `n`.
### Debug
To open a debug console, press `\``. It can be used to send mpv input commands, thanks to [repl](https://github.com/rossy/mpv-repl).
## Third-Party
This project includes third party software from the projects listed below.
### Fonts
* [Material Design Iconic Font](https://github.com/zavoloklom/material-design-iconic-font) v2.2.0
### Scripts
* [autosubsync-mpv](https://github.com/joaquintorres/autosubsync-mpv) v0.33
* [mpv-autosub](https://github.com/davidde/mpv-autosub) based on commit 35115355bd339681f97d067538356c29e5b14afa
* [ModernX](https://github.com/cyl0/ModernX) v0.6.0
* [repl.lua](https://github.com/rossy/mpv-repl) based on commit f7538adea92b441f2c7edd5dc07dd50dac28d3d5
* [thumbfast](https://github.com/po5/thumbfast) based on commit 03e93feee5a85bf7c65db953ada41b4826e9f905
### Shaders
* [Anime4K](https://github.com/bloc97/Anime4K) v4.0.1
* [FSR.glsl](https://gist.github.com/agyild/82219c545228d70c5604f865ce0b0ce5) v1.0.2
fonts/Material-Design-Iconic-Font.ttf
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input_linux.conf
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# Optimized shaders for higher-end GPU
CTRL+1 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl:~~/shaders/Anime4K_Restore_CNN_VL.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl:~~/shaders/Anime4K_AutoDownscalePre_x2.glsl:~~/shaders/Anime4K_AutoDownscalePre_x4.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode A (HQ)"
CTRL+2 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl:~~/shaders/Anime4K_Restore_CNN_Soft_VL.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl:~~/shaders/Anime4K_AutoDownscalePre_x2.glsl:~~/shaders/Anime4K_AutoDownscalePre_x4.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode B (HQ)"
CTRL+3 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl:~~/shaders/Anime4K_Upscale_Denoise_CNN_x2_VL.glsl:~~/shaders/Anime4K_AutoDownscalePre_x2.glsl:~~/shaders/Anime4K_AutoDownscalePre_x4.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode C (HQ)"
CTRL+4 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl:~~/shaders/Anime4K_Restore_CNN_VL.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl:~~/shaders/Anime4K_Restore_CNN_M.glsl:~~/shaders/Anime4K_AutoDownscalePre_x2.glsl:~~/shaders/Anime4K_AutoDownscalePre_x4.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode A+A (HQ)"
CTRL+5 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl:~~/shaders/Anime4K_Restore_CNN_Soft_VL.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl:~~/shaders/Anime4K_AutoDownscalePre_x2.glsl:~~/shaders/Anime4K_AutoDownscalePre_x4.glsl:~~/shaders/Anime4K_Restore_CNN_Soft_M.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode B+B (HQ)"
CTRL+6 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl:~~/shaders/Anime4K_Upscale_Denoise_CNN_x2_VL.glsl:~~/shaders/Anime4K_AutoDownscalePre_x2.glsl:~~/shaders/Anime4K_AutoDownscalePre_x4.glsl:~~/shaders/Anime4K_Restore_CNN_M.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode C+A (HQ)"
CTRL+9 no-osd change-list glsl-shaders set "~~/shaders/FSR.glsl"; show-text "FSR"
CTRL+0 no-osd change-list glsl-shaders clr ""; show-text "GLSL shaders cleared"
input_windows.conf
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# Optimized shaders for higher-end GPU
CTRL+1 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl;~~/shaders/Anime4K_Restore_CNN_VL.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl;~~/shaders/Anime4K_AutoDownscalePre_x2.glsl;~~/shaders/Anime4K_AutoDownscalePre_x4.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode A (HQ)"
CTRL+2 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl;~~/shaders/Anime4K_Restore_CNN_Soft_VL.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl;~~/shaders/Anime4K_AutoDownscalePre_x2.glsl;~~/shaders/Anime4K_AutoDownscalePre_x4.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode B (HQ)"
CTRL+3 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl;~~/shaders/Anime4K_Upscale_Denoise_CNN_x2_VL.glsl;~~/shaders/Anime4K_AutoDownscalePre_x2.glsl;~~/shaders/Anime4K_AutoDownscalePre_x4.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode C (HQ)"
CTRL+4 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl;~~/shaders/Anime4K_Restore_CNN_VL.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl;~~/shaders/Anime4K_Restore_CNN_M.glsl;~~/shaders/Anime4K_AutoDownscalePre_x2.glsl;~~/shaders/Anime4K_AutoDownscalePre_x4.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode A+A (HQ)"
CTRL+5 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl;~~/shaders/Anime4K_Restore_CNN_Soft_VL.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl;~~/shaders/Anime4K_AutoDownscalePre_x2.glsl;~~/shaders/Anime4K_AutoDownscalePre_x4.glsl;~~/shaders/Anime4K_Restore_CNN_Soft_M.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode B+B (HQ)"
CTRL+6 no-osd change-list glsl-shaders set "~~/shaders/Anime4K_Clamp_Highlights.glsl;~~/shaders/Anime4K_Upscale_Denoise_CNN_x2_VL.glsl;~~/shaders/Anime4K_AutoDownscalePre_x2.glsl;~~/shaders/Anime4K_AutoDownscalePre_x4.glsl;~~/shaders/Anime4K_Restore_CNN_M.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"; show-text "Anime4K: Mode C+A (HQ)"
CTRL+9 no-osd change-list glsl-shaders set "~~/shaders/FSR.glsl"; show-text "FSR"
CTRL+0 no-osd change-list glsl-shaders clr ""; show-text "GLSL shaders cleared"
mpv_linux.conf
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# General
keep-open=yes
profile=gpu-hq
gpu-api=vulkan
hwdec=auto-copy
vo=gpu-next
scale=ewa_lanczossharp
# For ModernX
osc = no
border = no
# Interpolation
video-sync=display-resample
interpolation=yes
# video-sync-display-vdrop # for syncing video with somebody else
# cscale=lanczos # For improving frame rate, maybe. Faster than
# # the default from using profile=gpu-hq
# # (which is ewa_lanczossharp)
tscale=sphinx
tscale-blur=0.6991556596428412
tscale-radius=1.05
tscale-clamp=0.0
# Shaders
# Anime4K: Mode A (HQ)
glsl-shaders="~~/shaders/Anime4K_Clamp_Highlights.glsl:~~/shaders/Anime4K_Restore_CNN_VL.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl:~~/shaders/Anime4K_AutoDownscalePre_x2.glsl:~~/shaders/Anime4K_AutoDownscalePre_x4.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"
# Anime4K: Mode A+A (HQ)
# glsl-shaders="~~/shaders/Anime4K_Clamp_Highlights.glsl:~~/shaders/Anime4K_Restore_CNN_VL.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl:~~/shaders/Anime4K_Restore_CNN_M.glsl:~~/shaders/Anime4K_AutoDownscalePre_x2.glsl:~~/shaders/Anime4K_AutoDownscalePre_x4.glsl:~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"
# FSR
# glsl-shaders="~~/shaders/FSR.glsl"
# Subtitles
sub-auto=fuzzy
subs-with-matching-audio=yes
# Languages
alang=ja,sv,en
slang=en
mpv_windows.conf
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# General
keep-open=yes
profile=gpu-hq
gpu-api=vulkan
hwdec=auto-copy
vo=gpu-next
scale=ewa_lanczossharp
# For ModernX
osc = no
border = no
# Interpolation
video-sync=display-resample
interpolation=yes
# video-sync-display-vdrop # for syncing video with somebody else
# cscale=lanczos # For improving frame rate, maybe. Faster than
# # the default from using profile=gpu-hq
# # (which is ewa_lanczossharp)
tscale=sphinx
tscale-blur=0.6991556596428412
tscale-radius=1.05
tscale-clamp=0.0
# Shaders
# Anime4K: Mode A (HQ)
glsl-shaders="~~/shaders/Anime4K_Clamp_Highlights.glsl;~~/shaders/Anime4K_Restore_CNN_VL.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl;~~/shaders/Anime4K_AutoDownscalePre_x2.glsl;~~/shaders/Anime4K_AutoDownscalePre_x4.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"
# Anime4K: Mode A+A (HQ)
# glsl-shaders="~~/shaders/Anime4K_Clamp_Highlights.glsl;~~/shaders/Anime4K_Restore_CNN_VL.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_VL.glsl;~~/shaders/Anime4K_Restore_CNN_M.glsl;~~/shaders/Anime4K_AutoDownscalePre_x2.glsl;~~/shaders/Anime4K_AutoDownscalePre_x4.glsl;~~/shaders/Anime4K_Upscale_CNN_x2_M.glsl"
# FSR
# glsl-shaders="~~/shaders/FSR.glsl"
# Subtitles
sub-auto=fuzzy
subs-with-matching-audio=yes
# Languages
alang=ja,sv,en
slang=en
script-opts/autosubsync.conf
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# Absolute paths to the executables, if needed:
# 1. ffmpeg
# ffmpeg_path=/usr/bin/ffmpeg
# 2. ffsubsync
# ffsubsync_path=/home/user/.local/bin/ffsubsync
# 3. alass
# alass_path=/usr/bin/alass
# Preferred retiming tool. Allowed options: 'ffsubsync', 'alass', 'ask'.
# If set to 'ask', the add-on will ask to choose the tool every time:
# 1. Preferred tool for syncing to audio.
# audio_subsync_tool=ask
# audio_subsync_tool=ffsubsync
# audio_subsync_tool=alass
# 2. Preferred tool for syncing to another subtitle.
# altsub_subsync_tool=ask
# altsub_subsync_tool=ffsubsync
# altsub_subsync_tool=alass
# Unload old subs (yes,no)
# After retiming, tell mpv to forget the original subtitle track.
unload_old_sub=yes
# unload_old_sub=no
script-opts/osc.conf
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showonpause=no
script-opts/thumbfast.conf
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# Socket path (leave empty for auto)
socket=
# Thumbnail path (leave empty for auto)
thumbnail=
# Maximum thumbnail size in pixels (scaled down to fit)
# Values are scaled when hidpi is enabled
max_height=600
max_width=600
# Apply tone-mapping, no to disable
tone_mapping=auto
# Overlay id
overlay_id=42
# Spawn thumbnailer on file load for faster initial thumbnails
spawn_first=no
# Close thumbnailer process after an inactivity period in seconds, 0 to disable
quit_after_inactivity=0
# Enable on network playback
network=no
# Enable on audio playback
audio=no
# Enable hardware decoding
hwdec=no
# Windows only: use native Windows API to write to pipe (requires LuaJIT)
direct_io=no
# Custom path to the mpv executable
mpv_path=mpv
scripts/autosub.lua
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-- MIT License
--
-- Copyright (c) 2019 David Deprost
--
-- Permission is hereby granted, free of charge, to any person obtaining a copy
-- of this software and associated documentation files (the "Software"), to deal
-- in the Software without restriction, including without limitation the rights
-- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-- copies of the Software, and to permit persons to whom the Software is
-- furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be included in all
-- copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
-- SOFTWARE.
--=============================================================================
-->> SUBLIMINAL PATH:
--=============================================================================
-- This script uses Subliminal to download subtitles,
-- so make sure to specify your system's Subliminal location below:
local subliminal = 'C:\\Users\\oscar\\scoop\\apps\\python\\current\\Scripts\\subliminal.exe'
--=============================================================================
-->> SUBTITLE LANGUAGE:
--=============================================================================
-- Specify languages in this order:
-- { 'language name', 'ISO-639-1', 'ISO-639-2' } !
-- (See: https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes)
local languages = {
-- If subtitles are found for the first language,
-- other languages will NOT be downloaded,
-- so put your preferred language first:
{ 'English', 'en', 'eng' },
-- { 'Dutch', 'nl', 'dut' },
-- { 'Spanish', 'es', 'spa' },
-- { 'French', 'fr', 'fre' },
-- { 'German', 'de', 'ger' },
-- { 'Italian', 'it', 'ita' },
-- { 'Portuguese', 'pt', 'por' },
-- { 'Polish', 'pl', 'pol' },
-- { 'Russian', 'ru', 'rus' },
-- { 'Chinese', 'zh', 'chi' },
-- { 'Arabic', 'ar', 'ara' },
}
--=============================================================================
-->> PROVIDER LOGINS:
--=============================================================================
-- These are completely optional and not required
-- for the functioning of the script!
-- If you use any of these services, simply uncomment it
-- and replace 'USERNAME' and 'PASSWORD' with your own:
local logins = {
-- { '--addic7ed', 'USERNAME', 'PASSWORD' },
-- { '--legendastv', 'USERNAME', 'PASSWORD' },
-- { '--opensubtitles', 'USERNAME', 'PASSWORD' },
-- { '--subscenter', 'USERNAME', 'PASSWORD' },
}
--=============================================================================
-->> ADDITIONAL OPTIONS:
--=============================================================================
local bools = {
auto = false, -- Automatically download subtitles, no hotkeys required
debug = false, -- Use `--debug` in subliminal command for debug output
force = true, -- Force download; will overwrite existing subtitle files
utf8 = true, -- Save all subtitle files as UTF-8
}
local excludes = {
-- Movies with a path containing any of these strings/paths
-- will be excluded from auto-downloading subtitles.
-- Full paths are also allowed, e.g.:
-- '/home/david/Videos',
'no-subs-dl',
}
local includes = {
-- If anything is defined here, only the movies with a path
-- containing any of these strings/paths will auto-download subtitles.
-- Full paths are also allowed, e.g.:
-- '/home/david/Videos',
}
--=============================================================================
local utils = require 'mp.utils'
-- Download function: download the best subtitles in most preferred language
function download_subs(language)
language = language or languages[1]
if #language == 0 then
log('No Language found\n')
return false
end
log('Searching ' .. language[1] .. ' subtitles ...', 30)
-- Build the `subliminal` command, starting with the executable:
local table = { args = { subliminal } }
local a = table.args
for _, login in ipairs(logins) do
a[#a + 1] = login[1]
a[#a + 1] = login[2]
a[#a + 1] = login[3]
end
if bools.debug then
-- To see `--debug` output start MPV from the terminal!
a[#a + 1] = '--debug'
end
a[#a + 1] = 'download'
if bools.force then
a[#a + 1] = '-f'
end
if bools.utf8 then
a[#a + 1] = '-e'
a[#a + 1] = 'utf-8'
end
a[#a + 1] = '-l'
a[#a + 1] = language[2]
a[#a + 1] = '-d'
a[#a + 1] = directory
a[#a + 1] = filename --> Subliminal command ends with the movie filename.
local result = utils.subprocess(table)
if string.find(result.stdout, 'Downloaded 1 subtitle') then
-- When multiple external files are present,
-- always activate the most recently downloaded:
mp.set_property('slang', language[2])
-- Subtitles are downloaded successfully, so rescan to activate them:
mp.commandv('rescan_external_files')
log(language[1] .. ' subtitles ready!')
return true
else
log('No ' .. language[1] .. ' subtitles found\n')
return false
end
end
-- Manually download second language subs by pressing 'n':
function download_subs2()
download_subs(languages[2])
end
-- Control function: only download if necessary
function control_downloads()
-- Make MPV accept external subtitle files with language specifier:
mp.set_property('sub-auto', 'fuzzy')
-- Set subtitle language preference:
mp.set_property('slang', languages[1][2])
mp.msg.warn('Reactivate external subtitle files:')
mp.commandv('rescan_external_files')
directory, filename = utils.split_path(mp.get_property('path'))
if not autosub_allowed() then
return
end
sub_tracks = {}
for _, track in ipairs(mp.get_property_native('track-list')) do
if track['type'] == 'sub' then
sub_tracks[#sub_tracks + 1] = track
end
end
if bools.debug then -- Log subtitle properties to terminal:
for _, track in ipairs(sub_tracks) do
mp.msg.warn('Subtitle track', track['id'], ':\n{')
for k, v in pairs(track) do
if type(v) == 'string' then v = '"' .. v .. '"' end
mp.msg.warn(' "' .. k .. '":', v)
end
mp.msg.warn('}\n')
end
end
for _, language in ipairs(languages) do
if should_download_subs_in(language) then
if download_subs(language) then return end -- Download successful!
else return end -- No need to download!
end
log('No subtitles were found')
end
-- Check if subtitles should be auto-downloaded:
function autosub_allowed()
local duration = tonumber(mp.get_property('duration'))
local active_format = mp.get_property('file-format')
if not bools.auto then
mp.msg.warn('Automatic downloading disabled!')
return false
elseif duration < 900 then
mp.msg.warn('Video is less than 15 minutes\n' ..
'=> NOT auto-downloading subtitles')
return false
elseif directory:find('^http') then
mp.msg.warn('Automatic subtitle downloading is disabled for web streaming')
return false
elseif active_format:find('^cue') then
mp.msg.warn('Automatic subtitle downloading is disabled for cue files')
return false
else
local not_allowed = {'aiff', 'ape', 'flac', 'mp3', 'ogg', 'wav', 'wv', 'tta'}
for _, file_format in pairs(not_allowed) do
if file_format == active_format then
mp.msg.warn('Automatic subtitle downloading is disabled for audio files')
return false
end
end
for _, exclude in pairs(excludes) do
local escaped_exclude = exclude:gsub('%W','%%%0')
local excluded = directory:find(escaped_exclude)
if excluded then
mp.msg.warn('This path is excluded from auto-downloading subs')
return false
end
end
for i, include in ipairs(includes) do
local escaped_include = include:gsub('%W','%%%0')
local included = directory:find(escaped_include)
if included then break
elseif i == #includes then
mp.msg.warn('This path is not included for auto-downloading subs')
return false
end
end
end
return true
end
-- Check if subtitles should be downloaded in this language:
function should_download_subs_in(language)
for i, track in ipairs(sub_tracks) do
local subtitles = track['external'] and
'subtitle file' or 'embedded subtitles'
if not track['lang'] and (track['external'] or not track['title'])
and i == #sub_tracks then
local status = track['selected'] and ' active' or ' present'
log('Unknown ' .. subtitles .. status)
mp.msg.warn('=> NOT downloading new subtitles')
return false -- Don't download if 'lang' key is absent
elseif track['lang'] == language[3] or track['lang'] == language[2] or
(track['title'] and track['title']:lower():find(language[3])) then
if not track['selected'] then
mp.set_property('sid', track['id'])
log('Enabled ' .. language[1] .. ' ' .. subtitles .. '!')
else
log(language[1] .. ' ' .. subtitles .. ' active')
end
mp.msg.warn('=> NOT downloading new subtitles')
return false -- The right subtitles are already present
end
end
mp.msg.warn('No ' .. language[1] .. ' subtitles were detected\n' ..
'=> Proceeding to download:')
return true
end
-- Log function: log to both terminal and MPV OSD (On-Screen Display)
function log(string, secs)
secs = secs or 2.5 -- secs defaults to 2.5 when secs parameter is absent
mp.msg.warn(string) -- This logs to the terminal
mp.osd_message(string, secs) -- This logs to MPV screen
end
mp.add_key_binding('b', 'download_subs', download_subs)
mp.add_key_binding('n', 'download_subs2', download_subs2)
mp.register_event('file-loaded', control_downloads)
scripts/autosubsync/LICENSE
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MIT License
Copyright (c) 2020 joaquintorres
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
scripts/autosubsync/README.md
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# autosubsync-mpv
Automatic subtitle synchronization script for [mpv](https://wiki.archlinux.org/index.php/Mpv).
A demo can be viewed on <a target="_blank" href="https://www.youtube.com/watch?v=w1vwnUiF6Bc"><img src="https://user-images.githubusercontent.com/69171671/115097010-4bd13c80-9f17-11eb-83e9-2583658f73bc.png" width="80px"></a>
Supported backends:
* [ffsubsync](https://github.com/smacke/ffsubsync)
* [alass](https://github.com/kaegi/alass)
## Installation
0. Make sure you have mpv v0.33 or higher installed.
```
$ mpv --version
```
1. Install [FFmpeg](https://wiki.archlinux.org/index.php/FFmpeg):
```
$ pacman -S ffmpeg
```
Windows users have to manually install FFmpeg from [here](https://ffmpeg.zeranoe.com/builds/).
2. Install your retiming program of choice,
[ffsubsync](https://github.com/smacke/ffsubsync), [alass](https://github.com/kaegi/alass) or both:
```
$ pip install ffsubsync
```
```
$ trizen -S alass-git # for Arch-based distros
```
3. Download the add-on and save it to your mpv scripts folder.
| GNU/Linux | Windows |
|---|---|
| `~/.config/mpv/scripts` | `%AppData%\mpv\scripts\` |
To do it in one command:
```
$ git clone 'https://github.com/Ajatt-Tools/autosubsync-mpv' ~/.config/mpv/scripts/autosubsync
```
## Configuration
You can skip this step if the add-on works out of the box.
Create a config file:
| GNU/Linux | Windows |
|---|---|
| `~/.config/mpv/script-opts/autosubsync.conf` | `%AppData%\mpv\script-opts\autosubsync.conf` |
Example config:
```
# Absolute paths to the executables, if needed:
# 1. ffmpeg
ffmpeg_path=C:/Program Files/ffmpeg/bin/ffmpeg.exe
ffmpeg_path=/usr/bin/ffmpeg
# 2. ffsubsync
ffsubsync_path=C:/Program Files/ffsubsync/ffsubsync.exe
ffsubsync_path=/home/user/.local/bin/ffsubsync
# 3. alass
alass_path=C:/Program Files/ffmpeg/bin/alass.exe
alass_path=/usr/bin/alass
# Preferred retiming tool. Allowed options: 'ffsubsync', 'alass', 'ask'.
# If set to 'ask', the add-on will ask to choose the tool every time:
# 1. Preferred tool for syncing to audio.
audio_subsync_tool=ask
audio_subsync_tool=ffsubsync
audio_subsync_tool=alass
# 2. Preferred tool for syncing to another subtitle.
altsub_subsync_tool=ask
altsub_subsync_tool=ffsubsync
altsub_subsync_tool=alass
# Unload old subs (yes,no)
# After retiming, tell mpv to forget the original subtitle track.
unload_old_sub=yes
unload_old_sub=no
```
## Notes
* On Windows, you need to use forward slashes or double backslashes for your path.
For example, `"C:\\Users\\YourPath\\Scripts\\ffsubsync"`
or `"C:/Users/YourPath/Scripts/ffsubsync"`,
or it might not work.
* On GNU/Linux you can use `which ffsubsync` to find out where it is.
## Usage
When you have an out of sync sub, press `n` to synchronize it.
`ffsubsync` can typically take up to about 20-30 seconds
to synchronize (I've seen it take as much as 2 minutes
with a very large file on a lower end computer), so it
would probably be faster to find another, properly
synchronized subtitle with `autosub` or `trueautosub`.
Many times this is just not possible, as all available
subs for your specific language are out of sync.
Take into account that using this script has the
same limitations as `ffsubsync`, so subtitles that have
a lot of extra text or are meant for an entirely different
version of the video might not sync properly. `alass` is supposed
to handle some edge cases better, but I haven't fully tested it yet,
obtaining similar results with both.
Note that the script will create a new subtitle file, in the same folder
as the original, with the `_retimed` suffix at the end.
## Issues and feedback
If you are having trouble getting it to work or you've found a bug,
feel free to [join our community](https://tatsumoto-ren.github.io/blog/join-our-community.html) to ask directly.
Try to check if
[ffsubsync](https://github.com/smacke/ffsubsync)
or
[alass](https://github.com/kaegi/alass)
works properly outside of `mpv` first.
If the retiming tool of choice isn't working, `autosubsync` will likely fail.
scripts/autosubsync/autosubsync.lua
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-- Usage:
-- default keybinding: n
-- add the following to your input.conf to change the default keybinding:
-- keyname script_binding autosubsync-menu
local mp = require('mp')
local utils = require('mp.utils')
local mpopt = require('mp.options')
local menu = require('menu')
local sub = require('subtitle')
local h = require('helpers')
local ref_selector
local engine_selector
local track_selector
-- Config
-- Options can be changed here or in a separate config file.
-- Config path: ~/.config/mpv/script-opts/autosubsync.conf
local config = {
-- Change the following lines if the locations of executables differ from the defaults
-- If set to empty, the path will be guessed.
ffmpeg_path = "",
ffsubsync_path = "",
alass_path = "",
-- Choose what tool to use. Allowed options: ffsubsync, alass, ask.
-- If set to ask, the add-on will ask to choose the tool every time.
audio_subsync_tool = "ask",
altsub_subsync_tool = "ask",
-- After retiming, tell mpv to forget the original subtitle track.
unload_old_sub = true,
}
mpopt.read_options(config, 'autosubsync')
-- Snippet borrowed from stackoverflow to get the operating system
-- originally found at: https://stackoverflow.com/a/30960054
local os_name = (function()
if os.getenv("HOME") == nil then
return function()
return "Windows"
end
else
return function()
return "*nix"
end
end
end)()
local os_temp = (function()
if os_name() == "Windows" then
return function()
return os.getenv('TEMP')
end
else
return function()
return '/tmp/'
end
end
end)()
local function notify(message, level, duration)
level = level or 'info'
duration = duration or 1
mp.msg[level](message)
mp.osd_message(message, duration)
end
local function subprocess(args)
return mp.command_native {
name = "subprocess",
playback_only = false,
capture_stdout = true,
args = args
}
end
local url_decode = function(url)
local function hex_to_char(x)
return string.char(tonumber(x, 16))
end
if url ~= nil then
url = url:gsub("^file://", "")
url = url:gsub("+", " ")
url = url:gsub("%%(%x%x)", hex_to_char)
return url
else
return
end
end
local function get_loaded_tracks(track_type)
local result = {}
local track_list = mp.get_property_native('track-list')
for _, track in pairs(track_list) do
if track.type == track_type then
track['external-filename'] = track.external and url_decode(track['external-filename'])
table.insert(result, track)
end
end
return result
end
local function get_active_track(track_type)
local track_list = mp.get_property_native('track-list')
for num, track in ipairs(track_list) do
if track.type == track_type and track.selected == true then
if track.external then
track['external-filename'] = url_decode(track['external-filename'])
end
if not (track_type == 'sub' and track.id == mp.get_property_native('secondary-sid')) then
return num, track
end
end
end
return notify(string.format("Error: no track of type '%s' selected", track_type), "error", 3)
end
local function remove_extension(filename)
return filename:gsub('%.%w+$', '')
end
local function get_extension(filename)
return filename:match("^.+(%.%w+)$")
end
local function startswith(str, prefix)
return string.sub(str, 1, string.len(prefix)) == prefix
end
local function mkfp_retimed(sub_path)
if not startswith(sub_path, os_temp()) then
return table.concat { remove_extension(sub_path), '_retimed', get_extension(sub_path) }
else
return table.concat { remove_extension(mp.get_property("path")), '_retimed', get_extension(sub_path) }
end
end
local function engine_is_set()
local subsync_tool = ref_selector:get_subsync_tool()
if h.is_empty(subsync_tool) or subsync_tool == "ask" then
return false
else
return true
end
end
local function extract_to_file(subtitle_track)
local codec_ext_map = { subrip = "srt", ass = "ass" }
local ext = codec_ext_map[subtitle_track['codec']]
if ext == nil then
return notify(string.format("Error: unsupported codec: %s", subtitle_track['codec']), "error", 3)
end
local temp_sub_fp = utils.join_path(os_temp(), 'autosubsync_extracted.' .. ext)
notify("Extracting internal subtitles...", nil, 3)
local ret = subprocess {
config.ffmpeg_path,
"-hide_banner",
"-nostdin",
"-y",
"-loglevel", "quiet",
"-an",
"-vn",
"-i", mp.get_property("path"),
"-map", "0:" .. (subtitle_track and subtitle_track['ff-index'] or 's'),
"-f", ext,
temp_sub_fp
}
if ret == nil or ret.status ~= 0 then
return notify("Couldn't extract internal subtitle.\nMake sure the video has internal subtitles.", "error", 7)
end
return temp_sub_fp
end
local function dump(o)
if type(o) == 'table' then
local s = '{ '
for k,v in pairs(o) do
if type(k) ~= 'number' then k = '"'..k..'"' end
s = s .. '['..k..'] = ' .. dump(v) .. ','
end
return s .. '} '
else
return tostring(o)
end
end
local function sync_subtitles(ref_sub_path)
local reference_file_path = ref_sub_path or mp.get_property("path")
local _, sub_track = get_active_track('sub')
if sub_track == nil then
return
end
local subtitle_path = sub_track.external and sub_track['external-filename'] or extract_to_file(sub_track)
local engine_name = engine_selector:get_engine_name()
local engine_path = config[engine_name .. '_path']
if h.is_path(config.ffmpeg_path) and not h.file_exists(engine_path) then
return notify(
string.format("Can't find %s executable.\nPlease specify the correct path in the config.", engine_name),
"error",
5
)
end
if not h.file_exists(subtitle_path) then
return notify(
table.concat {
"Subtitle synchronization failed:\nCouldn't find ",
subtitle_path or "external subtitle file."
},
"error",
3
)
end
local retimed_subtitle_path = mkfp_retimed(subtitle_path)
notify(string.format("Starting %s...", engine_name), nil, 2)
local ret
if engine_name == "ffsubsync" then
local args = { config.ffsubsync_path, reference_file_path, "-i", subtitle_path, "-o", retimed_subtitle_path }
if not ref_sub_path then
table.insert(args, '--reference-stream')
table.insert(args, '0:' .. get_active_track('audio'))
end
ret = subprocess(args)
else
ret = subprocess { config.alass_path, reference_file_path, subtitle_path, retimed_subtitle_path }
end
if ret == nil then
return notify("Parsing failed or no args passed.", "fatal", 3)
end
if ret.status == 0 then
local old_sid = mp.get_property("sid")
if mp.commandv("sub_add", retimed_subtitle_path) then
notify("Subtitle synchronized.", nil, 2)
mp.set_property("sub-delay", 0)
if config.unload_old_sub then
mp.commandv("sub_remove", old_sid)
end
else
notify("Error: couldn't add synchronized subtitle.", "error", 3)
end
else
notify("Subtitle synchronization failed.", "error", 3)
end
end
local function sync_to_subtitle()
local selected_track = track_selector:get_selected_track()
if selected_track and selected_track.external then
sync_subtitles(selected_track['external-filename'])
else
if h.is_path(config.ffmpeg_path) and not h.file_exists(config.ffmpeg_path) then
return notify("Can't find ffmpeg executable.\nPlease specify the correct path in the config.", "error", 5)
end
local temp_sub_fp = extract_to_file(selected_track)
if temp_sub_fp then
sync_subtitles(temp_sub_fp)
os.remove(temp_sub_fp)
end
end
end
local function sync_to_manual_offset()
local _, track = get_active_track('sub')
local sub_delay = tonumber(mp.get_property("sub-delay"))
if tonumber(sub_delay) == 0 then
return notify("There were no manual timings set, nothing to do!", "error", 7)
end
local file_path = track.external and track['external-filename'] or extract_to_file(track)
if file_path == nil then
return
end
local ext = get_extension(file_path)
local codec_parser_map = { ass = sub.ASS, subrip = sub.SRT }
local parser = codec_parser_map[track['codec']]
if parser == nil then
return notify(string.format("Error: unsupported codec: %s", track['codec']), "error", 3)
end
local s = parser:populate(file_path)
s:shift_timing(sub_delay)
if track.external == false then
os.remove(file_path)
s.filename = mp.get_property("filename/no-ext") .. "_manual_timing" .. ext
else
s.filename = remove_extension(s.filename) .. '_manual_timing' .. ext
end
s:save()
mp.commandv("sub_add", s.filename)
if config.unload_old_sub then
mp.commandv("sub_remove", track.id)
end
mp.set_property("sub-delay", 0)
return notify(string.format("Manual timings saved, loading '%s'", s.filename), "info", 7)
end
------------------------------------------------------------
-- Menu actions & bindings
ref_selector = menu:new {
items = { 'Sync to audio', 'Sync to another subtitle', 'Save current timings', 'Cancel' },
last_choice = 'audio',
pos_x = 50,
pos_y = 50,
text_color = 'fff5da',
border_color = '2f1728',
active_color = 'ff6b71',
inactive_color = 'fff5da',
}
function ref_selector:get_keybindings()
return {
{ key = 'h', fn = function() self:close() end },
{ key = 'j', fn = function() self:down() end },
{ key = 'k', fn = function() self:up() end },
{ key = 'l', fn = function() self:act() end },
{ key = 'down', fn = function() self:down() end },
{ key = 'up', fn = function() self:up() end },
{ key = 'Enter', fn = function() self:act() end },
{ key = 'ESC', fn = function() self:close() end },
{ key = 'n', fn = function() self:close() end },
{ key = 'WHEEL_DOWN', fn = function() self:down() end },
{ key = 'WHEEL_UP', fn = function() self:up() end },
{ key = 'MBTN_LEFT', fn = function() self:act() end },
{ key = 'MBTN_RIGHT', fn = function() self:close() end },
}
end
function ref_selector:new(o)
self.__index = self
o = o or {}
return setmetatable(o, self)
end
function ref_selector:get_ref()
if self.selected == 1 then
return 'audio'
elseif self.selected == 2 then
return 'sub'
else
return nil
end
end
function ref_selector:get_subsync_tool()
if self.selected == 1 then
return config.audio_subsync_tool
elseif self.selected == 2 then
return config.altsub_subsync_tool
end
end
function ref_selector:act()
self:close()
if self.selected == 3 then
return sync_to_manual_offset()
end
if self.selected == 4 then
return
end
engine_selector:init()
end
function ref_selector:call_subsync()
if self.selected == 1 then
sync_subtitles()
elseif self.selected == 2 then
sync_to_subtitle()
elseif self.selected == 3 then
sync_to_manual_offset()
end
end
function ref_selector:open()
self.selected = 1
for _, val in pairs(self:get_keybindings()) do
mp.add_forced_key_binding(val.key, val.key, val.fn)
end
self:draw()
end
function ref_selector:close()
for _, val in pairs(self:get_keybindings()) do
mp.remove_key_binding(val.key)
end
self:erase()
end
------------------------------------------------------------
-- Engine selector
engine_selector = ref_selector:new {
items = { 'ffsubsync', 'alass', 'Cancel' },
last_choice = 'ffsubsync',
}
function engine_selector:init()
if not engine_is_set() then
engine_selector:open()
else
track_selector:init()
end
end
function engine_selector:get_engine_name()
return engine_is_set() and ref_selector:get_subsync_tool() or self.last_choice
end
function engine_selector:act()
self:close()
if self.selected == 1 then
self.last_choice = 'ffsubsync'
elseif self.selected == 2 then
self.last_choice = 'alass'
elseif self.selected == 3 then
return
end
track_selector:init()
end
------------------------------------------------------------
-- Track selector
track_selector = ref_selector:new { }
local function is_supported_format(track)
local supported_format = true
if track.external then
local ext = get_extension(track['external-filename'])
if ext ~= '.srt' and ext ~= '.ass' then
supported_format = false
end
end
return supported_format
end
function track_selector:init()
self.selected = 0
if ref_selector:get_ref() == 'audio' then
return ref_selector:call_subsync()
end
self.all_sub_tracks = get_loaded_tracks(ref_selector:get_ref())
self.secondary_sid = mp.get_property_native('secondary-sid')
self.tracks = {}
self.items = {}
for _, track in ipairs(self.all_sub_tracks) do
if (not track.selected or track.id == self.secondary_sid) and is_supported_format(track) then
table.insert(self.tracks, track)
table.insert(
self.items,
string.format(
"%s #%s - %s%s",
(track.external and 'External' or 'Internal'),
track['id'],
(track.lang or (track.title and track.title:gsub('^.*%.', '') or 'unknown')),
(track.selected and ' (active)' or '')
)
)
end
end
if #self.items == 0 then
notify("No supported subtitle tracks found.", "warn", 5)
return
end
table.insert(self.items, "Cancel")
self:open()
end
function track_selector:get_selected_track()
if self.selected < 1 then
return nil
end
return self.tracks[self.selected]
end
function track_selector:act()
self:close()
if self.selected == #self.items then
return
end
ref_selector:call_subsync()
end
------------------------------------------------------------
-- Initialize the addon
local function init()
for _, executable in pairs { 'ffmpeg', 'ffsubsync', 'alass' } do
local config_key = executable .. '_path'
config[config_key] = h.is_empty(config[config_key]) and h.find_executable(executable) or config[config_key]
end
end
------------------------------------------------------------
-- Entry point
init()
mp.add_key_binding("n", "autosubsync-menu", function() ref_selector:open() end)
scripts/autosubsync/helpers.lua
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local utils = require('mp.utils')
local self = {}
function self.is_empty(var)
return var == nil or var == '' or (type(var) == 'table' and next(var) == nil)
end
function self.file_exists(filepath)
if not self.is_empty(filepath) then
local info = utils.file_info(filepath)
if info and info.is_file then
return true
end
end
return false
end
function self.alt_dirs()
return {
'/opt/homebrew/bin',
'/usr/local/bin',
utils.join_path(os.getenv("HOME") or "~", '.local/bin'),
}
end
function self.find_executable(name)
local exec_path
for _, path in pairs(self.alt_dirs()) do
exec_path = utils.join_path(path, name)
if self.file_exists(exec_path) then
return exec_path
end
end
return name
end
function self.is_path(str)
return not not string.match(str, '[/\\]')
end
return self
scripts/autosubsync/main.lua
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require('autosubsync')
scripts/autosubsync/menu.lua
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------------------------------------------------------------
-- Menu visuals
local mp = require('mp')
local assdraw = require('mp.assdraw')
local Menu = assdraw.ass_new()
function Menu:new(o)
self.__index = self
o = o or {}
o.selected = o.selected or 1
o.canvas_width = o.canvas_width or 1280
o.canvas_height = o.canvas_height or 720
o.pos_x = o.pos_x or 0
o.pos_y = o.pos_y or 0
o.rect_width = o.rect_width or 320
o.rect_height = o.rect_height or 40
o.active_color = o.active_color or 'ffffff'
o.inactive_color = o.inactive_color or 'aaaaaa'
o.border_color = o.border_color or '000000'
o.text_color = o.text_color or 'ffffff'
return setmetatable(o, self)
end
function Menu:set_position(x, y)
self.pos_x = x
self.pos_y = y
end
function Menu:font_size(size)
self:append(string.format([[{\fs%s}]], size))
end
function Menu:set_text_color(code)
self:append(string.format("{\\1c&H%s%s%s&\\1a&H05&}", code:sub(5, 6), code:sub(3, 4), code:sub(1, 2)))
end
function Menu:set_border_color(code)
self:append(string.format("{\\3c&H%s%s%s&}", code:sub(5, 6), code:sub(3, 4), code:sub(1, 2)))
end
function Menu:apply_text_color()
self:set_border_color(self.border_color)
self:set_text_color(self.text_color)
end
function Menu:apply_rect_color(i)
self:set_border_color(self.border_color)
if i == self.selected then
self:set_text_color(self.active_color)
else
self:set_text_color(self.inactive_color)
end
end
function Menu:draw_text(i)
local padding = 5
local font_size = 25
self:new_event()
self:pos(self.pos_x + padding, self.pos_y + self.rect_height * (i - 1) + padding)
self:font_size(font_size)
self:apply_text_color(i)
self:append(self.items[i])
end
function Menu:draw_item(i)
self:new_event()
self:pos(self.pos_x, self.pos_y)
self:apply_rect_color(i)
self:draw_start()
self:rect_cw(0, 0 + (i - 1) * self.rect_height, self.rect_width, i * self.rect_height)
self:draw_stop()
self:draw_text(i)
end
function Menu:draw()
self.text = ''
for i, _ in ipairs(self.items) do
self:draw_item(i)
end
mp.set_osd_ass(self.canvas_width, self.canvas_height, self.text)
end
function Menu:erase()
mp.set_osd_ass(self.canvas_width, self.canvas_height, '')
end
function Menu:up()
self.selected = self.selected - 1
if self.selected == 0 then
self.selected = #self.items
end
self:draw()
end
function Menu:down()
self.selected = self.selected + 1
if self.selected > #self.items then
self.selected = 1
end
self:draw()
end
return Menu
scripts/autosubsync/subtitle.lua
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local P = {}
local TimeStamp = {}
local TimeStamp_mt = { __index = TimeStamp }
function TimeStamp:new(hours, minutes, seconds)
local new = {}
new.hours = hours
new.minutes = minutes
new.seconds = seconds
return setmetatable(new, TimeStamp_mt)
end
function TimeStamp.toTimeStamp(seconds)
local diff, h, m, s = seconds, 0, 0, 0
h = math.floor(diff / 3600)
diff = diff - (h * 3600)
m = math.floor(diff / 60)
diff = diff - (m * 60)
s = diff
return TimeStamp:new(h, m, s)
end
function TimeStamp:toSeconds()
return (3600 * self.hours) + (60 * self.minutes) + self.seconds
end
function TimeStamp:adjustTime(seconds)
return self.toTimeStamp(self:toSeconds() + seconds)
end
function TimeStamp:toString(decimal_symbol)
local seconds_fmt = string.format("%06.3f", self.seconds):gsub("%.", decimal_symbol)
return string.format("%02d:%02d:%s", self.hours, self.minutes, seconds_fmt)
end
function TimeStamp.to_seconds(seconds, milliseconds)
return tonumber(string.format("%s.%s", seconds, milliseconds))
end
local AbstractSubtitle = {}
local AbstractSubtitle_mt = { __index = AbstractSubtitle }
function AbstractSubtitle:create()
local new = {}
return setmetatable(new, AbstractSubtitle_mt)
end
function AbstractSubtitle:save()
print(string.format("Writing '%s' to file..", self.filename))
local f = io.open(self.filename, 'w')
f:write(self:toString())
f:close()
end
-- strip Byte Order Mark from file, if it's present
function AbstractSubtitle:sanitize(line)
local bom_table = { 0xEF, 0xBB, 0xBF } -- TODO maybe add other ones (like UTF-16)
local function has_bom()
for i = 1, #bom_table do
if i > #line then return false end
local ch, byte = line:sub(i, i), line:byte(i, i)
if byte ~= bom_table[i] then return false end
end
return true
end
return has_bom() and string.sub(line, #bom_table + 1) or line
end
local function trim(s)
return s:match "^%s*(.-)%s*$"
end
function AbstractSubtitle:parse_file(filename)
local lines = {}
for line in io.lines(filename) do
if #lines == 0 then line = self:sanitize(line) end
line = line:gsub('\r\n?', '') -- make sure there's no carriage return
line = trim(line)
table.insert(lines, line)
end
return lines
end
function AbstractSubtitle:shift_timing(diff_seconds)
for _, entry in pairs(self.entries) do
if self.valid_entry(entry) then
entry.start_time = entry.start_time:adjustTime(diff_seconds)
entry.end_time = entry.end_time:adjustTime(diff_seconds)
end
end
end
function AbstractSubtitle.valid_entry(entry)
return entry ~= nil
end
local function inheritsFrom (baseClass)
local new_class = {}
local class_mt = { __index = new_class }
function new_class:create(filename)
local instance = {
filename = filename,
language = nil,
header = nil, -- will be empty for srt, some stuff for ass
entries = {} -- list of entries
}
setmetatable(instance, class_mt)
return instance
end
if baseClass then
setmetatable(new_class, { __index = baseClass })
end
return new_class
end
local SRT = inheritsFrom(AbstractSubtitle)
function SRT.entry()
return { index = nil, start_time = nil, end_time = nil, text = {} }
end
function SRT:populate(filename)
local timestamp_fmt = "^(%d+):(%d+):(%d+),(%d+) %-%-> (%d+):(%d+):(%d+),(%d+)$"
local function parse_timestamp(timestamp)
local function to_seconds(seconds, milliseconds)
return tonumber(string.format("%s.%s", seconds, milliseconds))
end
local _, _, from_h, from_m, from_s, from_ms, to_h, to_m, to_s, to_ms = timestamp:find(timestamp_fmt)
return TimeStamp:new(from_h, from_m, to_seconds(from_s, from_ms)), TimeStamp:new(to_h, to_m, to_seconds(to_s, to_ms))
end
local new = self:create(filename)
local entry = self.entry()
local f_idx, idx = 1, 1
for _, line in pairs(self:parse_file(filename)) do
if idx == 1 and #line > 0 then
assert(line:match("^%d+$"), string.format("SRT FORMAT ERROR (line %d): expected a number but got '%s'", f_idx, line))
entry.index = line
elseif idx == 2 then
assert(line:match("^%d+:%d+:%d+,%d+ %-%-> %d+:%d+:%d+,%d+$"), string.format("SRT FORMAT ERROR (line %d): expected a timecode string but got '%s'", f_idx, line))
local t_start, t_end = parse_timestamp(line)
entry.start_time, entry.end_time = t_start, t_end
else
if #line == 0 then
-- end of text
if entry.index ~= nil then
table.insert(new.entries, entry)
end
entry = SRT.entry()
idx = 0
else
table.insert(entry.text, line)
end
end
idx = idx + 1
f_idx = f_idx + 1
end
return new
end
function SRT:toString()
local stringbuilder = {}
local function append(s)
table.insert(stringbuilder, s)
end
for _, entry in pairs(self.entries) do
append(entry.index)
local timestamp_string = string.format("%s --> %s", entry.start_time:toString(","), entry.end_time:toString(","))
append(timestamp_string)
if type(entry.text) == 'table' then
append(table.concat(entry.text, "\n"))
else append(entry.text) end
append('')
end
return table.concat(stringbuilder, '\n')
end
local ASS = inheritsFrom(AbstractSubtitle)
ASS.header_mapper = { ["Start"] = "start_time", ["End"] = "end_time" }
function ASS.valid_entry(entry)
return entry['type'] ~= nil
end
function ASS:toString()
local stringbuilder = {}
local function append(s) table.insert(stringbuilder, s) end
append(self.header)
append('[Events]')
for i = 1, #self.entries do
if i == 1 then
-- stringbuilder for events header
local event_sb = {};
for _, v in pairs(self.event_header) do table.insert(event_sb, v) end
append(string.format("Format: %s", table.concat(event_sb, ", ")))
end
local entry = self.entries[i]
local entry_sb = {}
for _, col in pairs(self.event_header) do
local value = entry[col]
local timestamp_entry_column = self.header_mapper[col]
if timestamp_entry_column then
value = entry[timestamp_entry_column]:toString(".")
end
table.insert(entry_sb, value)
end
append(string.format("%s: %s", entry['type'], table.concat(entry_sb, ",")))
end
return table.concat(stringbuilder, '\n')
end
function ASS:populate(filename, language)
local header, events, parser = {}, {}, nil
for _, line in pairs(self:parse_file(filename)) do
local _, _, event = string.find(line, "^%[([^%]]+)%]%s*$")
if event then
if event == "Events" then
parser = function(x) table.insert(events, x) end
else
parser = function(x) table.insert(header, x) end
parser(line)
end
else
parser(line)
end
end
-- create subtitle instance
local ev_regex = "^(%a+):%s(.+)$"
local function parse_event(header_columns, ev)
local function create_timestamp(timestamp_str)
local timestamp_fmt = "^(%d+):(%d+):(%d+).(%d+)"
local _, _, h, m, s, ms = timestamp_str:find(timestamp_fmt)
return TimeStamp:new(h, m, TimeStamp.to_seconds(s, ms))
end
local new_event = {}
local _, _, ev_type, ev_values = string.find(ev, ev_regex)
new_event['type'] = ev_type
-- skipping last column, since that's the text, which can contain commas
local last_idx = 0;
for i = 1, #header_columns - 1 do
local col = header_columns[i]
local idx = string.find(ev_values, ",", last_idx + 1)
local val = ev_values:sub(last_idx + 1, idx - 1)
local timestamp_entry_column = self.header_mapper[col]
if timestamp_entry_column then
new_event[timestamp_entry_column] = create_timestamp(val)
else
new_event[col] = val
end
last_idx = idx
end
new_event[header_columns[#header_columns]] = ev_values:sub(last_idx + 1)
return new_event
end
local sub = self:create(filename)
sub.header = table.concat(header, "\n")
sub.language = language
-- remove and process first entry in events, which is a header
local _, _, colstring = string.find(table.remove(events, 1), "^%a+:%s(.+)$")
local columns = {};
for i in colstring:gmatch("[^%,%s]+") do table.insert(columns, i) end
sub.event_header = columns
for _, event in pairs(events) do
if #event > 0 then
table.insert(sub.entries, parse_event(columns, event))
end
end
return sub
end
P.AbstractSubtitle = AbstractSubtitle
P.ASS = ASS
P.SRT = SRT
return P
scripts/modernx.lua
+2741
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scripts/repl.lua
+675
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@@ -0,0 +1,675 @@
-- repl.lua -- A graphical REPL for mpv input commands
--
-- © 2016, James Ross-Gowan
--
-- Permission to use, copy, modify, and/or distribute this software for any
-- purpose with or without fee is hereby granted, provided that the above
-- copyright notice and this permission notice appear in all copies.
--
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
-- SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
-- OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
-- CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
local utils = require 'mp.utils'
local options = require 'mp.options'
local assdraw = require 'mp.assdraw'
-- Default options
local opts = {
-- All drawing is scaled by this value, including the text borders and the
-- cursor. Change it if you have a high-DPI display.
scale = 1,
-- Set the font used for the REPL and the console. This probably doesn't
-- have to be a monospaced font.
font = 'monospace',
-- Set the font size used for the REPL and the console. This will be
-- multiplied by "scale."
['font-size'] = 16,
}
function detect_platform()
local o = {}
-- Kind of a dumb way of detecting the platform but whatever
if mp.get_property_native('options/vo-mmcss-profile', o) ~= o then
return 'windows'
elseif mp.get_property_native('options/cocoa-force-dedicated-gpu', o) ~= o then
return 'macos'
end
return 'linux'
end
-- Pick a better default font for Windows and macOS
local platform = detect_platform()
if platform == 'windows' then
opts.font = 'Consolas'
elseif platform == 'macos' then
opts.font = 'Menlo'
end
-- Apply user-set options
options.read_options(opts)
-- Build a list of commands, properties and options for tab-completion
local option_info = {
'name', 'type', 'set-from-commandline', 'set-locally', 'default-value',
'min', 'max', 'choices',
}
local cmd_list = {
'ignore', 'seek', 'revert-seek', 'quit', 'quit-watch-later', 'stop',
'frame-step', 'frame-back-step', 'playlist-next', 'playlist-prev',
'playlist-shuffle', 'sub-step', 'sub-seek', 'osd', 'print-text',
'show-text', 'show-progress', 'sub-add', 'sub-remove', 'sub-reload',
'tv-last-channel', 'screenshot', 'screenshot-to-file', 'screenshot-raw',
'loadfile', 'loadlist', 'playlist-clear', 'playlist-remove',
'playlist-move', 'run', 'set', 'add', 'cycle', 'multiply', 'cycle-values',
'enable-section', 'disable-section', 'define-section', 'ab-loop',
'drop-buffers', 'af', 'af-command', 'ao-reload', 'vf', 'vf-command',
'script-binding', 'script-message', 'script-message-to', 'overlay-add',
'overlay-remove', 'write-watch-later-config', 'hook-add', 'hook-ack',
'mouse', 'keypress', 'keydown', 'keyup', 'audio-add', 'audio-remove',
'audio-reload', 'rescan-external-file', 'apply-profile', 'load-script',
}
local prop_list = mp.get_property_native('property-list')
for _, opt in ipairs(mp.get_property_native('options')) do
prop_list[#prop_list + 1] = 'options/' .. opt
prop_list[#prop_list + 1] = 'file-local-options/' .. opt
prop_list[#prop_list + 1] = 'option-info/' .. opt
for _, p in ipairs(option_info) do
prop_list[#prop_list + 1] = 'option-info/' .. opt .. '/' .. p
end
end
local repl_active = false
local insert_mode = false
local line = ''
local cursor = 1
local history = {}
local history_pos = 1
local log_ring = {}
-- Add a line to the log buffer (which is limited to 100 lines)
function log_add(style, text)
log_ring[#log_ring + 1] = { style = style, text = text }
if #log_ring > 100 then
table.remove(log_ring, 1)
end
end
-- Escape a string for verbatim display on the OSD
function ass_escape(str)
-- There is no escape for '\' in ASS (I think?) but '\' is used verbatim if
-- it isn't followed by a recognised character, so add a zero-width
-- non-breaking space
str = str:gsub('\\', '\\\239\187\191')
str = str:gsub('{', '\\{')
str = str:gsub('}', '\\}')
-- Precede newlines with a ZWNBSP to prevent ASS's weird collapsing of
-- consecutive newlines
str = str:gsub('\n', '\239\187\191\\N')
return str
end
-- Render the REPL and console as an ASS OSD
function update()
local screenx, screeny, aspect = mp.get_osd_size()
screenx = screenx / opts.scale
screeny = screeny / opts.scale
-- Clear the OSD if the REPL is not active
if not repl_active then
mp.set_osd_ass(screenx, screeny, '')
return
end
local ass = assdraw.ass_new()
local style = '{\\r' ..
'\\1a&H00&\\3a&H00&\\4a&H99&' ..
'\\1c&Heeeeee&\\3c&H111111&\\4c&H000000&' ..
'\\fn' .. opts.font .. '\\fs' .. opts['font-size'] ..
'\\bord2\\xshad0\\yshad1\\fsp0\\q1}'
-- Create the cursor glyph as an ASS drawing. ASS will draw the cursor
-- inline with the surrounding text, but it sets the advance to the width
-- of the drawing. So the cursor doesn't affect layout too much, make it as
-- thin as possible and make it appear to be 1px wide by giving it 0.5px
-- horizontal borders.
local cheight = opts['font-size'] * 8
local cglyph = '{\\r' ..
'\\1a&H44&\\3a&H44&\\4a&H99&' ..
'\\1c&Heeeeee&\\3c&Heeeeee&\\4c&H000000&' ..
'\\xbord0.5\\ybord0\\xshad0\\yshad1\\p4\\pbo24}' ..
'm 0 0 l 1 0 l 1 ' .. cheight .. ' l 0 ' .. cheight ..
'{\\p0}'
local before_cur = ass_escape(line:sub(1, cursor - 1))
local after_cur = ass_escape(line:sub(cursor))
-- Render log messages as ASS. This will render at most screeny / font-size
-- messages.
local log_ass = ''
local log_messages = #log_ring
local log_max_lines = math.ceil(screeny / opts['font-size'])
if log_max_lines < log_messages then
log_messages = log_max_lines
end
for i = #log_ring - log_messages + 1, #log_ring do
log_ass = log_ass .. style .. log_ring[i].style .. ass_escape(log_ring[i].text)
end
ass:new_event()
ass:an(1)
ass:pos(2, screeny - 2)
ass:append(log_ass .. '\\N')
ass:append(style .. '> ' .. before_cur)
ass:append(cglyph)
ass:append(style .. after_cur)
-- Redraw the cursor with the REPL text invisible. This will make the
-- cursor appear in front of the text.
ass:new_event()
ass:an(1)
ass:pos(2, screeny - 2)
ass:append(style .. '{\\alpha&HFF&}> ' .. before_cur)
ass:append(cglyph)
ass:append(style .. '{\\alpha&HFF&}' .. after_cur)
mp.set_osd_ass(screenx, screeny, ass.text)
end
-- Set the REPL visibility (`, Esc)
function set_active(active)
if active == repl_active then return end
if active then
repl_active = true
insert_mode = false
mp.enable_key_bindings('repl-input', 'allow-hide-cursor+allow-vo-dragging')
else
repl_active = false
mp.disable_key_bindings('repl-input')
end
update()
end
-- Show the repl if hidden and replace its contents with 'text'
-- (script-message-to repl type)
function show_and_type(text)
text = text or ''
-- Save the line currently being edited, just in case
if line ~= text and line ~= '' and history[#history] ~= line then
history[#history + 1] = line
end
line = text
cursor = line:len() + 1
history_pos = #history + 1
insert_mode = false
if repl_active then
update()
else
set_active(true)
end
end
-- Naive helper function to find the next UTF-8 character in 'str' after 'pos'
-- by skipping continuation bytes. Assumes 'str' contains valid UTF-8.
function next_utf8(str, pos)
if pos > str:len() then return pos end
repeat
pos = pos + 1
until pos > str:len() or str:byte(pos) < 0x80 or str:byte(pos) > 0xbf
return pos
end
-- As above, but finds the previous UTF-8 charcter in 'str' before 'pos'
function prev_utf8(str, pos)
if pos <= 1 then return pos end
repeat
pos = pos - 1
until pos <= 1 or str:byte(pos) < 0x80 or str:byte(pos) > 0xbf
return pos
end
-- Insert a character at the current cursor position (' '-'~', Shift+Enter)
function handle_char_input(c)
if insert_mode then
line = line:sub(1, cursor - 1) .. c .. line:sub(next_utf8(line, cursor))
else
line = line:sub(1, cursor - 1) .. c .. line:sub(cursor)
end
cursor = cursor + 1
update()
end
-- Remove the character behind the cursor (Backspace)
function handle_backspace()
if cursor <= 1 then return end
local prev = prev_utf8(line, cursor)
line = line:sub(1, prev - 1) .. line:sub(cursor)
cursor = prev
update()
end
-- Remove the character in front of the cursor (Del)
function handle_del()
if cursor > line:len() then return end
line = line:sub(1, cursor - 1) .. line:sub(next_utf8(line, cursor))
update()
end
-- Toggle insert mode (Ins)
function handle_ins()
insert_mode = not insert_mode
end
-- Move the cursor to the next character (Right)
function next_char(amount)
cursor = next_utf8(line, cursor)
update()
end
-- Move the cursor to the previous character (Left)
function prev_char(amount)
cursor = prev_utf8(line, cursor)
update()
end
-- Clear the current line (Ctrl+C)
function clear()
line = ''
cursor = 1
insert_mode = false
history_pos = #history + 1
update()
end
-- Close the REPL if the current line is empty, otherwise do nothing (Ctrl+D)
function maybe_exit()
if line == '' then
set_active(false)
end
end
-- Run the current command and clear the line (Enter)
function handle_enter()
if line == '' then
return
end
if history[#history] ~= line then
history[#history + 1] = line
end
mp.command(line)
clear()
end
-- Go to the specified position in the command history
function go_history(new_pos)
local old_pos = history_pos
history_pos = new_pos
-- Restrict the position to a legal value
if history_pos > #history + 1 then
history_pos = #history + 1
elseif history_pos < 1 then
history_pos = 1
end
-- Do nothing if the history position didn't actually change
if history_pos == old_pos then
return
end
-- If the user was editing a non-history line, save it as the last history
-- entry. This makes it much less frustrating to accidentally hit Up/Down
-- while editing a line.
if old_pos == #history + 1 and line ~= '' and history[#history] ~= line then
history[#history + 1] = line
end
-- Now show the history line (or a blank line for #history + 1)
if history_pos <= #history then
line = history[history_pos]
else
line = ''
end
cursor = line:len() + 1
insert_mode = false
update()
end
-- Go to the specified relative position in the command history (Up, Down)
function move_history(amount)
go_history(history_pos + amount)
end
-- Go to the first command in the command history (PgUp)
function handle_pgup()
go_history(1)
end
-- Stop browsing history and start editing a blank line (PgDown)
function handle_pgdown()
go_history(#history + 1)
end
-- Move to the start of the current word, or if already at the start, the start
-- of the previous word. (Ctrl+Left)
function prev_word()
-- This is basically the same as next_word() but backwards, so reverse the
-- string in order to do a "backwards" find. This wouldn't be as annoying
-- to do if Lua didn't insist on 1-based indexing.
cursor = line:len() - select(2, line:reverse():find('%s*[^%s]*', line:len() - cursor + 2)) + 1
update()
end
-- Move to the end of the current word, or if already at the end, the end of
-- the next word. (Ctrl+Right)
function next_word()
cursor = select(2, line:find('%s*[^%s]*', cursor)) + 1
update()
end
-- List of tab-completions:
-- pattern: A Lua pattern used in string:find. Should return the start and
-- end positions of the word to be completed in the first and second
-- capture groups (using the empty parenthesis notation "()")
-- list: A list of candidate completion values.
-- append: An extra string to be appended to the end of a successful
-- completion. It is only appended if 'list' contains exactly one
-- match.
local completers = {
{ pattern = '^%s*()[%w_-]+()$', list = cmd_list, append = ' ' },
{ pattern = '^%s*set%s+()[%w_/-]+()$', list = prop_list, append = ' ' },
{ pattern = '^%s*set%s+"()[%w_/-]+()$', list = prop_list, append = '" ' },
{ pattern = '^%s*add%s+()[%w_/-]+()$', list = prop_list, append = ' ' },
{ pattern = '^%s*add%s+"()[%w_/-]+()$', list = prop_list, append = '" ' },
{ pattern = '^%s*cycle%s+()[%w_/-]+()$', list = prop_list, append = ' ' },
{ pattern = '^%s*cycle%s+"()[%w_/-]+()$', list = prop_list, append = '" ' },
{ pattern = '^%s*multiply%s+()[%w_/-]+()$', list = prop_list, append = ' ' },
{ pattern = '^%s*multiply%s+"()[%w_/-]+()$', list = prop_list, append = '" ' },
{ pattern = '${()[%w_/-]+()$', list = prop_list, append = '}' },
}
-- Use 'list' to find possible tab-completions for 'part.' Returns the longest
-- common prefix of all the matching list items and a flag that indicates
-- whether the match was unique or not.
function complete_match(part, list)
local completion = nil
local full_match = false
for _, candidate in ipairs(list) do
if candidate:sub(1, part:len()) == part then
if completion and completion ~= candidate then
local prefix_len = part:len()
while completion:sub(1, prefix_len + 1)
== candidate:sub(1, prefix_len + 1) do
prefix_len = prefix_len + 1
end
completion = candidate:sub(1, prefix_len)
full_match = false
else
completion = candidate
full_match = true
end
end
end
return completion, full_match
end
-- Complete the option or property at the cursor (TAB)
function complete()
local before_cur = line:sub(1, cursor - 1)
local after_cur = line:sub(cursor)
-- Try the first completer that works
for _, completer in ipairs(completers) do
-- Completer patterns should return the start and end of the word to be
-- completed as the first and second capture groups
local _, _, s, e = before_cur:find(completer.pattern)
if not s then
-- Multiple input commands can be separated by semicolons, so all
-- completions that are anchored at the start of the string with
-- '^' can start from a semicolon as well. Replace ^ with ; and try
-- to match again.
_, _, s, e = before_cur:find(completer.pattern:gsub('^^', ';'))
end
if s then
-- If the completer's pattern found a word, check the completer's
-- list for possible completions
local part = before_cur:sub(s, e)
local c, full = complete_match(part, completer.list)
if c then
-- If there was only one full match from the list, add
-- completer.append to the final string. This is normally a
-- space or a quotation mark followed by a space.
if full and completer.append then
c = c .. completer.append
end
-- Insert the completion and update
before_cur = before_cur:sub(1, s - 1) .. c
cursor = before_cur:len() + 1
line = before_cur .. after_cur
update()
return
end
end
end
end
-- Move the cursor to the beginning of the line (HOME)
function go_home()
cursor = 1
update()
end
-- Move the cursor to the end of the line (END)
function go_end()
cursor = line:len() + 1
update()
end
-- Delete from the cursor to the end of the word (Ctrl+W)
function del_word()
local before_cur = line:sub(1, cursor - 1)
local after_cur = line:sub(cursor)
before_cur = before_cur:gsub('[^%s]+%s*$', '', 1)
line = before_cur .. after_cur
cursor = before_cur:len() + 1
update()
end
-- Delete from the cursor to the end of the line (Ctrl+K)
function del_to_eol()
line = line:sub(1, cursor - 1)
update()
end
-- Delete from the cursor back to the start of the line (Ctrl+U)
function del_to_start()
line = line:sub(cursor)
cursor = 1
update()
end
-- Empty the log buffer of all messages (Ctrl+L)
function clear_log_buffer()
log_ring = {}
update()
end
-- Returns a string of UTF-8 text from the clipboard (or the primary selection)
function get_clipboard(clip)
if platform == 'linux' then
local res = utils.subprocess({
args = { 'xclip', '-selection', clip and 'clipboard' or 'primary', '-out' },
playback_only = false,
})
if not res.error then
return res.stdout
end
elseif platform == 'windows' then
local res = utils.subprocess({
args = { 'powershell', '-NoProfile', '-Command', [[& {
Trap {
Write-Error -ErrorRecord $_
Exit 1
}
$clip = ""
if (Get-Command "Get-Clipboard" -errorAction SilentlyContinue) {
$clip = Get-Clipboard -Raw -Format Text -TextFormatType UnicodeText
} else {
Add-Type -AssemblyName PresentationCore
$clip = [Windows.Clipboard]::GetText()
}
$clip = $clip -Replace "`r",""
$u8clip = [System.Text.Encoding]::UTF8.GetBytes($clip)
[Console]::OpenStandardOutput().Write($u8clip, 0, $u8clip.Length)
}]] },
playback_only = false,
})
if not res.error then
return res.stdout
end
elseif platform == 'macos' then
local res = utils.subprocess({
args = { 'pbpaste' },
playback_only = false,
})
if not res.error then
return res.stdout
end
end
return ''
end
-- Paste text from the window-system's clipboard. 'clip' determines whether the
-- clipboard or the primary selection buffer is used (on X11 only.)
function paste(clip)
local text = get_clipboard(clip)
local before_cur = line:sub(1, cursor - 1)
local after_cur = line:sub(cursor)
line = before_cur .. text .. after_cur
cursor = cursor + text:len()
update()
end
-- The REPL has pretty specific requirements for key bindings that aren't
-- really satisified by any of mpv's helper methods, since they must be in
-- their own input section, but they must also raise events on key-repeat.
-- Hence, this function manually creates an input section and puts a list of
-- bindings in it.
function add_repl_bindings(bindings)
local cfg = ''
for i, binding in ipairs(bindings) do
local key = binding[1]
local fn = binding[2]
local name = '__repl_binding_' .. i
mp.add_key_binding(nil, name, fn, 'repeatable')
cfg = cfg .. key .. ' script-binding ' .. mp.script_name .. '/' ..
name .. '\n'
end
mp.commandv('define-section', 'repl-input', cfg, 'force')
end
-- Mapping from characters to mpv key names
local binding_name_map = {
[' '] = 'SPACE',
['#'] = 'SHARP',
}
-- List of input bindings. This is a weird mashup between common GUI text-input
-- bindings and readline bindings.
local bindings = {
{ 'esc', function() set_active(false) end },
{ 'enter', handle_enter },
{ 'shift+enter', function() handle_char_input('\n') end },
{ 'bs', handle_backspace },
{ 'shift+bs', handle_backspace },
{ 'del', handle_del },
{ 'shift+del', handle_del },
{ 'ins', handle_ins },
{ 'shift+ins', function() paste(false) end },
{ 'mouse_btn1', function() paste(false) end },
{ 'left', function() prev_char() end },
{ 'right', function() next_char() end },
{ 'up', function() move_history(-1) end },
{ 'axis_up', function() move_history(-1) end },
{ 'mouse_btn3', function() move_history(-1) end },
{ 'down', function() move_history(1) end },
{ 'axis_down', function() move_history(1) end },
{ 'mouse_btn4', function() move_history(1) end },
{ 'axis_left', function() end },
{ 'axis_right', function() end },
{ 'ctrl+left', prev_word },
{ 'ctrl+right', next_word },
{ 'tab', complete },
{ 'home', go_home },
{ 'end', go_end },
{ 'pgup', handle_pgup },
{ 'pgdwn', handle_pgdown },
{ 'ctrl+c', clear },
{ 'ctrl+d', maybe_exit },
{ 'ctrl+k', del_to_eol },
{ 'ctrl+l', clear_log_buffer },
{ 'ctrl+u', del_to_start },
{ 'ctrl+v', function() paste(true) end },
{ 'meta+v', function() paste(true) end },
{ 'ctrl+w', del_word },
}
-- Add bindings for all the printable US-ASCII characters from ' ' to '~'
-- inclusive. Note, this is a pretty hacky way to do text input. mpv's input
-- system was designed for single-key key bindings rather than text input, so
-- things like dead-keys and non-ASCII input won't work. This is probably okay
-- though, since all mpv's commands and properties can be represented in ASCII.
for b = (' '):byte(), ('~'):byte() do
local c = string.char(b)
local binding = binding_name_map[c] or c
bindings[#bindings + 1] = {binding, function() handle_char_input(c) end}
end
add_repl_bindings(bindings)
-- Add a global binding for enabling the REPL. While it's enabled, its bindings
-- will take over and it can be closed with ESC.
mp.add_key_binding('`', 'repl-enable', function()
set_active(true)
end)
-- Add a script-message to show the REPL and fill it with the provided text
mp.register_script_message('type', function(text)
show_and_type(text)
end)
-- Redraw the REPL when the OSD size changes. This is needed because the
-- PlayRes of the OSD will need to be adjusted.
mp.observe_property('osd-width', 'native', update)
mp.observe_property('osd-height', 'native', update)
-- Watch for log-messages and print them in the REPL console
mp.enable_messages('info')
mp.register_event('log-message', function(e)
-- Ignore log messages from the OSD because of paranoia, since writing them
-- to the OSD could generate more messages in an infinite loop.
if e.prefix:sub(1, 3) == 'osd' then return end
-- Use color for warn/error/fatal messages. Colors are stolen from base16
-- Eighties by Chris Kempson.
local style = ''
if e.level == 'warn' then
style = '{\\1c&H66ccff&}'
elseif e.level == 'error' then
style = '{\\1c&H7a77f2&}'
elseif e.level == 'fatal' then
style = '{\\1c&H5791f9&\\b1}'
end
log_add(style, '[' .. e.prefix .. '] ' .. e.text)
update()
end)
scripts/thumbfast.lua
+940
View File
@@ -0,0 +1,940 @@
-- thumbfast.lua
--
-- High-performance on-the-fly thumbnailer
--
-- Built for easy integration in third-party UIs.
--[[
This Source Code Form is subject to the terms of the Mozilla Public
License, v. 2.0. If a copy of the MPL was not distributed with this
file, You can obtain one at https://mozilla.org/MPL/2.0/.
]]
local options = {
-- Socket path (leave empty for auto)
socket = "",
-- Thumbnail path (leave empty for auto)
thumbnail = "",
-- Maximum thumbnail generation size in pixels (scaled down to fit)
-- Values are scaled when hidpi is enabled
max_height = 200,
max_width = 200,
-- Scale factor for thumbnail display size (requires mpv 0.38+)
-- Note that this is lower quality than increasing max_height and max_width
scale_factor = 1,
-- Apply tone-mapping, no to disable
tone_mapping = "auto",
-- Overlay id
overlay_id = 42,
-- Spawn thumbnailer on file load for faster initial thumbnails
spawn_first = false,
-- Close thumbnailer process after an inactivity period in seconds, 0 to disable
quit_after_inactivity = 0,
-- Enable on network playback
network = false,
-- Enable on audio playback
audio = false,
-- Enable hardware decoding
hwdec = false,
-- Windows only: use native Windows API to write to pipe (requires LuaJIT)
direct_io = false,
-- Custom path to the mpv executable
mpv_path = "mpv"
}
mp.utils = require "mp.utils"
mp.options = require "mp.options"
mp.options.read_options(options, "thumbfast")
local properties = {}
local pre_0_30_0 = mp.command_native_async == nil
local pre_0_33_0 = true
function subprocess(args, async, callback)
callback = callback or function() end
if not pre_0_30_0 then
if async then
return mp.command_native_async({name = "subprocess", playback_only = true, args = args}, callback)
else
return mp.command_native({name = "subprocess", playback_only = false, capture_stdout = true, args = args})
end
else
if async then
return mp.utils.subprocess_detached({args = args}, callback)
else
return mp.utils.subprocess({args = args})
end
end
end
local winapi = {}
if options.direct_io then
local ffi_loaded, ffi = pcall(require, "ffi")
if ffi_loaded then
winapi = {
ffi = ffi,
C = ffi.C,
bit = require("bit"),
socket_wc = "",
-- WinAPI constants
CP_UTF8 = 65001,
GENERIC_WRITE = 0x40000000,
OPEN_EXISTING = 3,
FILE_FLAG_WRITE_THROUGH = 0x80000000,
FILE_FLAG_NO_BUFFERING = 0x20000000,
PIPE_NOWAIT = ffi.new("unsigned long[1]", 0x00000001),
INVALID_HANDLE_VALUE = ffi.cast("void*", -1),
-- don't care about how many bytes WriteFile wrote, so allocate something to store the result once
_lpNumberOfBytesWritten = ffi.new("unsigned long[1]"),
}
-- cache flags used in run() to avoid bor() call
winapi._createfile_pipe_flags = winapi.bit.bor(winapi.FILE_FLAG_WRITE_THROUGH, winapi.FILE_FLAG_NO_BUFFERING)
ffi.cdef[[
void* __stdcall CreateFileW(const wchar_t *lpFileName, unsigned long dwDesiredAccess, unsigned long dwShareMode, void *lpSecurityAttributes, unsigned long dwCreationDisposition, unsigned long dwFlagsAndAttributes, void *hTemplateFile);
bool __stdcall WriteFile(void *hFile, const void *lpBuffer, unsigned long nNumberOfBytesToWrite, unsigned long *lpNumberOfBytesWritten, void *lpOverlapped);
bool __stdcall CloseHandle(void *hObject);
bool __stdcall SetNamedPipeHandleState(void *hNamedPipe, unsigned long *lpMode, unsigned long *lpMaxCollectionCount, unsigned long *lpCollectDataTimeout);
int __stdcall MultiByteToWideChar(unsigned int CodePage, unsigned long dwFlags, const char *lpMultiByteStr, int cbMultiByte, wchar_t *lpWideCharStr, int cchWideChar);
]]
winapi.MultiByteToWideChar = function(MultiByteStr)
if MultiByteStr then
local utf16_len = winapi.C.MultiByteToWideChar(winapi.CP_UTF8, 0, MultiByteStr, -1, nil, 0)
if utf16_len > 0 then
local utf16_str = winapi.ffi.new("wchar_t[?]", utf16_len)
if winapi.C.MultiByteToWideChar(winapi.CP_UTF8, 0, MultiByteStr, -1, utf16_str, utf16_len) > 0 then
return utf16_str
end
end
end
return ""
end
else
options.direct_io = false
end
end
local file
local file_bytes = 0
local spawned = false
local disabled = false
local force_disabled = false
local spawn_waiting = false
local spawn_working = false
local script_written = false
local dirty = false
local x, y
local last_x, last_y
local last_seek_time
local effective_w, effective_h = options.max_width, options.max_height
local real_w, real_h
local last_real_w, last_real_h
local script_name
local show_thumbnail = false
local filters_reset = {["lavfi-crop"]=true, ["crop"]=true}
local filters_runtime = {["hflip"]=true, ["vflip"]=true}
local filters_all = {["hflip"]=true, ["vflip"]=true, ["lavfi-crop"]=true, ["crop"]=true}
local tone_mappings = {["none"]=true, ["clip"]=true, ["linear"]=true, ["gamma"]=true, ["reinhard"]=true, ["hable"]=true, ["mobius"]=true}
local last_tone_mapping
local last_vf_reset = ""
local last_vf_runtime = ""
local last_rotate = 0
local par = ""
local last_par = ""
local last_crop = nil
local last_has_vid = 0
local has_vid = 0
local file_timer
local file_check_period = 1/60
local allow_fast_seek = true
local client_script = [=[
#!/usr/bin/env bash
MPV_IPC_FD=0; MPV_IPC_PATH="%s"
trap "kill 0" EXIT
while [[ $# -ne 0 ]]; do case $1 in --mpv-ipc-fd=*) MPV_IPC_FD=${1/--mpv-ipc-fd=/} ;; esac; shift; done
if echo "print-text thumbfast" >&"$MPV_IPC_FD"; then echo -n > "$MPV_IPC_PATH"; tail -f "$MPV_IPC_PATH" >&"$MPV_IPC_FD" & while read -r -u "$MPV_IPC_FD" 2>/dev/null; do :; done; fi
]=]
local function get_os()
local raw_os_name = ""
if jit and jit.os and jit.arch then
raw_os_name = jit.os
else
if package.config:sub(1,1) == "\\" then
-- Windows
local env_OS = os.getenv("OS")
if env_OS then
raw_os_name = env_OS
end
else
raw_os_name = subprocess({"uname", "-s"}).stdout
end
end
raw_os_name = (raw_os_name):lower()
local os_patterns = {
["windows"] = "windows",
["linux"] = "linux",
["osx"] = "darwin",
["mac"] = "darwin",
["darwin"] = "darwin",
["^mingw"] = "windows",
["^cygwin"] = "windows",
["bsd$"] = "darwin",
["sunos"] = "darwin"
}
-- Default to linux
local str_os_name = "linux"
for pattern, name in pairs(os_patterns) do
if raw_os_name:match(pattern) then
str_os_name = name
break
end
end
return str_os_name
end
local os_name = mp.get_property("platform") or get_os()
local path_separator = os_name == "windows" and "\\" or "/"
if options.socket == "" then
if os_name == "windows" then
options.socket = "thumbfast"
else
options.socket = "/tmp/thumbfast"
end
end
if options.thumbnail == "" then
if os_name == "windows" then
options.thumbnail = os.getenv("TEMP").."\\thumbfast.out"
else
options.thumbnail = "/tmp/thumbfast.out"
end
end
local unique = mp.utils.getpid()
options.socket = options.socket .. unique
options.thumbnail = options.thumbnail .. unique
if options.direct_io then
if os_name == "windows" then
winapi.socket_wc = winapi.MultiByteToWideChar("\\\\.\\pipe\\" .. options.socket)
end
if winapi.socket_wc == "" then
options.direct_io = false
end
end
options.scale_factor = math.floor(options.scale_factor)
local mpv_path = options.mpv_path
if mpv_path == "mpv" and os_name == "darwin" and unique then
-- TODO: look into ~~osxbundle/
mpv_path = string.gsub(subprocess({"ps", "-o", "comm=", "-p", tostring(unique)}).stdout, "[\n\r]", "")
if mpv_path ~= "mpv" then
mpv_path = string.gsub(mpv_path, "/mpv%-bundle$", "/mpv")
local mpv_bin = mp.utils.file_info("/usr/local/mpv")
if mpv_bin and mpv_bin.is_file then
mpv_path = "/usr/local/mpv"
else
local mpv_app = mp.utils.file_info("/Applications/mpv.app/Contents/MacOS/mpv")
if mpv_app and mpv_app.is_file then
mp.msg.warn("symlink mpv to fix Dock icons: `sudo ln -s /Applications/mpv.app/Contents/MacOS/mpv /usr/local/mpv`")
else
mp.msg.warn("drag to your Applications folder and symlink mpv to fix Dock icons: `sudo ln -s /Applications/mpv.app/Contents/MacOS/mpv /usr/local/mpv`")
end
end
end
end
local function vo_tone_mapping()
local passes = mp.get_property_native("vo-passes")
if passes and passes["fresh"] then
for k, v in pairs(passes["fresh"]) do
for k2, v2 in pairs(v) do
if k2 == "desc" and v2 then
local tone_mapping = string.match(v2, "([0-9a-z.-]+) tone map")
if tone_mapping then
return tone_mapping
end
end
end
end
end
end
local function vf_string(filters, full)
local vf = ""
local vf_table = properties["vf"]
if (properties["video-crop"] or "") ~= "" then
vf = "lavfi-crop="..string.gsub(properties["video-crop"], "(%d*)x?(%d*)%+(%d+)%+(%d+)", "w=%1:h=%2:x=%3:y=%4")..","
local width = properties["video-out-params"] and properties["video-out-params"]["dw"]
local height = properties["video-out-params"] and properties["video-out-params"]["dh"]
if width and height then
vf = string.gsub(vf, "w=:h=:", "w="..width..":h="..height..":")
end
end
if vf_table and #vf_table > 0 then
for i = #vf_table, 1, -1 do
if filters[vf_table[i].name] then
local args = ""
for key, value in pairs(vf_table[i].params) do
if args ~= "" then
args = args .. ":"
end
args = args .. key .. "=" .. value
end
vf = vf .. vf_table[i].name .. "=" .. args .. ","
end
end
end
if (full and options.tone_mapping ~= "no") or options.tone_mapping == "auto" then
if properties["video-params"] and properties["video-params"]["primaries"] == "bt.2020" then
local tone_mapping = options.tone_mapping
if tone_mapping == "auto" then
tone_mapping = last_tone_mapping or properties["tone-mapping"]
if tone_mapping == "auto" and properties["current-vo"] == "gpu-next" then
tone_mapping = vo_tone_mapping()
end
end
if not tone_mappings[tone_mapping] then
tone_mapping = "hable"
end
last_tone_mapping = tone_mapping
vf = vf .. "zscale=transfer=linear,format=gbrpf32le,tonemap="..tone_mapping..",zscale=transfer=bt709,"
end
end
if full then
vf = vf.."scale=w="..effective_w..":h="..effective_h..par..",pad=w="..effective_w..":h="..effective_h..":x=-1:y=-1,format=bgra"
end
return vf
end
local function calc_dimensions()
local width = properties["video-out-params"] and properties["video-out-params"]["dw"]
local height = properties["video-out-params"] and properties["video-out-params"]["dh"]
if not width or not height then return end
local scale = properties["display-hidpi-scale"] or 1
if width / height > options.max_width / options.max_height then
effective_w = math.floor(options.max_width * scale + 0.5)
effective_h = math.floor(height / width * effective_w + 0.5)
else
effective_h = math.floor(options.max_height * scale + 0.5)
effective_w = math.floor(width / height * effective_h + 0.5)
end
local v_par = properties["video-out-params"] and properties["video-out-params"]["par"] or 1
if v_par == 1 then
par = ":force_original_aspect_ratio=decrease"
else
par = ""
end
end
local info_timer = nil
local function info(w, h)
local rotate = properties["video-params"] and properties["video-params"]["rotate"]
local image = properties["current-tracks/video"] and properties["current-tracks/video"]["image"]
local albumart = image and properties["current-tracks/video"]["albumart"]
disabled = (w or 0) == 0 or (h or 0) == 0 or
has_vid == 0 or
(properties["demuxer-via-network"] and not options.network) or
(albumart and not options.audio) or
(image and not albumart) or
force_disabled
if info_timer then
info_timer:kill()
info_timer = nil
elseif has_vid == 0 or (rotate == nil and not disabled) then
info_timer = mp.add_timeout(0.05, function() info(w, h) end)
end
local json, err = mp.utils.format_json({width=w * options.scale_factor, height=h * options.scale_factor, scale_factor=options.scale_factor, disabled=disabled, available=true, socket=options.socket, thumbnail=options.thumbnail, overlay_id=options.overlay_id})
if pre_0_30_0 then
mp.command_native({"script-message", "thumbfast-info", json})
else
mp.command_native_async({"script-message", "thumbfast-info", json}, function() end)
end
end
local function remove_thumbnail_files()
if file then
file:close()
file = nil
file_bytes = 0
end
os.remove(options.thumbnail)
os.remove(options.thumbnail..".bgra")
end
local activity_timer
local function spawn(time)
if disabled then return end
local path = properties["path"]
if path == nil then return end
if options.quit_after_inactivity > 0 then
if show_thumbnail or activity_timer:is_enabled() then
activity_timer:kill()
end
activity_timer:resume()
end
local open_filename = properties["stream-open-filename"]
local ytdl = open_filename and properties["demuxer-via-network"] and path ~= open_filename
if ytdl then
path = open_filename
end
remove_thumbnail_files()
local vid = properties["vid"]
has_vid = vid or 0
local args = {
mpv_path, "--no-config", "--msg-level=all=no", "--idle", "--pause", "--keep-open=always", "--really-quiet", "--no-terminal",
"--load-scripts=no", "--osc=no", "--ytdl=no", "--load-stats-overlay=no", "--load-osd-console=no", "--load-auto-profiles=no",
"--edition="..(properties["edition"] or "auto"), "--vid="..(vid or "auto"), "--no-sub", "--no-audio",
"--start="..time, allow_fast_seek and "--hr-seek=no" or "--hr-seek=yes",
"--ytdl-format=worst", "--demuxer-readahead-secs=0", "--demuxer-max-bytes=128KiB",
"--vd-lavc-skiploopfilter=all", "--vd-lavc-software-fallback=1", "--vd-lavc-fast", "--vd-lavc-threads=2", "--hwdec="..(options.hwdec and "auto" or "no"),
"--vf="..vf_string(filters_all, true),
"--sws-scaler=fast-bilinear",
"--video-rotate="..last_rotate,
"--ovc=rawvideo", "--of=image2", "--ofopts=update=1", "--o="..options.thumbnail
}
if not pre_0_30_0 then
table.insert(args, "--sws-allow-zimg=no")
end
if os_name == "darwin" and properties["macos-app-activation-policy"] then
table.insert(args, "--macos-app-activation-policy=accessory")
end
if os_name == "windows" or pre_0_33_0 then
table.insert(args, "--input-ipc-server="..options.socket)
elseif not script_written then
local client_script_path = options.socket..".run"
local script = io.open(client_script_path, "w+")
if script == nil then
mp.msg.error("client script write failed")
return
else
script_written = true
script:write(string.format(client_script, options.socket))
script:close()
subprocess({"chmod", "+x", client_script_path}, true)
table.insert(args, "--scripts="..client_script_path)
end
else
local client_script_path = options.socket..".run"
table.insert(args, "--scripts="..client_script_path)
end
table.insert(args, "--")
table.insert(args, path)
spawned = true
spawn_waiting = true
subprocess(args, true,
function(success, result)
if spawn_waiting and (success == false or (result.status ~= 0 and result.status ~= -2)) then
spawned = false
spawn_waiting = false
options.tone_mapping = "no"
mp.msg.error("mpv subprocess create failed")
if not spawn_working then -- notify users of required configuration
if options.mpv_path == "mpv" then
if properties["current-vo"] == "libmpv" then
if options.mpv_path == mpv_path then -- attempt to locate ImPlay
mpv_path = "ImPlay"
spawn(time)
else -- ImPlay not in path
if os_name ~= "darwin" then
force_disabled = true
info(real_w or effective_w, real_h or effective_h)
end
mp.commandv("show-text", "thumbfast: ERROR! cannot create mpv subprocess", 5000)
mp.commandv("script-message-to", "implay", "show-message", "thumbfast initial setup", "Set mpv_path=PATH_TO_ImPlay in thumbfast config:\n" .. string.gsub(mp.command_native({"expand-path", "~~/script-opts/thumbfast.conf"}), "[/\\]", path_separator).."\nand restart ImPlay")
end
else
mp.commandv("show-text", "thumbfast: ERROR! cannot create mpv subprocess", 5000)
if os_name == "windows" then
mp.commandv("script-message-to", "mpvnet", "show-text", "thumbfast: ERROR! install standalone mpv, see README", 5000, 20)
mp.commandv("script-message", "mpv.net", "show-text", "thumbfast: ERROR! install standalone mpv, see README", 5000, 20)
end
end
else
mp.commandv("show-text", "thumbfast: ERROR! cannot create mpv subprocess", 5000)
-- found ImPlay but not defined in config
mp.commandv("script-message-to", "implay", "show-message", "thumbfast", "Set mpv_path=PATH_TO_ImPlay in thumbfast config:\n" .. string.gsub(mp.command_native({"expand-path", "~~/script-opts/thumbfast.conf"}), "[/\\]", path_separator).."\nand restart ImPlay")
end
end
elseif success == true and (result.status == 0 or result.status == -2) then
if not spawn_working and properties["current-vo"] == "libmpv" and options.mpv_path ~= mpv_path then
mp.commandv("script-message-to", "implay", "show-message", "thumbfast initial setup", "Set mpv_path=ImPlay in thumbfast config:\n" .. string.gsub(mp.command_native({"expand-path", "~~/script-opts/thumbfast.conf"}), "[/\\]", path_separator).."\nand restart ImPlay")
end
spawn_working = true
spawn_waiting = false
end
end
)
end
local function run(command)
if not spawned then return end
if options.direct_io then
local hPipe = winapi.C.CreateFileW(winapi.socket_wc, winapi.GENERIC_WRITE, 0, nil, winapi.OPEN_EXISTING, winapi._createfile_pipe_flags, nil)
if hPipe ~= winapi.INVALID_HANDLE_VALUE then
local buf = command .. "\n"
winapi.C.SetNamedPipeHandleState(hPipe, winapi.PIPE_NOWAIT, nil, nil)
winapi.C.WriteFile(hPipe, buf, #buf + 1, winapi._lpNumberOfBytesWritten, nil)
winapi.C.CloseHandle(hPipe)
end
return
end
local command_n = command.."\n"
if os_name == "windows" then
if file and file_bytes + #command_n >= 4096 then
file:close()
file = nil
file_bytes = 0
end
if not file then
file = io.open("\\\\.\\pipe\\"..options.socket, "r+b")
end
elseif pre_0_33_0 then
subprocess({"/usr/bin/env", "sh", "-c", "echo '" .. command .. "' | socat - " .. options.socket})
return
elseif not file then
file = io.open(options.socket, "r+")
end
if file then
file_bytes = file:seek("end")
file:write(command_n)
file:flush()
end
end
local function draw(w, h, script)
if not w or not show_thumbnail then return end
if x ~= nil then
local scale_w, scale_h = options.scale_factor ~= 1 and (w * options.scale_factor) or nil, options.scale_factor ~= 1 and (h * options.scale_factor) or nil
if pre_0_30_0 then
mp.command_native({"overlay-add", options.overlay_id, x, y, options.thumbnail..".bgra", 0, "bgra", w, h, (4*w), scale_w, scale_h})
else
mp.command_native_async({"overlay-add", options.overlay_id, x, y, options.thumbnail..".bgra", 0, "bgra", w, h, (4*w), scale_w, scale_h}, function() end)
end
elseif script then
local json, err = mp.utils.format_json({width=w, height=h, scale_factor=options.scale_factor, x=x, y=y, socket=options.socket, thumbnail=options.thumbnail, overlay_id=options.overlay_id})
mp.commandv("script-message-to", script, "thumbfast-render", json)
end
end
local function real_res(req_w, req_h, filesize)
local count = filesize / 4
local diff = (req_w * req_h) - count
if (properties["video-params"] and properties["video-params"]["rotate"] or 0) % 180 == 90 then
req_w, req_h = req_h, req_w
end
if diff == 0 then
return req_w, req_h
else
local threshold = 5 -- throw out results that change too much
local long_side, short_side = req_w, req_h
if req_h > req_w then
long_side, short_side = req_h, req_w
end
for a = short_side, short_side - threshold, -1 do
if count % a == 0 then
local b = count / a
if long_side - b < threshold then
if req_h < req_w then return b, a else return a, b end
end
end
end
return nil
end
end
local function move_file(from, to)
if os_name == "windows" then
os.remove(to)
end
-- move the file because it can get overwritten while overlay-add is reading it, and crash the player
os.rename(from, to)
end
local function seek(fast)
if last_seek_time then
run("async seek " .. last_seek_time .. (fast and " absolute+keyframes" or " absolute+exact"))
end
end
local seek_period = 3/60
local seek_period_counter = 0
local seek_timer
seek_timer = mp.add_periodic_timer(seek_period, function()
if seek_period_counter == 0 then
seek(allow_fast_seek)
seek_period_counter = 1
else
if seek_period_counter == 2 then
if allow_fast_seek then
seek_timer:kill()
seek()
end
else seek_period_counter = seek_period_counter + 1 end
end
end)
seek_timer:kill()
local function request_seek()
if seek_timer:is_enabled() then
seek_period_counter = 0
else
seek_timer:resume()
seek(allow_fast_seek)
seek_period_counter = 1
end
end
local function check_new_thumb()
-- the slave might start writing to the file after checking existance and
-- validity but before actually moving the file, so move to a temporary
-- location before validity check to make sure everything stays consistant
-- and valid thumbnails don't get overwritten by invalid ones
local tmp = options.thumbnail..".tmp"
move_file(options.thumbnail, tmp)
local finfo = mp.utils.file_info(tmp)
if not finfo then return false end
spawn_waiting = false
local w, h = real_res(effective_w, effective_h, finfo.size)
if w then -- only accept valid thumbnails
move_file(tmp, options.thumbnail..".bgra")
real_w, real_h = w, h
if real_w and (real_w ~= last_real_w or real_h ~= last_real_h) then
last_real_w, last_real_h = real_w, real_h
info(real_w, real_h)
end
if not show_thumbnail then
file_timer:kill()
end
return true
end
return false
end
file_timer = mp.add_periodic_timer(file_check_period, function()
if check_new_thumb() then
draw(real_w, real_h, script_name)
end
end)
file_timer:kill()
local function clear()
file_timer:kill()
seek_timer:kill()
if options.quit_after_inactivity > 0 then
if show_thumbnail or activity_timer:is_enabled() then
activity_timer:kill()
end
activity_timer:resume()
end
last_seek_time = nil
show_thumbnail = false
last_x = nil
last_y = nil
if script_name then return end
if pre_0_30_0 then
mp.command_native({"overlay-remove", options.overlay_id})
else
mp.command_native_async({"overlay-remove", options.overlay_id}, function() end)
end
end
local function quit()
activity_timer:kill()
if show_thumbnail then
activity_timer:resume()
return
end
run("quit")
spawned = false
real_w, real_h = nil, nil
clear()
end
activity_timer = mp.add_timeout(options.quit_after_inactivity, quit)
activity_timer:kill()
local function thumb(time, r_x, r_y, script)
if disabled then return end
time = tonumber(time)
if time == nil then return end
if r_x == "" or r_y == "" then
x, y = nil, nil
else
x, y = math.floor(r_x + 0.5), math.floor(r_y + 0.5)
end
script_name = script
if last_x ~= x or last_y ~= y or not show_thumbnail then
show_thumbnail = true
last_x, last_y = x, y
draw(real_w, real_h, script)
end
if options.quit_after_inactivity > 0 then
if show_thumbnail or activity_timer:is_enabled() then
activity_timer:kill()
end
activity_timer:resume()
end
if time == last_seek_time then return end
last_seek_time = time
if not spawned then spawn(time) end
request_seek()
if not file_timer:is_enabled() then file_timer:resume() end
end
local function watch_changes()
if not dirty or not properties["video-out-params"] then return end
dirty = false
local old_w = effective_w
local old_h = effective_h
calc_dimensions()
local vf_reset = vf_string(filters_reset)
local rotate = properties["video-rotate"] or 0
local resized = old_w ~= effective_w or
old_h ~= effective_h or
last_vf_reset ~= vf_reset or
(last_rotate % 180) ~= (rotate % 180) or
par ~= last_par or last_crop ~= properties["video-crop"]
if resized then
last_rotate = rotate
info(effective_w, effective_h)
elseif last_has_vid ~= has_vid and has_vid ~= 0 then
info(effective_w, effective_h)
end
if spawned then
if resized then
-- mpv doesn't allow us to change output size
local seek_time = last_seek_time
run("quit")
clear()
spawned = false
spawn(seek_time or mp.get_property_number("time-pos", 0))
file_timer:resume()
else
if rotate ~= last_rotate then
run("set video-rotate "..rotate)
end
local vf_runtime = vf_string(filters_runtime)
if vf_runtime ~= last_vf_runtime then
run("vf set "..vf_string(filters_all, true))
last_vf_runtime = vf_runtime
end
end
else
last_vf_runtime = vf_string(filters_runtime)
end
last_vf_reset = vf_reset
last_rotate = rotate
last_par = par
last_crop = properties["video-crop"]
last_has_vid = has_vid
if not spawned and not disabled and options.spawn_first and resized then
spawn(mp.get_property_number("time-pos", 0))
file_timer:resume()
end
end
local function update_property(name, value)
properties[name] = value
end
local function update_property_dirty(name, value)
properties[name] = value
dirty = true
if name == "tone-mapping" then
last_tone_mapping = nil
end
end
local function update_tracklist(name, value)
-- current-tracks shim
for _, track in ipairs(value) do
if track.type == "video" and track.selected then
properties["current-tracks/video"] = track
return
end
end
end
local function sync_changes(prop, val)
update_property(prop, val)
if val == nil then return end
if type(val) == "boolean" then
if prop == "vid" then
has_vid = 0
last_has_vid = 0
info(effective_w, effective_h)
clear()
return
end
val = val and "yes" or "no"
end
if prop == "vid" then
has_vid = 1
end
if not spawned then return end
run("set "..prop.." "..val)
dirty = true
end
local function file_load()
clear()
spawned = false
real_w, real_h = nil, nil
last_real_w, last_real_h = nil, nil
last_tone_mapping = nil
last_seek_time = nil
if info_timer then
info_timer:kill()
info_timer = nil
end
calc_dimensions()
info(effective_w, effective_h)
end
local function shutdown()
run("quit")
remove_thumbnail_files()
if os_name ~= "windows" then
os.remove(options.socket)
os.remove(options.socket..".run")
end
end
local function on_duration(prop, val)
allow_fast_seek = (val or 30) >= 30
end
mp.observe_property("current-tracks/video", "native", function(name, value)
if pre_0_33_0 then
mp.unobserve_property(update_tracklist)
pre_0_33_0 = false
end
update_property(name, value)
end)
mp.observe_property("track-list", "native", update_tracklist)
mp.observe_property("display-hidpi-scale", "native", update_property_dirty)
mp.observe_property("video-out-params", "native", update_property_dirty)
mp.observe_property("video-params", "native", update_property_dirty)
mp.observe_property("vf", "native", update_property_dirty)
mp.observe_property("tone-mapping", "native", update_property_dirty)
mp.observe_property("demuxer-via-network", "native", update_property)
mp.observe_property("stream-open-filename", "native", update_property)
mp.observe_property("macos-app-activation-policy", "native", update_property)
mp.observe_property("current-vo", "native", update_property)
mp.observe_property("video-rotate", "native", update_property)
mp.observe_property("video-crop", "native", update_property)
mp.observe_property("path", "native", update_property)
mp.observe_property("vid", "native", sync_changes)
mp.observe_property("edition", "native", sync_changes)
mp.observe_property("duration", "native", on_duration)
mp.register_script_message("thumb", thumb)
mp.register_script_message("clear", clear)
mp.register_event("file-loaded", file_load)
mp.register_event("shutdown", shutdown)
mp.register_idle(watch_changes)
shaders/Anime4K_AutoDownscalePre_x2.glsl
+36
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@@ -0,0 +1,36 @@
// This is free and unencumbered software released into the public domain.
// Anyone is free to copy, modify, publish, use, compile, sell, or
// distribute this software, either in source code form or as a compiled
// binary, for any purpose, commercial or non-commercial, and by any
// means.
// In jurisdictions that recognize copyright laws, the author or authors
// of this software dedicate any and all copyright interest in the
// software to the public domain. We make this dedication for the benefit
// of the public at large and to the detriment of our heirs and
// successors. We intend this dedication to be an overt act of
// relinquishment in perpetuity of all present and future rights to this
// software under copyright law.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
// IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
// OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
// ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
// OTHER DEALINGS IN THE SOFTWARE.
// For more information, please refer to <https://unlicense.org>
//!DESC Anime4K-v4.0-AutoDownscalePre-x2
//!HOOK MAIN
//!BIND HOOKED
//!BIND NATIVE
//!WHEN OUTPUT.w NATIVE.w / 2.0 < OUTPUT.h NATIVE.h / 2.0 < * OUTPUT.w NATIVE.w / 1.2 > OUTPUT.h NATIVE.h / 1.2 > * *
//!WIDTH OUTPUT.w
//!HEIGHT OUTPUT.h
vec4 hook() {
return HOOKED_tex(HOOKED_pos);
}
shaders/Anime4K_AutoDownscalePre_x4.glsl
+36
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// This is free and unencumbered software released into the public domain.
// Anyone is free to copy, modify, publish, use, compile, sell, or
// distribute this software, either in source code form or as a compiled
// binary, for any purpose, commercial or non-commercial, and by any
// means.
// In jurisdictions that recognize copyright laws, the author or authors
// of this software dedicate any and all copyright interest in the
// software to the public domain. We make this dedication for the benefit
// of the public at large and to the detriment of our heirs and
// successors. We intend this dedication to be an overt act of
// relinquishment in perpetuity of all present and future rights to this
// software under copyright law.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
// IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
// OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
// ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
// OTHER DEALINGS IN THE SOFTWARE.
// For more information, please refer to <https://unlicense.org>
//!DESC Anime4K-v3.2-AutoDownscalePre-x4
//!HOOK MAIN
//!BIND HOOKED
//!BIND NATIVE
//!WHEN OUTPUT.w NATIVE.w / 4.0 < OUTPUT.h NATIVE.h / 4.0 < * OUTPUT.w NATIVE.w / 2.4 > OUTPUT.h NATIVE.h / 2.4 > * *
//!WIDTH OUTPUT.w 2 /
//!HEIGHT OUTPUT.h 2 /
vec4 hook() {
return HOOKED_tex(HOOKED_pos);
}
shaders/Anime4K_Clamp_Highlights.glsl
+90
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@@ -0,0 +1,90 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-De-Ring-Compute-Statistics
//!HOOK MAIN
//!BIND HOOKED
//!SAVE STATSMAX
//!COMPONENTS 1
#define KERNELSIZE 5 //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE 2 //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
float gmax = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float g = get_luma(MAIN_texOff(vec2(i - KERNELHALFSIZE, 0)));
gmax = max(g, gmax);
}
return vec4(gmax, 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v4.0-De-Ring-Compute-Statistics
//!HOOK MAIN
//!BIND HOOKED
//!BIND STATSMAX
//!SAVE STATSMAX
//!COMPONENTS 1
#define KERNELSIZE 5 //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE 2 //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
vec4 hook() {
float gmax = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float g = STATSMAX_texOff(vec2(0, i - KERNELHALFSIZE)).x;
gmax = max(g, gmax);
}
return vec4(gmax, 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v4.0-De-Ring-Clamp
//!HOOK PREKERNEL
//!BIND HOOKED
//!BIND STATSMAX
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
float current_luma = get_luma(HOOKED_tex(HOOKED_pos));
float new_luma = min(current_luma, STATSMAX_tex(HOOKED_pos).x);
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return HOOKED_tex(HOOKED_pos) - (current_luma - new_luma);
}
shaders/Anime4K_Darken_Fast.glsl
+216
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@@ -0,0 +1,216 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Darken-DoG-(HQ)-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(Fast)-Difference-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE LINEKERNEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (1.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINELUMA_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(Fast)-Difference-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!BIND LINEKERNEL
//!SAVE LINEKERNEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.5 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(min(LINELUMA_tex(HOOKED_pos).x - comp_gaussian_y(), 0.0), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(Fast)-Gaussian-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINEKERNEL
//!SAVE LINEKERNEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.5 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(Fast)-Gaussian-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINEKERNEL
//!SAVE LINEKERNEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.5 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_y(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(Fast)-Upsample
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINEKERNEL
#define STRENGTH 1.5 //Line darken proportional strength, higher is darker.
vec4 hook() {
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return HOOKED_tex(HOOKED_pos) + (LINEKERNEL_tex(HOOKED_pos).x * STRENGTH);
}
shaders/Anime4K_Darken_HQ.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Darken-DoG-(HQ)-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(HQ)-Difference-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE LINEKERNEL
//!COMPONENTS 1
#define SPATIAL_SIGMA (1.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINELUMA_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(HQ)-Difference-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!BIND LINEKERNEL
//!SAVE LINEKERNEL
//!COMPONENTS 1
#define SPATIAL_SIGMA (1.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(min(LINELUMA_tex(HOOKED_pos).x - comp_gaussian_y(), 0.0), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(HQ)-Gaussian-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINEKERNEL
//!SAVE LINEKERNEL
//!COMPONENTS 1
#define SPATIAL_SIGMA (1.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(HQ)-Gaussian-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINEKERNEL
#define SPATIAL_SIGMA (1.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
#define STRENGTH 1.5 //Line darken proportional strength, higher is darker.
vec4 hook() {
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return HOOKED_tex(HOOKED_pos) + (comp_gaussian_y() * STRENGTH);
}
shaders/Anime4K_Darken_VeryFast.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Darken-DoG-(HQ)-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(VeryFast)-Gaussian-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE LINEKERNEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.5 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINELUMA_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(VeryFast)-Gaussian-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!BIND LINEKERNEL
//!SAVE LINEKERNEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.25 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(min(LINELUMA_tex(HOOKED_pos).x - comp_gaussian_y(), 0.0), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(VeryFast)-Gaussian-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINEKERNEL
//!SAVE LINEKERNEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.25 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(VeryFast)-Gaussian-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINEKERNEL
//!SAVE LINEKERNEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.25 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINEKERNEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_y(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Darken-DoG-(VeryFast)-Upsample
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINEKERNEL
#define STRENGTH 1.5 //Line darken proportional strength, higher is darker.
vec4 hook() {
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return HOOKED_tex(HOOKED_pos) + (LINEKERNEL_tex(HOOKED_pos).x * STRENGTH);
}
shaders/Anime4K_Deblur_DoG.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Deblur-DoG-(HQ)-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Deblur-DoG-Kernel-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE MMKERNEL
//!COMPONENTS 3
#define L_tex LINELUMA_tex
float max3v(float a, float b, float c) {
return max(max(a, b), c);
}
float min3v(float a, float b, float c) {
return min(min(a, b), c);
}
vec2 minmax3(vec2 pos, vec2 d) {
float a = L_tex(pos - d).x;
float b = L_tex(pos).x;
float c = L_tex(pos + d).x;
return vec2(min3v(a, b, c), max3v(a, b, c));
}
float lumGaussian7(vec2 pos, vec2 d) {
float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
g = g + (L_tex(pos).x) * 0.38774;
return g;
}
vec4 hook() {
return vec4(lumGaussian7(HOOKED_pos, vec2(HOOKED_pt.x, 0.0)), minmax3(HOOKED_pos, vec2(HOOKED_pt.x, 0.0)), 0.0);
}
//!DESC Anime4K-v3.2-Deblur-DoG-Kernel-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND MMKERNEL
//!SAVE MMKERNEL
//!COMPONENTS 3
#define L_tex MMKERNEL_tex
float max3v(float a, float b, float c) {
return max(max(a, b), c);
}
float min3v(float a, float b, float c) {
return min(min(a, b), c);
}
vec2 minmax3(vec2 pos, vec2 d) {
float a0 = L_tex(pos - d).y;
float b0 = L_tex(pos).y;
float c0 = L_tex(pos + d).y;
float a1 = L_tex(pos - d).z;
float b1 = L_tex(pos).z;
float c1 = L_tex(pos + d).z;
return vec2(min3v(a0, b0, c0), max3v(a1, b1, c1));
}
float lumGaussian7(vec2 pos, vec2 d) {
float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
g = g + (L_tex(pos).x) * 0.38774;
return g;
}
vec4 hook() {
return vec4(lumGaussian7(HOOKED_pos, vec2(0.0, HOOKED_pt.y)), minmax3(HOOKED_pos, vec2(0.0, HOOKED_pt.y)), 0.0);
}
//!DESC Anime4K-v3.2-Deblur-DoG-Apply
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!BIND MMKERNEL
#define STRENGTH 0.6 //De-blur proportional strength, higher is sharper. However, it is better to tweak BLUR_CURVE instead to avoid ringing.
#define BLUR_CURVE 0.6 //De-blur power curve, lower is sharper. Good values are between 0.3 - 1. Values greater than 1 softens the image;
#define BLUR_THRESHOLD 0.1 //Value where curve kicks in, used to not de-blur already sharp edges. Only de-blur values that fall below this threshold.
#define NOISE_THRESHOLD 0.001 //Value where curve stops, used to not sharpen noise. Only de-blur values that fall above this threshold.
#define L_tex LINELUMA_tex
vec4 hook() {
float c = (L_tex(HOOKED_pos).x - MMKERNEL_tex(HOOKED_pos).x) * STRENGTH;
float t_range = BLUR_THRESHOLD - NOISE_THRESHOLD;
float c_t = abs(c);
if (c_t > NOISE_THRESHOLD) {
c_t = (c_t - NOISE_THRESHOLD) / t_range;
c_t = pow(c_t, BLUR_CURVE);
c_t = c_t * t_range + NOISE_THRESHOLD;
c_t = c_t * sign(c);
} else {
c_t = c;
}
float cc = clamp(c_t + L_tex(HOOKED_pos).x, MMKERNEL_tex(HOOKED_pos).y, MMKERNEL_tex(HOOKED_pos).z) - L_tex(HOOKED_pos).x;
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return HOOKED_tex(HOOKED_pos) + cc;
}
shaders/Anime4K_Deblur_Original.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Deblur-Original-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Deblur-Original-Kernel-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE LUMAD
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l c r]
//[bl b br]
float l = LINELUMA_tex(HOOKED_pos + vec2(-d.x, 0.0)).x;
float c = LINELUMA_tex(HOOKED_pos).x;
float r = LINELUMA_tex(HOOKED_pos + vec2(d.x, 0.0)).x;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (-l + r);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (l + c + c + r);
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Deblur-Original-Kernel-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMAD
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
/* --------------------- SETTINGS --------------------- */
//Strength of edge refinement, good values are between 0.2 and 4
#define REFINE_STRENGTH 1.0
/* --- MODIFY THESE SETTINGS BELOW AT YOUR OWN RISK --- */
//Bias of the refinement function, good values are between 0 and 1
#define REFINE_BIAS 0.0
//Polynomial fit obtained by minimizing MSE error on image
#define P5 ( 11.68129591)
#define P4 (-42.46906057)
#define P3 ( 60.28286266)
#define P2 (-41.84451327)
#define P1 ( 14.05517353)
#define P0 (-1.081521930)
/* ----------------- END OF SETTINGS ----------------- */
float power_function(float x) {
float x2 = x * x;
float x3 = x2 * x;
float x4 = x2 * x2;
float x5 = x2 * x3;
return P5*x5 + P4*x4 + P3*x3 + P2*x2 + P1*x + P0;
}
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l cc r]
//[bl b br]
float tx = LUMAD_tex(HOOKED_pos + vec2(0.0, -d.y)).x;
float cx = LUMAD_tex(HOOKED_pos).x;
float bx = LUMAD_tex(HOOKED_pos + vec2(0.0, d.y)).x;
float ty = LUMAD_tex(HOOKED_pos + vec2(0.0, -d.y)).y;
//float cy = LUMAD_tex(HOOKED_pos).y;
float by = LUMAD_tex(HOOKED_pos + vec2(0.0, d.y)).y;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (tx + cx + cx + bx);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (-ty + by);
//Computes the luminance's gradient
float sobel_norm = clamp(sqrt(xgrad * xgrad + ygrad * ygrad), 0.0, 1.0);
float dval = clamp(power_function(clamp(sobel_norm, 0.0, 1.0)) * REFINE_STRENGTH + REFINE_BIAS, 0.0, 1.0);
return vec4(sobel_norm, dval, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Deblur-Original-Kernel-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
if (LUMAD_tex(HOOKED_pos).y < 0.1) {
return vec4(0.0);
}
//[tl t tr]
//[ l c r]
//[bl b br]
float l = LUMAD_tex(HOOKED_pos + vec2(-d.x, 0.0)).x;
float c = LUMAD_tex(HOOKED_pos).x;
float r = LUMAD_tex(HOOKED_pos + vec2(d.x, 0.0)).x;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (-l + r);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Deblur-Original-Kernel-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!BIND LUMAMM
//!SAVE LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
if (LUMAD_tex(HOOKED_pos).y < 0.1) {
return vec4(0.0);
}
//[tl t tr]
//[ l cc r]
//[bl b br]
float tx = LUMAMM_tex(HOOKED_pos + vec2(0.0, -d.y)).x;
float cx = LUMAMM_tex(HOOKED_pos).x;
float bx = LUMAMM_tex(HOOKED_pos + vec2(0.0, d.y)).x;
float ty = LUMAMM_tex(HOOKED_pos + vec2(0.0, -d.y)).y;
//float cy = LUMAMM_tex(HOOKED_pos).y;
float by = LUMAMM_tex(HOOKED_pos + vec2(0.0, d.y)).y;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (tx + cx + cx + bx);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (-ty + by);
float norm = sqrt(xgrad * xgrad + ygrad * ygrad);
if (norm <= 0.001) {
xgrad = 0.0;
ygrad = 0.0;
norm = 1.0;
}
return vec4(xgrad/norm, ygrad/norm, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Deblur-Original-Apply
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!BIND LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!SAVE RESAMPLED
vec4 hook() {
vec2 d = HOOKED_pt;
float dval = LUMAD_tex(HOOKED_pos).y;
if (dval < 0.1) {
return HOOKED_tex(HOOKED_pos);
}
vec4 dc = LUMAMM_tex(HOOKED_pos);
if (abs(dc.x + dc.y) <= 0.0001) {
return HOOKED_tex(HOOKED_pos);
}
float xpos = -sign(dc.x);
float ypos = -sign(dc.y);
vec4 xval = HOOKED_tex(HOOKED_pos + vec2(d.x * xpos, 0.0));
vec4 yval = HOOKED_tex(HOOKED_pos + vec2(0.0, d.y * ypos));
float xyratio = abs(dc.x) / (abs(dc.x) + abs(dc.y));
vec4 avg = xyratio * xval + (1.0 - xyratio) * yval;
return avg * dval + HOOKED_tex(HOOKED_pos) * (1.0 - dval);
}
//!DESC Anime4K-v3.2-Deblur-Original-Resample
//!HOOK MAIN
//!BIND HOOKED
//!BIND RESAMPLED
vec4 hook() {
return RESAMPLED_tex(HOOKED_pos);
}
shaders/Anime4K_Denoise_Bilateral_Mean.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Denoise-Bilateral-Mean
//!HOOK MAIN
//!BIND HOOKED
#define INTENSITY_SIGMA 0.1 //Intensity window size, higher is stronger denoise, must be a positive real number
#define SPATIAL_SIGMA 1.0 //Spatial window size, higher is stronger denoise, must be a positive real number.
#define INTENSITY_POWER_CURVE 1.0 //Intensity window power curve. Setting it to 0 will make the intensity window treat all intensities equally, while increasing it will make the window narrower in darker intensities and wider in brighter intensities.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
#define GETOFFSET(i) vec2((i % KERNELSIZE) - KERNELHALFSIZE, (i / KERNELSIZE) - KERNELHALFSIZE)
vec4 gaussian_vec(vec4 x, vec4 s, vec4 m) {
vec4 scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
vec4 hook() {
vec4 sum = vec4(0.0);
vec4 n = vec4(0.0);
vec4 vc = HOOKED_tex(HOOKED_pos);
vec4 is = pow(vc + 0.0001, vec4(INTENSITY_POWER_CURVE)) * INTENSITY_SIGMA;
float ss = SPATIAL_SIGMA;
for (int i=0; i<KERNELLEN; i++) {
vec2 ipos = GETOFFSET(i);
vec4 v = HOOKED_texOff(ipos);
vec4 d = gaussian_vec(v, is, vc) * gaussian(length(ipos), ss, 0.0);
sum += d * v;
n += d;
}
return sum / n;
}
shaders/Anime4K_Denoise_Bilateral_Median.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Denoise-Bilateral-Median-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Denoise-Bilateral-Median-Apply
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
#define INTENSITY_SIGMA 0.1 //Intensity window size, higher is stronger denoise, must be a positive real number
#define SPATIAL_SIGMA 1.0 //Spatial window size, higher is stronger denoise, must be a positive real number.
#define HISTOGRAM_REGULARIZATION 0.0 //Histogram regularization window size, higher values approximate a bilateral "closest-to-mean" filter.
#define INTENSITY_POWER_CURVE 1.0 //Intensity window power curve. Setting it to 0 will make the intensity window treat all intensities equally, while increasing it will make the window narrower in darker intensities and wider in brighter intensities.
#define KERNELSIZE int(max(int(SPATIAL_SIGMA), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
#define GETOFFSET(i) vec2((i % KERNELSIZE) - KERNELHALFSIZE, (i / KERNELSIZE) - KERNELHALFSIZE)
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
vec4 getMedian(vec4 v[KERNELLEN], float w[KERNELLEN], float n) {
for (int i=0; i<KERNELLEN; i++) {
float w_above = 0.0;
float w_below = 0.0;
for (int j=0; j<KERNELLEN; j++) {
if (v[j].x > v[i].x) {
w_above += w[j];
} else if (v[j].x < v[i].x) {
w_below += w[j];
}
}
if ((n - w_above) / n >= 0.5 && w_below / n <= 0.5) {
return v[i];
}
}
}
vec4 hook() {
vec4 histogram_v[KERNELLEN];
float histogram_l[KERNELLEN];
float histogram_w[KERNELLEN];
float n = 0.0;
float vc = LINELUMA_tex(HOOKED_pos).x;
float is = pow(vc + 0.0001, INTENSITY_POWER_CURVE) * INTENSITY_SIGMA;
float ss = SPATIAL_SIGMA;
for (int i=0; i<KERNELLEN; i++) {
vec2 ipos = GETOFFSET(i);
histogram_v[i] = HOOKED_texOff(ipos);
histogram_l[i] = LINELUMA_texOff(ipos).x;
histogram_w[i] = gaussian(histogram_l[i], is, vc) * gaussian(length(ipos), ss, 0.0);
n += histogram_w[i];
}
if (HISTOGRAM_REGULARIZATION > 0.0) {
float histogram_wn[KERNELLEN];
n = 0.0;
for (int i=0; i<KERNELLEN; i++) {
histogram_wn[i] = 0.0;
}
for (int i=0; i<KERNELLEN; i++) {
histogram_wn[i] += gaussian(0.0, HISTOGRAM_REGULARIZATION, 0.0) * histogram_w[i];
for (int j=(i+1); j<KERNELLEN; j++) {
float d = gaussian(histogram_l[j], HISTOGRAM_REGULARIZATION, histogram_l[i]);
histogram_wn[j] += d * histogram_w[i];
histogram_wn[i] += d * histogram_w[j];
}
n += histogram_wn[i];
}
return getMedian(histogram_v, histogram_wn, n);
}
return getMedian(histogram_v, histogram_w, n);
}
shaders/Anime4K_Denoise_Bilateral_Mode.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Denoise-Bilateral-Mode-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.1-Denoise-Bilateral-Mode-Apply
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
#define INTENSITY_SIGMA 0.1 //Intensity window size, higher is stronger denoise, must be a positive real number
#define SPATIAL_SIGMA 1.0 //Spatial window size, higher is stronger denoise, must be a positive real number.
#define HISTOGRAM_REGULARIZATION 0.2 //Histogram regularization window size, higher values approximate a bilateral "closest-to-mean" filter.
#define INTENSITY_POWER_CURVE 1.0 //Intensity window power curve. Setting it to 0 will make the intensity window treat all intensities equally, while increasing it will make the window narrower in darker intensities and wider in brighter intensities.
#define KERNELSIZE int(max(int(SPATIAL_SIGMA), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
#define GETOFFSET(i) vec2((i % KERNELSIZE) - KERNELHALFSIZE, (i / KERNELSIZE) - KERNELHALFSIZE)
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
vec4 getMode(vec4 v[KERNELLEN], float w[KERNELLEN]) {
vec4 maxv = vec4(0);
float maxw = 0.0;
for (int i=0; i<KERNELLEN; i++) {
if (w[i] >= maxw) {
maxw = w[i];
maxv = v[i];
}
}
return maxv;
}
vec4 hook() {
vec4 histogram_v[KERNELLEN];
float histogram_l[KERNELLEN];
float histogram_w[KERNELLEN];
float histogram_wn[KERNELLEN];
float vc = LINELUMA_tex(HOOKED_pos).x;
float is = pow(vc + 0.0001, INTENSITY_POWER_CURVE) * INTENSITY_SIGMA;
float ss = SPATIAL_SIGMA;
for (int i=0; i<KERNELLEN; i++) {
vec2 ipos = GETOFFSET(i);
histogram_v[i] = HOOKED_texOff(ipos);
histogram_l[i] = LINELUMA_texOff(ipos).x;
histogram_w[i] = gaussian(histogram_l[i], is, vc) * gaussian(length(ipos), ss, 0.0);
histogram_wn[i] = 0.0;
}
for (int i=0; i<KERNELLEN; i++) {
histogram_wn[i] += gaussian(0.0, HISTOGRAM_REGULARIZATION, 0.0) * histogram_w[i];
for (int j=(i+1); j<KERNELLEN; j++) {
float d = gaussian(histogram_l[j], HISTOGRAM_REGULARIZATION, histogram_l[i]);
histogram_wn[j] += d * histogram_w[i];
histogram_wn[i] += d * histogram_w[j];
}
}
return getMode(histogram_v, histogram_wn);
}
shaders/Anime4K_Restore_CNN_L.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.27899465, -0.14974926, 0.6271667, -0.04888494, 0.2164516, -0.47826648, 0.09537477, 0.16404815, -0.009546488, -0.24541017, -0.20505093, -0.11507772, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.22372562, 0.046120282, 0.44437107, 0.54215515, -0.10638798, -0.010795577, 0.19478157, 0.5756847, 0.24542068, 0.11135218, -0.27672207, 0.09624475, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.1703517, -0.17810228, -0.34460765, -0.40586865, 0.2102622, 0.08207581, 0.17641851, 0.23701222, -0.32159516, -0.017147528, 0.41743183, 0.19025058, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.4708481, -0.1587934, -0.15760423, -0.11388875, -0.36032093, -0.044305246, 0.19414884, 0.31109568, -0.09320259, -0.23072109, 0.0242641, 0.040976923, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(0.00951417, 0.2746557, -0.49743456, 0.14564055, 0.15047263, 0.08832856, -0.24360974, -0.3517844, -0.12219134, 0.12957081, 0.2876983, 0.13303527, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.12760738, 0.16703783, 0.04391735, 0.34657615, -0.26698044, -0.096000046, -0.46030682, -0.38363042, 0.3510441, 0.2620507, -0.30533043, -0.32785, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.63138646, -0.12703805, 0.38107973, -0.09134196, -0.04012397, -0.1390924, 0.07578805, -0.09274019, -0.045394078, 0.18203364, 0.16900069, 0.13399005, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.13648264, -0.13971807, -0.32322997, -0.08377875, 0.40967095, 0.19853555, -0.26386982, -0.50860924, -0.00555831, 0.06922444, 0.034828495, -0.08413197, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.21196735, 0.24934316, -0.27111465, -0.19941513, -0.30186844, 0.44828892, 0.35906994, -0.35723612, -0.074009515, -0.34400147, -0.22145566, -0.15622428, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.44569078, -0.084358215, -0.014156722, -0.0353374);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf1
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.1953752, -0.09707663, 0.43315637, 0.3862221, 0.2346731, 0.085327715, 0.36244828, 0.06630519, -0.05342483, 0.112148136, 0.07938104, 0.14795923, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.25197014, 0.032906674, 0.3392793, 0.18099307, -0.36539522, 0.10986396, 0.5440999, 0.41803896, -0.4117931, 0.46616048, 0.0827279, 0.040264074, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.060543116, 0.34531194, -0.3202978, 0.32803985, -0.08720925, 0.63656414, -0.052656054, -0.076137036, 0.15297869, -0.11485237, -0.21027736, -0.24086118, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.2044052, 0.111065395, -0.36082193, -0.39179638, 0.19812255, -0.3797384, 0.03176089, -0.35085422, 0.31697252, -0.31267545, -0.068170965, -0.06266394, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(0.0055682547, 0.24352197, 0.08972456, -0.4340704, -0.25253078, -0.4218859, 0.08408476, -0.5052765, 0.005511427, -0.36491954, 0.3825727, 0.01774532, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.13323675, -0.6641518, -0.38277033, 0.67553586, -0.5879293, -0.1286407, 0.1355451, 0.19463064, -0.09206729, 0.41892347, 0.16736335, -0.017109495, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.0627963, 0.29361042, 0.23339616, -0.42217752, 0.21872504, -0.21531922, -0.5016595, 0.20158494, 0.2814043, -0.1474019, 0.08778552, 0.28085083, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.009900911, -0.42754972, 0.02737237, -0.17740859, 0.541632, -0.28397697, -0.36375052, -0.172693, 0.1506882, 0.15196925, -0.30358136, -0.29542333, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.3690586, 0.19382606, -0.040331036, -0.14121497, 0.121049926, 0.54470515, -0.23628974, 0.20663929, -0.34591553, -0.14778244, -0.23809184, 0.12616424, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.009787335, 0.051148742, -0.007458707, -0.016416457);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.028458824, 0.10831271, 0.017246738, 0.42066097, 0.035127334, 0.14161696, 0.3893337, 0.18358134, -0.26446894, -0.053199783, 0.053528484, -0.3486933, -0.10270838, -0.3593573, 0.049874853, 0.08600247) * go_0(-1.0, -1.0);
result += mat4(-0.15829772, -0.31038332, 0.0423391, -0.11978196, -0.29878524, 0.10245719, 0.004307728, 0.052934717, -0.049366333, -0.03277819, -0.062031534, -0.004734159, 0.029009456, -0.18138678, 0.17342477, -0.1632741) * go_0(-1.0, 0.0);
result += mat4(-0.14941882, -0.3337916, -0.07740701, -0.8221198, -0.014216013, -0.34028724, 0.06367363, -0.19704603, -0.20317195, 0.17806017, -0.14011545, 0.05067841, 0.08515265, 0.092163175, -0.036603887, -0.2528259) * go_0(-1.0, 1.0);
result += mat4(0.044333473, 0.10871938, -0.12288588, 0.0077913217, 0.013970764, -0.21189599, -0.0757029, 0.055366833, 0.04531751, -0.20269018, 0.038650505, -0.09677452, 0.0565207, 0.073703125, -0.10746413, 0.22798601) * go_0(0.0, -1.0);
result += mat4(0.33476707, 0.22631067, 0.10190012, 0.25268495, -0.14572862, -0.21331434, 0.024614803, -0.26254398, 0.18070522, 0.34974626, 0.028480766, -0.07855834, 0.16165797, 0.28470036, 0.23497322, -0.15804033) * go_0(0.0, 0.0);
result += mat4(-0.09853942, -0.21105993, 0.27787793, 0.24688315, -0.16078049, 0.08541815, 0.16101131, -0.0005086922, -0.13042259, 0.0253011, -0.05298311, 0.16506846, -0.099300735, 0.07577514, 0.041623414, -0.18045023) * go_0(0.0, 1.0);
result += mat4(-0.015007392, 0.0720429, -0.018456718, 0.012792885, 0.2049891, -0.061911974, -0.10679284, 0.2530616, -0.1651912, 0.1125125, 0.55918777, 0.1414716, 0.025189033, 0.061680123, -0.13096866, -0.035809774) * go_0(1.0, -1.0);
result += mat4(0.037606955, 0.05987735, -0.09903669, 0.09681222, 0.31857902, -0.058445334, 0.10280441, -0.0018247474, 0.051491242, 0.12321206, 0.14069863, -0.013259678, -0.198442, 0.093920216, -0.015952505, -0.3040559) * go_0(1.0, 0.0);
result += mat4(0.044491854, 0.079992026, -0.07424999, 0.064774506, 0.36708844, -0.14958903, -0.060033463, -0.5950615, -0.101501055, -0.05275797, -0.0099711865, 0.075409986, -0.19508216, -0.088995665, -0.025926083, 0.023040347) * go_0(1.0, 1.0);
result += mat4(-0.00168658, 0.1879708, -0.08964568, 0.124567054, -0.027147152, 0.0013266837, 0.043110568, -0.16238526, 0.18404783, -0.088930264, -0.0841814, -0.06812457, -0.022954177, 0.15315148, 0.00096489635, 0.21262483) * go_1(-1.0, -1.0);
result += mat4(0.03728663, 0.16259944, 0.2534931, -0.10620075, -0.032217886, -0.043085426, -0.37875995, 0.16151664, -0.15136409, -0.21990341, 0.0043716, 0.1293011, 0.20516208, 0.32518774, -0.15583529, 0.20054214) * go_1(-1.0, 0.0);
result += mat4(0.05088376, -0.21300486, 0.30702966, 0.09044539, 0.020740725, 0.028916309, 0.14391874, 0.15526149, 0.011289051, -0.24014536, -0.2176207, 0.09995701, 0.06747376, -0.3315815, 0.07900332, -0.26542482) * go_1(-1.0, 1.0);
result += mat4(0.15973654, 0.2114867, -0.19423203, -0.1529657, -0.24198112, -0.10985252, 0.056409992, 0.111373484, 0.05717073, 0.019566689, -0.12794583, 0.006978016, -0.2708247, 0.2845983, -0.048893075, -0.09198705) * go_1(0.0, -1.0);
result += mat4(0.07690064, 0.038431194, 0.1205243, 0.1320201, -0.122893825, -0.022761922, -0.10097431, 0.022808496, -0.0431315, 0.19884229, -0.053464055, -0.08487898, 0.049651224, 0.3001686, -0.05545239, 0.48026356) * go_1(0.0, 0.0);
result += mat4(0.04079296, 0.052179057, 0.08785134, 0.17674746, 0.06027275, -0.083381295, -0.29543424, -0.10703248, 0.14123397, 0.12711276, 0.08260646, 0.23608543, 0.10914477, -0.22596069, -0.15743312, 0.103631504) * go_1(0.0, 1.0);
result += mat4(0.038997833, -0.14136268, -0.31973416, 0.11666723, -0.20137171, 0.0115205245, 0.22825807, -0.14853193, 0.25628343, 0.06598252, -0.003479285, -0.12315031, -0.07446986, 0.29977, 0.08878428, 0.15130284) * go_1(1.0, -1.0);
result += mat4(-0.04147214, -0.050535224, -0.21205503, -0.07425368, -0.06448227, -0.086743675, 0.029389668, -0.07494379, -0.17228132, -0.18035689, -0.09757749, 0.13929781, 0.21867155, 0.02585289, 0.13752261, 0.17800835) * go_1(1.0, 0.0);
result += mat4(0.20552272, -0.03113836, -0.201244, -0.07602455, 0.08278268, -0.17029381, -0.0008433311, -0.11591232, 0.087584734, -0.026447749, 0.09185437, 0.15650395, 0.29423076, 0.016036067, -0.17132477, 0.09271113) * go_1(1.0, 1.0);
result += mat4(0.09120441, 0.1345777, 0.0468555, 0.2635145, 0.04248785, -0.14849417, -0.013588658, -0.12794739, -0.0109574385, -0.15350367, 0.1872175, -0.17311442, 0.2740676, 0.1931403, 0.049231507, -0.17728893) * go_2(-1.0, -1.0);
result += mat4(0.0265621, 0.10291274, -0.0884961, -0.086093664, 0.25218308, -0.027579704, 0.044006765, -0.05947863, -0.17352693, -0.16788955, -0.1829588, -0.19120377, -0.19486824, 0.035516337, -0.04287895, -0.059360266) * go_2(-1.0, 0.0);
result += mat4(-0.0077623413, 0.061803013, -0.14371866, -0.2929254, -0.014011599, 0.23037176, 0.09881457, -0.018942501, 0.14976685, -0.0017081804, -0.0420665, 0.075949386, -0.015102705, -0.07807527, 0.053166322, 0.21431307) * go_2(-1.0, 1.0);
result += mat4(0.15482867, -0.13303289, 0.05441111, 0.20482185, -0.08669985, -0.26125848, 0.085498355, 0.06895137, -0.11653363, -0.022335036, -0.019448604, -0.19071092, 0.002487127, -0.053429328, 0.07700748, -0.15176988) * go_2(0.0, -1.0);
result += mat4(0.058373976, -0.18893883, 0.063239604, -0.16802256, 0.1348292, -0.037208326, 0.121938735, 0.123416096, -0.14086236, -0.08550504, 0.18930112, -0.07056712, -0.2190568, -0.01693728, -0.110385895, -0.10306489) * go_2(0.0, 0.0);
result += mat4(-0.21300407, -0.049379632, 0.13865358, 0.0037872058, 0.008286501, -0.12187443, -0.11094277, 0.021951213, -0.10365199, 0.15844372, 0.068476856, -0.09683496, -0.039589003, -0.027428184, 0.022865763, 0.067510754) * go_2(0.0, 1.0);
result += mat4(0.05690448, -0.09136643, -0.17356895, -0.18716863, 0.07831065, 0.015976364, -0.06423979, -0.01891357, 0.16295952, 0.17686251, -0.26599383, -0.11806091, -0.0968358, 0.024937721, -0.10509048, -0.097365916) * go_2(1.0, -1.0);
result += mat4(-0.06446155, 0.05177888, -0.019579697, 0.046922565, 0.20326103, -0.04118929, 0.07845964, 0.15494241, -0.033653136, 0.13276093, -0.061998203, -0.049391422, 0.0154429395, -0.12517625, -0.022282483, 0.14295246) * go_2(1.0, 0.0);
result += mat4(-0.102786146, 0.028481564, 0.12239765, 0.010855834, 0.17208168, -0.24589455, -0.045410756, 0.17422688, -0.051487174, 0.14276022, 0.26189017, -0.0027747392, 0.15695319, 0.13917996, 0.07303566, -0.055219136) * go_2(1.0, 1.0);
result += mat4(0.014127897, -0.13218386, -0.4342469, -0.10977742, 0.12229517, -0.32898104, -0.21103851, 0.06275854, -0.22651868, 0.111792624, 0.020457482, -0.048701756, 0.124154285, 0.016944582, -0.14404331, 0.054385293) * go_3(-1.0, -1.0);
result += mat4(0.09574338, 0.04884873, -0.12329247, 0.3191857, -0.28155354, 0.03411368, -0.017508674, -0.28257895, 0.06535372, 0.40051946, -0.24508828, 0.05891001, 0.08769791, -0.011710461, 0.10430247, 0.096506774) * go_3(-1.0, 0.0);
result += mat4(0.036757194, 0.1374388, -0.14553823, 0.11012423, 0.19377777, -0.053538468, -0.32605696, 0.07757925, 0.054016564, 0.2677718, 0.26038665, 0.029049544, 0.015482294, -0.08899067, 0.26156536, 0.26035222) * go_3(-1.0, 1.0);
result += mat4(-0.19651565, 0.30669728, -0.03192298, 0.090777226, 0.34684682, -0.040679373, -0.0006501724, -0.069249466, 0.07256215, -0.018623354, -0.021843085, 0.026858928, 0.24001615, -0.007573629, -0.25308976, -0.08101683) * go_3(0.0, -1.0);
result += mat4(-0.19491735, 0.29386947, -0.16541481, -0.12270087, 0.1478019, 0.11557711, 0.09745131, -0.037188005, 0.051415507, -0.009313462, 0.17577961, 0.30678266, 0.052763764, 0.06731275, 0.038889345, 0.01219997) * go_3(0.0, 0.0);
result += mat4(0.21972072, -0.16669928, -0.0471254, 0.07962133, -0.24501611, 0.10681031, -0.10724696, 0.046246808, -0.13467999, 0.019233517, -0.2220906, 0.11756837, 0.07995422, -0.091647364, 0.0524831, 0.2427797) * go_3(0.0, 1.0);
result += mat4(-0.018560572, 0.28909272, 0.27052113, -0.16862495, -0.04259962, -0.2526796, 0.24546415, 0.13772464, 0.019554865, 0.052288387, 0.22942105, 0.14541095, 0.29822263, -0.10352501, -0.17112546, -0.22842947) * go_3(1.0, -1.0);
result += mat4(-0.052647978, 0.17638408, 0.2265538, -0.028214354, -0.13620298, 0.14337336, 0.057785455, 0.14105307, 0.03873432, 0.13013794, 0.24192083, -0.104368195, -0.18878175, 0.11648163, 0.0049888026, -0.17706485) * go_3(1.0, 0.0);
result += mat4(0.003658791, 0.057943232, -0.013143919, 0.08626453, -0.26248586, 0.29328227, 0.18253878, 0.05693778, -0.082900435, -0.034102313, -0.05913703, -0.11045182, -0.06499875, 0.15446658, -0.08087537, 0.18904833) * go_3(1.0, 1.0);
result += vec4(-0.02852779, 0.027645616, 0.06510905, 0.029781172);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.06138475, 0.120526604, 0.22381006, 0.12570442, 0.1439015, -0.5261169, 0.25294203, 0.04825834, 0.06993285, 0.1210301, -0.10087704, 0.038996983, 0.095201865, 0.50708395, 0.17403544, -0.17137507) * go_0(-1.0, -1.0);
result += mat4(0.09580414, -0.17387998, 0.10757996, 0.15188572, -0.02090535, 0.2655171, -0.38653868, -0.014376933, -0.03217946, -0.12866813, -0.049665075, -0.048535764, -0.115907624, 0.032473654, 0.36145476, 0.3830508) * go_0(-1.0, 0.0);
result += mat4(-0.19303346, -0.30462784, -0.21706793, -0.0123182135, -0.063043006, -0.10658377, 0.08729471, -0.27184415, 0.037174225, 0.13507952, -0.06391928, -0.035610817, 0.17105488, 0.07546837, 0.36270198, 0.13315013) * go_0(-1.0, 1.0);
result += mat4(-0.1559421, 0.03859168, 0.058586795, 0.1457787, -0.008261901, 0.17584307, 0.07892688, 0.16024348, 0.20574443, -0.09199424, -0.2572033, -0.06435325, -0.045140598, 0.026080446, 0.30986732, -0.02853244) * go_0(0.0, -1.0);
result += mat4(0.06647865, -0.13637248, -0.2077229, -0.18015774, 0.22215, 0.0282581, -0.124256276, -0.18235172, -0.10444975, 0.039713558, 0.031975772, -0.14737205, 0.1533982, 0.115156986, 0.14176169, -0.12018837) * go_0(0.0, 0.0);
result += mat4(-0.24000446, 0.08672003, -0.209317, 0.1853504, 0.19062491, -0.04505737, -0.097432695, -0.12218054, -0.20497306, 0.0068228757, -0.07930878, -0.045916412, -0.09002585, -0.019980771, -0.13450326, 0.08838858) * go_0(0.0, 1.0);
result += mat4(-0.005804602, 0.05149589, 0.18930501, -0.07475797, -0.3263357, -0.048428953, -0.0062948675, -0.12957661, 0.034840938, -0.12834811, -0.19660017, 0.13469964, -0.049774483, -0.07062978, 0.18116258, -0.2945365) * go_0(1.0, -1.0);
result += mat4(0.021823233, 0.17687339, 0.035116684, -0.14888434, 0.101564035, -0.058118407, 0.035971403, 0.304605, -0.08054271, 0.07140431, -0.24807848, -0.014870848, 0.005698307, 0.0925754, -0.16337888, -0.072692335) * go_0(1.0, 0.0);
result += mat4(0.15357393, 0.05702486, 0.1838928, -0.052683312, 0.26516896, 0.08939279, 0.040435348, 0.035939544, 0.21697883, -0.011976994, -0.10517768, 0.1004424, -0.073649734, -0.063365534, 0.07981437, -0.13724971) * go_0(1.0, 1.0);
result += mat4(0.06887319, -0.031427335, -0.05686962, 0.031254467, -0.0530729, -0.27738956, -0.22601964, -0.16733547, -0.15481988, -0.22141118, -0.19417213, 0.052291542, 0.0665599, 0.13679637, -0.09932399, -0.021917146) * go_1(-1.0, -1.0);
result += mat4(0.0043880343, -0.03320605, -0.09556491, 0.064986005, -0.05736109, -0.015415265, -0.12861155, 0.07442758, 0.09653438, -0.30665413, 0.12456121, -0.015494559, -0.04347404, -0.26863584, -0.12057121, -0.12873033) * go_1(-1.0, 0.0);
result += mat4(0.43038133, 0.117590204, -0.012805269, 0.06656798, -0.08742217, -0.077595286, 0.01795713, -0.010100221, -0.17349729, -0.02995379, 0.01733494, 0.012438303, -0.062275372, 0.18847479, -0.014758355, -0.13591917) * go_1(-1.0, 1.0);
result += mat4(-0.20219825, 0.33157164, -0.036087956, 0.078742586, 0.10264473, 0.13553555, 0.057454523, 0.09034125, 0.04169048, 0.031988595, -0.20171835, -0.018051006, 0.09925883, -0.15372548, -0.14060175, -0.012530946) * go_1(0.0, -1.0);
result += mat4(-0.20762882, -0.23219623, 0.044476848, -0.080212615, 0.027042268, 0.068265386, -0.053666174, 0.051648133, 0.012678151, -0.09496996, -0.073195405, 0.23230731, 0.026435647, 0.040384647, -0.15589063, -0.17085052) * go_1(0.0, 0.0);
result += mat4(0.06897319, -0.06360793, -0.12517554, -0.106191345, -0.22830063, -0.12295911, 0.20943281, 0.11263121, -0.05995797, -0.04077969, 0.029862454, 0.12051529, -0.008890125, 0.005834341, -0.038162317, 0.05707114) * go_1(0.0, 1.0);
result += mat4(0.091504954, -0.054357428, 0.18441072, 0.16866787, 0.14714013, 0.14976494, 0.119183995, 0.11771104, -0.17375562, 0.024148121, 0.08745399, 0.175893, 0.12345911, 0.120711684, -0.23350039, -0.035989728) * go_1(1.0, -1.0);
result += mat4(-0.30777606, 0.028484846, 0.19993277, -0.12934783, 0.049725976, 0.02831735, 0.09492996, 0.28220424, 0.26913685, 0.005740985, 0.025957806, 0.047272105, 0.014296343, 0.15206927, 0.035486884, 0.09940966) * go_1(1.0, 0.0);
result += mat4(-0.11630714, -0.034275923, 0.26804927, 0.1088897, -0.21128473, -0.043662123, 0.24287297, 0.1738188, 0.04961249, -0.03669543, -0.11308307, 0.007536927, -0.0021338738, -0.095983095, 0.12524886, 0.091356605) * go_1(1.0, 1.0);
result += mat4(0.21231711, 0.19442785, 0.047695257, -0.058896706, -0.268304, -0.377306, 0.21314003, -0.09257493, -0.12023363, 0.20652951, -0.027571363, 0.36026677, -0.11473893, 0.22179964, -0.21924159, 0.14666505) * go_2(-1.0, -1.0);
result += mat4(0.04660883, -0.22199874, -0.2171105, 0.32090327, -0.11054424, -0.2047386, 0.18756013, 0.08749142, -0.16950387, 0.2577728, 0.048406947, 0.1380687, 0.1014651, -0.09075356, -0.21746674, -0.2651618) * go_2(-1.0, 0.0);
result += mat4(-0.1928378, 0.11190454, 0.32514498, 0.32336533, 0.100953236, -0.008598421, 0.02124068, 0.0043789423, -0.046625864, -0.051161833, 0.13504188, -0.049233675, -0.10984389, -0.040151004, -0.08592605, 0.13862692) * go_2(-1.0, 1.0);
result += mat4(0.057035644, -0.086490445, 0.17654544, -0.096670695, 0.13528337, -0.10338058, -0.08174943, -0.11349738, 0.088931166, 0.19410637, 0.19873992, 0.01418258, 0.066797465, 0.09427754, -0.17926928, -0.12299086) * go_2(0.0, -1.0);
result += mat4(-0.010706926, 0.040176257, -0.12350328, -0.11089934, 0.08166401, 0.103450865, -0.062155697, -0.10264778, 0.09370084, -0.022440543, 0.036917962, -0.20901524, -0.13244434, -0.18850644, -0.069766395, -0.042853933) * go_2(0.0, 0.0);
result += mat4(0.0064649805, 0.09057663, 0.042877126, -0.22078879, -0.21635285, -0.0064749196, 0.04875745, -1.3261495e-05, 0.26282236, -0.057637256, -0.037890673, 0.0102023715, 0.0797657, 0.050011456, 0.07423098, -0.055722862) * go_2(0.0, 1.0);
result += mat4(-0.21198633, -0.16919948, -0.12337323, -0.06970269, 0.12338858, -0.037561033, -0.013671757, 0.12396114, -0.046889607, -0.005447934, -0.043364853, -0.2882593, -0.069868185, -0.014526121, -0.14131337, 0.12157274) * go_2(1.0, -1.0);
result += mat4(-0.07510719, 0.024486735, 0.056790795, 0.12515159, -0.034031168, 0.025101706, -0.05993126, -0.053233545, -0.014431461, -0.12288865, 0.11686025, -0.22278062, -0.07422713, 0.0011266146, -0.06630191, 0.077075236) * go_2(1.0, 0.0);
result += mat4(0.15784621, -0.0009692987, 0.057809148, -0.17506301, -0.0764334, 0.036327295, -0.107915476, 0.41731307, 0.005342607, -0.17614163, 0.017190281, -0.17021762, 0.09241874, -0.02230073, 0.015017511, 0.1081785) * go_2(1.0, 1.0);
result += mat4(-0.04213655, 0.07620985, -0.24124615, -0.0389524, -0.0071511404, 0.026105708, 0.35026863, 0.0391313, 0.17119752, -0.1083619, -0.011338781, -0.13909689, 0.019918554, -0.21432641, 0.045009304, -0.2289899) * go_3(-1.0, -1.0);
result += mat4(-0.003247703, 0.13921799, 0.23126572, -0.11244338, -0.16778667, 0.05676625, 0.17198953, 0.2891844, -0.06569662, 0.18568343, -0.13698709, 0.014525318, 0.09470385, 0.20842068, 0.22716486, -0.044944298) * go_3(-1.0, 0.0);
result += mat4(-0.036239535, 0.21613471, 0.0571368, 0.0133618545, -0.15562424, -0.030107146, -0.0881642, -0.3056589, 0.17654738, -0.16532254, -0.19526796, -0.09598035, 0.29869553, -0.19921502, -0.10570262, 0.12562469) * go_3(-1.0, 1.0);
result += mat4(0.139326, -0.18395935, -0.14525263, -0.1019923, 0.019128725, 0.06724899, 0.18320693, -0.15844813, -0.063348524, 0.034003522, 0.1160608, 0.16281077, -0.20621236, 0.20389429, 0.008165468, -0.3147023) * go_3(0.0, -1.0);
result += mat4(0.0031874597, -0.17282559, -0.19517206, -0.057723213, 0.014905972, -0.115991496, -0.17772576, 0.10005784, -0.34928575, -0.41152355, 0.15671544, 0.16953272, -0.06541263, 0.09083862, 0.12386179, -0.17146301) * go_3(0.0, 0.0);
result += mat4(0.024222312, 0.06139789, 0.13585247, 0.048212904, -0.038439997, 0.04822463, -0.31542218, 0.12828648, -0.1334096, -0.10939595, -0.20957507, 0.14276013, 0.09314227, -0.018837357, -0.09913242, -0.0690483) * go_3(0.0, 1.0);
result += mat4(-0.059516154, 0.03142432, -0.08262814, 0.12844399, 0.35043675, -0.17421962, 0.034954365, -0.0052628545, 0.10024693, -0.044191923, 0.18297553, -0.045441866, -0.22365399, -0.011058562, 0.1576469, -0.22479026) * go_3(1.0, -1.0);
result += mat4(0.11010148, -0.109644935, -0.06213465, 0.06469803, -0.12474922, 0.20629437, -0.03891448, -0.032074396, -0.21814698, -0.2983182, 0.16088112, 0.02542415, -0.019019049, -0.11332389, 0.04115874, -0.15403947) * go_3(1.0, 0.0);
result += mat4(-0.07334427, 0.065546006, -0.059299644, 0.1712592, 0.10194824, -0.0076101148, -0.26384652, -0.012047153, -0.069830835, 0.2215555, 0.41080138, 0.051534526, 0.15190491, 0.12348823, -0.16904834, -0.20517784) * go_3(1.0, 1.0);
result += vec4(0.019262059, 0.043436494, -0.124304086, -0.014933208);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.20542079, 0.26111016, 0.0036034626, -0.16608916, 0.03036114, 0.04244865, -0.20747331, 0.06865131, -0.13495351, 0.14393657, 0.050192088, 0.13718198, -0.09928467, 0.0038359873, -0.026470508, 0.012319453) * go_0(-1.0, -1.0);
result += mat4(0.019964145, 0.038375776, 0.003130048, -0.07945381, 0.06856654, -0.08331041, -0.049974114, -0.011174098, 0.030265702, -0.12478692, -0.009842687, 0.028310193, -0.29398966, -0.14264, -0.08436449, 0.18336426) * go_0(-1.0, 0.0);
result += mat4(0.07453813, 0.018200234, -0.1406476, 0.027974837, -0.19164173, -0.15623717, -0.057000756, 0.029960351, 0.27373666, -0.08550347, -0.05088059, -0.10246706, 0.033324502, -0.086211175, -0.010092321, -0.11165423) * go_0(-1.0, 1.0);
result += mat4(-0.17666292, 0.26951888, 0.24166632, -0.118283056, -0.1336137, 0.13550404, -0.19008428, 0.0041048722, 0.09373522, -0.032812368, -0.018434448, -0.008766052, 0.10959183, 0.0164411, -0.17436402, 0.11861692) * go_0(0.0, -1.0);
result += mat4(0.059816767, 0.0632236, -0.18595679, -0.10951594, 0.11052112, -0.0630564, 0.32736167, 0.016436215, 0.036759567, -0.10445141, -0.16695334, -0.09536692, 0.34936142, -0.091659166, 0.25245044, 0.064123355) * go_0(0.0, 0.0);
result += mat4(0.23698406, -0.030446773, 0.20418753, 0.030977655, 0.10176531, -0.091048814, 0.06913646, 0.070524976, 0.20899844, -0.026074586, 0.031215316, -0.14815283, -0.22031465, 0.09148875, -0.058892634, -0.042353395) * go_0(0.0, 1.0);
result += mat4(-0.022295577, 0.23975989, -0.03795945, -0.13689965, -0.05808369, -0.005154714, 0.02775734, -0.06821517, 0.14538866, -0.13725305, 0.079675056, 0.015865099, -0.1457713, -0.043883465, -0.11575635, 0.092833005) * go_0(1.0, -1.0);
result += mat4(0.008460874, 0.09447306, 0.14322506, -0.0063166656, 0.04562443, 0.12490515, 0.19263941, 0.07084753, 0.16193573, 0.03871189, 0.0042382013, -0.026311405, -0.042831287, 0.047627136, -0.18002886, 0.03910702) * go_0(1.0, 0.0);
result += mat4(0.08485893, 0.099010445, 0.1808653, 0.098906465, -0.2406554, 0.11303921, 0.03609519, 0.102015704, 0.018253349, 0.018407846, 0.04515686, -0.1044267, 0.12692702, -0.22019249, 0.17978671, -0.11714096) * go_0(1.0, 1.0);
result += mat4(0.37482956, 0.037982, -0.2527836, -0.07246249, -0.3257375, 0.026353687, -0.42709586, 0.15230247, 0.19455267, -0.20558092, 0.040543195, 0.30100232, 0.1208413, -0.022922885, -0.0527519, -0.2754452) * go_1(-1.0, -1.0);
result += mat4(-0.39697862, 0.59894156, -0.14519346, -0.21375597, -0.042094186, -0.11699173, -0.3065778, 0.045603614, -0.2315796, 0.1926384, 0.19640557, 0.023360144, 0.11569712, 0.080500975, -0.24562629, -0.11990825) * go_1(-1.0, 0.0);
result += mat4(0.030446287, -0.2191283, -0.020313436, 0.12092218, -0.04726904, -0.06145154, -0.10886858, -0.016195009, 0.074864194, 0.048508577, -0.024673669, 0.10286324, 0.23434684, -0.1291551, -0.04299077, -0.12459363) * go_1(-1.0, 1.0);
result += mat4(0.064445384, 0.16708861, 0.10306973, -0.13419592, -0.15216815, 0.12578042, -0.575184, -0.46423253, 0.42238462, -0.4330836, -0.26651257, 0.57413465, -0.10399166, 0.1914047, 0.15641387, 0.07064538) * go_1(0.0, -1.0);
result += mat4(0.04809328, -0.12349369, 0.1853755, -0.013703159, -0.12840022, 0.022170544, -0.26412117, -0.30681273, -0.31553897, -0.07833276, -0.17104533, 0.03156802, 0.029389234, -0.017229239, -0.052230056, -0.04573632) * go_1(0.0, 0.0);
result += mat4(-0.1380467, 0.31759852, 0.06532168, 0.19637011, 0.24012493, -0.04863545, -0.21709125, -0.21216264, 0.16879074, 0.10763089, 0.22363038, -0.14004646, 0.19021708, -0.099481724, -0.0073404606, 0.04956918) * go_1(0.0, 1.0);
result += mat4(-0.068974994, 0.5005385, -0.12780246, 0.05813948, 0.035919234, 0.039779782, 0.0028248294, -0.21344285, 0.17026006, -0.17971572, -0.20932221, -0.0862113, -0.0074473396, 0.119821966, 0.28552157, -0.027787263) * go_1(1.0, -1.0);
result += mat4(0.20083936, -0.08729008, -0.01474545, 0.061849594, 0.09285405, 0.074680895, -0.11493401, -0.35524356, 0.098670855, -0.31036818, 0.01269914, -0.06409305, -0.13034628, 0.07905559, 0.0018419055, -0.047743056) * go_1(1.0, 0.0);
result += mat4(-0.0008763842, 0.16266613, -0.13819253, 0.04136551, 0.11757835, -0.01075886, 0.13635348, 0.14200751, -0.036117654, -0.016920915, -0.003860492, -0.14361666, 0.18442062, -0.0119510535, 0.1574026, 0.11443297) * go_1(1.0, 1.0);
result += mat4(-0.26120907, 0.0040505654, -0.01111041, -0.028482055, 0.094762795, -0.27338502, 0.18852817, -0.15605745, -0.012533703, 0.17356302, -0.2594928, -0.04016552, 0.060918808, -0.10248847, 0.12710676, 0.1503744) * go_2(-1.0, -1.0);
result += mat4(0.24577981, -0.047384363, -0.13740875, 0.058981817, 0.09629815, -0.042157363, 0.17206886, 0.06895825, -0.13252918, 0.0941419, -0.048901185, 0.052710008, -0.104840726, 0.11820465, 0.17454259, 0.05037063) * go_2(-1.0, 0.0);
result += mat4(-0.2239817, 0.4553206, -0.017824922, -0.050273463, -0.21029685, -0.032555267, -0.08916583, 0.10736202, 0.18478145, -0.09538145, 0.052327603, 0.12728482, -0.11439347, 0.17596558, 0.054506473, -0.017638389) * go_2(-1.0, 1.0);
result += mat4(-0.072854675, 0.015542916, -0.1950096, 0.06664522, 0.1548192, -0.22573462, -0.20828351, 0.16661869, 0.033900462, 0.23870395, 0.11434291, 0.21813981, 0.12673119, 0.08014363, 0.022457503, 0.20910633) * go_2(0.0, -1.0);
result += mat4(0.2652937, 0.17511544, -0.10850216, 0.081340194, -0.21500582, -0.036195952, -0.04102979, -0.15212043, -0.29559842, 0.25977176, 0.24641588, 0.13869548, -0.41371983, -0.14120851, 0.109116435, 0.22358306) * go_2(0.0, 0.0);
result += mat4(-0.108154014, 0.35006878, -0.055340957, -0.23728919, -0.24589789, -0.06516491, -0.03474703, -0.047869515, -0.0045436365, -0.17755373, -0.039802775, 0.21740748, -0.033278447, -0.10501602, -0.089266, -0.04061338) * go_2(0.0, 1.0);
result += mat4(0.028205335, 0.003054092, 0.14546792, -0.10006339, -0.052365907, -0.13063054, -0.08356806, 0.20927623, 0.05030947, 0.21224388, 0.45320153, 0.0051093665, 0.0021801728, -0.12858267, -0.10686808, 0.21674173) * go_2(1.0, -1.0);
result += mat4(0.10200768, 0.13099737, 0.13514566, -0.17343043, -0.22834082, 0.055208363, -0.20808199, -0.0015957861, -0.13871242, -0.06423964, 0.3320781, 0.051521134, -0.11108624, -0.17557982, -0.12519105, 0.067071475) * go_2(1.0, 0.0);
result += mat4(0.20798117, -0.046690967, 0.17071529, -0.29893485, -0.06927812, 0.072701424, -0.30537283, -0.16406195, 0.10575524, -0.063635424, -0.044293836, 0.08667325, -0.16368344, 0.2196707, -0.29370767, 0.16401167) * go_2(1.0, 1.0);
result += mat4(-0.04009042, -0.034136664, 0.15880232, -0.058544576, -0.09724303, 0.13140567, -0.15769257, 0.05637733, -0.061678827, -0.19032978, 0.11843628, -0.25161943, -0.12645799, -0.27027693, -0.19899485, 0.2231074) * go_3(-1.0, -1.0);
result += mat4(0.07176237, -0.12067612, -0.070081174, 0.10180745, -0.1705716, -0.039632697, -0.22599341, -0.12012279, 0.24187793, 0.015815722, -0.03722175, 0.098794326, 0.19674404, -0.040387046, 0.03916034, 0.013947429) * go_3(-1.0, 0.0);
result += mat4(-0.06389604, 0.04532417, -0.20961155, -0.22151196, 0.08498287, -0.0912261, -0.17840882, -0.13550358, -0.17497064, 0.12473174, 0.025784912, -0.060957976, -0.17787372, 0.21546759, -0.081276976, -0.0057096705) * go_3(-1.0, 1.0);
result += mat4(-0.09308164, -0.036254935, 0.07291895, -0.010599356, -0.07466555, 0.18080021, -0.012473155, 0.24264692, 0.043592792, -0.15068708, 0.19074705, -0.1608174, 0.07106228, -0.15757518, -0.19600157, 0.21481107) * go_3(0.0, -1.0);
result += mat4(0.10340095, 0.14977756, -0.18035571, -0.00454613, -0.018766372, -0.0006462305, 0.12609644, -0.022229725, -0.11288012, -0.10881946, 0.016426437, 0.047212575, -0.015592831, 0.088430114, -0.019637503, -0.15445113) * go_3(0.0, 0.0);
result += mat4(0.13125896, -0.05610665, 0.04579115, -0.20584439, 0.016590014, -0.14247346, -0.045108374, -0.07701804, 0.059466217, 0.10401916, -0.114898264, 0.15725806, 0.02189435, 0.016297683, -0.11828137, -0.07996226) * go_3(0.0, 1.0);
result += mat4(-0.038534615, 0.046327326, 0.04947746, 0.07890686, -0.08618927, 0.1135833, -0.008643036, -0.019718027, -0.08664565, 0.068627, -0.06325347, 0.04222515, 0.120940305, -0.106959745, 0.022951378, 0.14290553) * go_3(1.0, -1.0);
result += mat4(0.06408585, 0.19215317, 0.05731193, 0.09329293, 0.26087278, -0.124888204, -0.15473562, -0.037721, -0.12800066, 0.12517492, -0.06680967, 0.09497935, 0.23841377, 0.1347636, 0.17279463, 0.0038290594) * go_3(1.0, 0.0);
result += mat4(0.08006353, -0.07942165, 0.14611697, 0.053477652, 0.13953096, -0.14270853, -0.009859328, -0.21148224, 0.11157642, -0.12486184, -0.0709194, 0.16277598, -0.08118929, -0.04684391, 0.049433514, -0.28911993) * go_3(1.0, 1.0);
result += vec4(-0.15367588, -0.07928099, 0.063567765, 0.108769014);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf1
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.13100185, 0.028466834, 0.21762301, 0.07392093, -0.00046575023, -0.08175499, -0.07715949, 0.056365166, -0.028316915, -0.037371337, -0.16343145, -0.078509934, -0.178982, 0.06893543, -0.12027178, 0.06993414) * go_0(-1.0, -1.0);
result += mat4(0.07834248, 0.046873976, 0.23983683, -0.06646688, -0.04749886, -0.101967975, -0.082395144, -0.015339724, -0.07693013, 0.016892025, -0.08877053, 0.14534354, -0.30249342, -0.08455913, 0.09002741, -0.12472986) * go_0(-1.0, 0.0);
result += mat4(-0.039911453, 0.11150177, -0.009199328, 0.043733858, -0.013332275, -0.119128324, -0.09285867, 0.007959111, 0.23202884, 0.06459362, 0.071042486, 0.09901959, -0.046906233, -0.07916646, -0.07528521, 0.05652529) * go_0(-1.0, 1.0);
result += mat4(0.12189273, -0.07608036, -0.09632985, -0.03643418, -0.1058494, -0.045247663, 0.016788295, 0.046447262, 0.08731556, -0.07916306, -0.17591585, 0.070336945, 0.0825902, 0.21166702, -0.14786263, 0.012765127) * go_0(0.0, -1.0);
result += mat4(-0.15099311, -0.082614996, -0.010447922, -0.2116295, 0.22785337, -0.0015175309, 0.21255092, 0.058660604, -0.022553608, -0.120723926, 0.0561124, 0.018720774, 0.0862727, -0.02351105, 0.037588555, -0.013596472) * go_0(0.0, 0.0);
result += mat4(-0.17424586, -0.091873385, 0.20892383, 0.3079469, -0.08027999, -0.07241797, 0.035928074, -0.031040983, -0.03548984, -0.047187436, 0.17053668, 0.39115313, 0.061380606, 0.13889132, -0.041030813, -0.022435248) * go_0(0.0, 1.0);
result += mat4(-0.0037971158, -0.19398233, -0.041492697, -0.08632908, 0.05087685, 0.114212446, 0.09395637, -0.12073027, 0.18993643, -0.025265925, -0.17716514, -0.062493253, 0.078527555, -0.13106133, 0.09158833, -0.08067098) * go_0(1.0, -1.0);
result += mat4(0.11454478, -0.053314645, 0.02932442, -0.052710265, 0.10180192, -0.05165681, 0.1415095, -0.0886421, 0.25377235, -0.16350931, -0.07908212, 0.081858, 0.13214986, 0.056609593, -0.029691117, -0.1963397) * go_0(1.0, 0.0);
result += mat4(0.13833676, 0.024542026, -0.07700002, -0.016948726, -0.13303484, -0.0951515, -0.031009076, 0.055997517, -0.037423257, -0.1693348, 0.015715523, 0.053379383, 0.12330872, -0.15478514, 0.14523397, 0.18046756) * go_0(1.0, 1.0);
result += mat4(0.20786218, 0.14361653, 0.49472246, 0.09881262, -0.34138504, -0.0025990994, -0.43033788, -0.00039400125, -0.002008598, 0.23800024, 0.04231959, 0.028620182, 0.13962908, 0.089462794, -0.14335507, 0.008409915) * go_1(-1.0, -1.0);
result += mat4(-0.12720335, -0.3409636, -0.023997113, 0.026997993, -0.20555046, -0.027020821, -0.235406, 0.09561914, 0.44234744, -0.07148167, 0.00064560794, -0.1726457, -0.014688707, 0.21288827, 0.17666213, -0.11264844) * go_1(-1.0, 0.0);
result += mat4(-0.38011166, 0.014146791, 0.03394759, 0.08368928, -0.14633556, 0.11139822, -0.25683075, 0.07368074, -0.25248998, 0.12499596, -0.004184047, 0.192279, -0.048109, -0.006033096, 0.028591031, 0.15288617) * go_1(-1.0, 1.0);
result += mat4(0.10880278, -0.02255051, 0.21004406, -0.034776326, 0.10378925, -0.22322227, -0.11731474, -0.11443079, -0.30380723, 0.3183636, 0.18248428, -0.10215758, -0.049251713, 0.12848853, 0.012738647, 0.03222829) * go_1(0.0, -1.0);
result += mat4(0.54890627, 0.20614935, -0.019661043, -0.07782363, -0.07293127, -0.004283575, -0.036939718, 0.19752185, -0.41021585, -0.050092876, 0.023610009, -0.23783271, 0.11343489, 0.21473971, -0.06997083, -0.10420534) * go_1(0.0, 0.0);
result += mat4(-0.08103626, 0.091647685, -0.17259495, -0.24478562, 0.08222839, 0.12299736, -0.12480139, 0.08303869, 0.069200024, 0.0005504728, 0.01590888, -0.029884247, 0.029297108, 0.17425247, 0.055239804, -0.06290667) * go_1(0.0, 1.0);
result += mat4(-0.25949356, -0.049375266, -0.19764636, 0.04848412, 0.14846909, 0.07249825, -0.038826656, -0.15756363, -0.1748046, 0.1839563, -0.015786756, 0.012645979, 0.09585216, 0.07619667, 0.010932837, 0.06530666) * go_1(1.0, -1.0);
result += mat4(-0.0592303, 0.34068975, -0.0043445593, 0.25165552, 0.22237164, 0.041179545, -0.046396293, 0.22462137, 0.034741532, 0.06565189, 0.13475078, 0.08480505, 0.1708352, 0.057039484, 0.037506044, -0.34036627) * go_1(1.0, 0.0);
result += mat4(-0.10844713, 0.113506734, -0.14367405, 0.111787796, 0.031758603, -0.06955974, -0.068098925, 0.14282043, 0.094929375, 0.18194464, -0.045276128, -0.0032632013, 0.007969798, -0.0590313, 0.05033309, 0.06328967) * go_1(1.0, 1.0);
result += mat4(-0.08094655, -0.08266014, -0.31147677, -0.062742665, -0.017061448, 0.26350877, 0.10840224, -0.16414656, 0.25499284, -0.3347594, 0.25973678, 0.15623575, 0.022350369, -0.08235582, 0.29226762, -0.14951667) * go_2(-1.0, -1.0);
result += mat4(0.16715927, 0.31846005, -0.007528655, -0.04655408, 0.07248268, -0.1295353, 0.119970314, 0.00721155, 0.19906871, 0.06366751, -0.055744495, 0.11151067, 0.09488815, -0.09006814, -0.1341, -0.12335882) * go_2(-1.0, 0.0);
result += mat4(-0.18715191, -0.06641214, -0.24086717, -0.13160741, -0.20222618, -0.08882262, 0.09281967, -0.14381158, 0.31153843, 0.10280565, -0.06487702, -0.0030142434, 0.12800919, 0.059373695, 0.108098336, -0.025091475) * go_2(-1.0, 1.0);
result += mat4(-0.26941344, -0.010607985, -0.059500597, -0.087650314, 0.057776485, 0.032416668, -0.0014182271, -0.053006213, 0.198899, -0.12861459, 0.1999814, 0.053311568, 0.0801663, -0.2101018, 0.110617965, -0.02017489) * go_2(0.0, -1.0);
result += mat4(-0.0888614, -0.07155236, -0.019973263, -0.12744384, -0.17749546, 0.041163083, 0.07273392, -0.09820898, -0.14922594, -0.11169263, -0.069319114, -0.04354858, 0.18076904, 0.084879614, -0.04125808, 0.068733074) * go_2(0.0, 0.0);
result += mat4(0.025723739, -0.3071993, -0.26200652, -0.24551399, 0.040670983, 0.29252282, -0.14551005, 0.111219764, -0.21262506, -0.026296655, 0.16694368, 0.0041154358, 0.03154805, 0.07315552, 0.13088223, -0.10842478) * go_2(0.0, 1.0);
result += mat4(0.070245974, 0.110039465, 0.19028768, -0.042884093, -0.09198143, 0.07932312, 0.09101255, 0.046001278, 0.18428285, -0.026307642, 0.099789225, -0.12612925, -0.40322223, 0.18879798, 0.010587032, 0.055332247) * go_2(1.0, -1.0);
result += mat4(-0.057069883, -0.032890134, -0.0513947, -0.074211985, -0.19471937, 0.18182398, -0.2119559, 0.2439066, -0.14167733, 0.25903046, 0.18162172, -0.007826057, -0.06429918, 0.02668084, 0.077179454, 0.023550559) * go_2(1.0, 0.0);
result += mat4(0.14551505, 0.11689716, 0.28027633, -0.18079606, 0.016579725, 0.03988999, 0.074107096, -0.15190484, -0.060423456, 0.39282638, -0.005255287, 0.09286323, -0.1003253, -0.0412654, -0.117815144, -0.22671913) * go_2(1.0, 1.0);
result += mat4(-0.26655, 0.02524124, -0.15780295, 0.010378331, 0.038483843, -0.18752888, 0.12708266, 0.020122316, -0.13007571, 0.11942783, 0.1515452, 0.068273015, -0.11957963, -0.061313108, 0.18422426, -0.16399868) * go_3(-1.0, -1.0);
result += mat4(-0.17614686, 0.12740774, -0.12034426, 0.00811552, -0.027063683, 0.004154653, -0.1892024, -0.051516473, -0.15957421, 0.103997365, 0.12231665, -0.082051665, 0.1611069, -0.017016938, 0.03224853, 0.16816284) * go_3(-1.0, 0.0);
result += mat4(-0.15254295, -0.011885901, -0.03317691, 0.076534435, -0.060000043, 0.020979656, -0.11068878, 0.17345367, 0.033083163, -0.016063845, -0.03998401, -0.14917895, 0.05829016, 0.055933036, 0.0152959, -0.11680771) * go_3(-1.0, 1.0);
result += mat4(-0.22236426, 0.093723886, 0.004360134, 0.05051143, 0.017353376, -0.0092351325, -0.16306834, 0.031693168, 0.20352198, 0.060595278, 0.08691345, 0.25801733, -0.09962889, -0.014900563, -0.15118423, -0.096163675) * go_3(0.0, -1.0);
result += mat4(-0.19981825, -0.21788603, 0.20982541, -0.113621205, 0.005621798, 0.0943901, -0.17422888, -0.18507147, 0.30247143, 0.06899553, -0.16009268, 0.067299575, -0.21744101, -0.015869575, 0.095568515, -0.036854178) * go_3(0.0, 0.0);
result += mat4(0.06810536, 0.11014666, 0.24017857, 0.12042336, -0.12038678, 0.015001737, -0.17134188, 0.10343175, 0.09067457, 0.11136803, 0.024367718, -0.13199149, -0.37008765, 0.07137436, 0.122724056, 0.06668219) * go_3(0.0, 1.0);
result += mat4(0.28085753, -0.14428541, 0.08978648, 0.05202615, -0.15860316, -0.06101108, -0.18904316, 0.104275696, 0.06810539, -0.07249347, -0.10909362, 0.019484319, -0.025948122, 0.0910616, -0.17025243, -0.035804044) * go_3(1.0, -1.0);
result += mat4(0.10040864, -0.27650854, -0.029030709, -0.0531634, 0.050312318, 0.14849235, -0.059385244, -0.13935417, -0.16425262, -0.14445016, -0.22415695, 0.04330054, 0.0024454365, -0.009127519, -0.24255885, -0.06303984) * go_3(1.0, 0.0);
result += mat4(0.054911103, -0.2811866, -0.049883213, 0.09221324, 0.041680478, 0.1959676, -0.15021674, -0.006908881, -0.15814131, -0.15958795, 0.15639575, -0.10088554, -0.22732499, -0.082894124, 0.06674789, -0.10491449) * go_3(1.0, 1.0);
result += vec4(-0.038157728, 0.01904009, 0.07848918, -0.04052424);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.044146776, -0.026106803, -0.15219912, -0.15929134, 0.02972265, -0.05223942, 0.06760582, 0.04324784, -0.13192074, 0.12351806, 0.0855665, -0.11861024, 0.097702436, 0.10298012, -0.03555207, 0.06544868) * go_0(-1.0, -1.0);
result += mat4(0.05458123, 0.014500078, 0.048824716, 0.14172198, 0.057214983, -0.06896361, -0.052671798, 0.10043398, -0.029938918, -0.013474177, 0.10448471, 0.29896173, -0.0037866347, -0.06600103, -0.19298725, -0.119502924) * go_0(-1.0, 0.0);
result += mat4(-0.07483799, 0.0757225, -0.07432271, -0.02994328, -0.047863305, -0.08091319, -0.13640103, -0.16553412, 0.019309495, 0.13153689, 0.14757608, 0.041081686, 0.1447018, -0.09976335, -0.06094595, -0.019380448) * go_0(-1.0, 1.0);
result += mat4(-0.116722435, 0.018069802, 0.082960755, 0.25008422, -0.10093022, 0.15039717, 0.16740529, 0.08372216, -0.17313154, 0.072606385, 0.1134366, 0.09108986, -0.025453486, -0.0014705429, 0.073060215, -0.0786531) * go_0(0.0, -1.0);
result += mat4(-0.22601452, 0.5512376, -0.11920107, -0.12763597, -0.008671738, -0.058479775, -0.268992, -0.06614402, -0.26501563, -0.030529302, -0.04196243, 0.13161187, 0.1170102, -0.25060177, 0.060350843, -0.1524947) * go_0(0.0, 0.0);
result += mat4(-0.1648866, 0.05652559, -0.040925294, -0.11008188, 0.21542753, -0.116541564, -0.08021358, -0.13785587, -0.05141525, -0.039133884, -0.1124311, 0.17472316, -0.22469969, 0.09842997, 0.10967242, -0.020226078) * go_0(0.0, 1.0);
result += mat4(-0.12250246, 0.10348344, -0.018174428, 0.037790317, 0.07088387, 0.27629474, 0.049727917, -0.0011699499, -0.1497167, 0.048863184, 0.00309108, 0.12177124, 0.022598455, 0.08864282, -0.048928354, 0.088068075) * go_0(1.0, -1.0);
result += mat4(0.043115202, 0.24277024, 0.17749861, 0.10550521, 0.008603091, -0.36454508, 0.09997063, 0.11979698, -0.15786794, -0.008746184, 0.06689776, -0.20002088, 0.04094072, 0.042499837, -0.05387774, -0.10426778) * go_0(1.0, 0.0);
result += mat4(0.06600674, 0.07645438, 0.015209062, 0.23262201, -0.08001964, -0.09341582, 0.008619914, 0.093308866, -0.124739006, -0.007209568, -0.06492457, 0.22863889, 0.17875427, 0.0779068, -0.09997953, -0.021379821) * go_0(1.0, 1.0);
result += mat4(-0.043263335, 0.1548246, 0.09254137, 0.16256322, 0.13361873, -0.10850825, 0.09901608, -0.0753444, -0.02345517, 0.030159235, -0.0043304237, 0.19805421, -0.11997134, 0.0948639, -0.09261292, 0.1167355) * go_1(-1.0, -1.0);
result += mat4(0.1042119, -0.08793884, -0.15884337, -0.08414226, -0.02642236, -0.032897346, -0.07664125, 0.064429455, 0.04868224, 0.04438529, -0.083366744, -0.06398503, -0.2364328, -0.039592575, -0.15421078, 0.17369357) * go_1(-1.0, 0.0);
result += mat4(0.20374978, -0.09289948, -0.25493136, 0.028119517, 0.053481918, -0.062769525, -0.052148513, -0.20336467, -0.07322327, 0.071623735, -0.05846495, 0.23537324, 0.030998409, -0.0572314, -0.30425155, 0.17616381) * go_1(-1.0, 1.0);
result += mat4(-0.008999034, 0.19063166, -0.16384077, 0.08840229, 0.005153292, 0.17091888, 0.05193965, -0.09363918, 0.07379054, 0.0416411, 0.007373337, -0.002444226, 0.090993404, -0.17546643, -0.14595066, 0.19029109) * go_1(0.0, -1.0);
result += mat4(-0.07473051, 0.022953797, 0.3694185, -0.000816042, 0.014621785, -0.029232977, -0.0163784, 0.30796757, 0.024686797, -0.0376939, 0.106044516, 0.10191429, -0.11145659, -0.23659907, 0.11254082, 0.078495234) * go_1(0.0, 0.0);
result += mat4(0.05722472, 0.014075986, 0.077577166, -0.1319451, 0.0063364087, 0.07042797, 0.013867829, -0.01543331, -0.069067486, -0.07245758, 0.059568863, 0.06195517, -0.25257275, -0.19943956, -0.19534364, -0.1566254) * go_1(0.0, 1.0);
result += mat4(0.10666801, 0.19854072, -0.14524002, 0.21727695, 0.07621112, 0.103370175, 0.003522481, -0.03526533, 0.09204845, 0.04930996, -0.009533781, 0.071561396, 0.007946626, -0.09155877, -0.18856467, 0.11516717) * go_1(1.0, -1.0);
result += mat4(0.15758498, 0.25284624, -0.03834856, -0.16141246, -0.09860034, -0.35015398, 0.08133997, 0.05046502, 0.20083027, -0.0026045898, -0.23627196, 0.07382544, 0.11064689, -0.0707055, -0.18984218, -0.09250848) * go_1(1.0, 0.0);
result += mat4(0.05949194, 0.00070572464, 0.10784266, -0.008810496, 0.06522392, -0.0023800225, -0.01614215, -0.015862722, 0.08078033, 0.10827174, 0.11440369, 0.014041329, 0.053579852, -0.11658711, -0.052344058, -0.03857412) * go_1(1.0, 1.0);
result += mat4(-0.054652497, 0.072690494, 0.11310003, 0.09839347, -0.08197539, 0.089851685, 0.039466213, -0.059131484, 0.03934494, -0.09728057, 0.07211633, 0.14545459, -0.08371904, -0.02848036, -0.020263305, -0.12366355) * go_2(-1.0, -1.0);
result += mat4(-0.13024135, 0.10256835, -0.088607304, -0.08425782, -0.067031406, -0.03591957, 0.034701034, -0.0573039, -0.048706584, 0.10135636, -0.13818035, -0.09554917, 0.1541496, -0.09246093, 0.11827978, -0.02703279) * go_2(-1.0, 0.0);
result += mat4(-0.057035744, 0.063911796, 0.12805207, 0.13411741, 0.00924603, -0.03657417, 0.08100167, -0.031264946, -0.03189199, -0.049402498, -0.046219792, 0.12624107, 0.2809697, -0.1264563, 0.02382632, -0.16174819) * go_2(-1.0, 1.0);
result += mat4(0.032658063, 0.029207656, -0.020362824, -0.18823773, -0.20003095, 0.09240136, 0.004393565, 0.28016117, -0.17617643, 0.21443488, -0.06436653, 0.09426579, -0.012660543, -0.038343526, -0.087761596, -0.06952474) * go_2(0.0, -1.0);
result += mat4(0.013616554, -0.16468868, 0.1281466, 0.08476041, -0.0138902385, -0.04434069, 0.12031286, -0.07590152, -0.12818764, 0.1970344, 0.042898823, 0.018936606, 0.019264435, -0.13713486, -0.027062744, 0.26364017) * go_2(0.0, 0.0);
result += mat4(-0.03121837, -0.040610187, 0.0023387137, 0.11021297, 0.04006531, 0.089258075, 0.038287688, 0.19519399, 0.0590789, -0.0127886515, 0.16618161, -0.11148632, -0.10438067, 0.088400334, 0.115820415, 0.23558354) * go_2(0.0, 1.0);
result += mat4(-0.14781238, -0.020881698, 0.040218577, 0.090248026, -0.04531296, 0.121813886, -0.12156261, -0.02640371, 0.019912932, 0.029554896, -0.032324113, 0.060553055, -0.14531589, -0.20826598, 0.1945815, -0.18510781) * go_2(1.0, -1.0);
result += mat4(-0.24151343, 0.08096261, -0.08314715, 0.121899664, -0.21133694, 0.25925165, 0.037419003, 0.0027491911, 0.07981589, -0.06247693, -0.07793235, -0.050702088, -0.21040778, -0.051243544, 0.021130228, -0.16032514) * go_2(1.0, 0.0);
result += mat4(-0.1940846, 0.005878943, 0.09001744, 0.00996283, -0.01720877, 0.11209827, -0.045714185, 0.017633213, 0.11248759, -0.070436165, 0.059041988, -0.117122024, -0.15776572, 0.041433014, 0.06852976, -0.32530108) * go_2(1.0, 1.0);
result += mat4(-0.018681401, 0.07524977, -0.09961975, -0.025000824, -0.14728728, 0.17958179, 0.05077947, 0.09839162, -0.24664684, 0.2350485, 0.043190528, 0.123329654, 0.031106282, -0.024857467, 0.026871338, 0.03363785) * go_3(-1.0, -1.0);
result += mat4(0.090937026, 0.113483965, 0.10115868, 0.09630846, 0.040868916, -0.14394417, 0.13920946, -0.09652194, -0.21267591, 0.079470165, 0.35935298, -0.029055713, 0.0462934, 0.02001686, 0.01959559, 0.0067710667) * go_3(-1.0, 0.0);
result += mat4(0.025194263, 0.087321565, -0.008157793, -0.12381555, 0.07437093, -0.024633797, -0.13163073, 0.053631987, -0.16161191, -0.33736497, -0.16600001, -0.16064753, -0.01877911, 0.006173125, -0.21867354, -0.11551306) * go_3(-1.0, 1.0);
result += mat4(0.016227739, 0.041133694, 0.12241288, 0.1840938, 0.16001828, -0.07284954, -0.0840258, 0.10275262, 0.059712093, 0.18617383, -0.004344732, 0.04759032, -0.112888224, 0.025455667, 0.06032809, -0.24498977) * go_3(0.0, -1.0);
result += mat4(0.07140021, 0.24720372, -0.12715518, 0.13462298, 0.07784012, 0.04233614, 0.030195842, -0.095302135, 0.1719011, -0.16173883, 0.082427144, -0.03078554, -0.115330435, 0.2787821, -0.15274885, -0.016630588) * go_3(0.0, 0.0);
result += mat4(0.08701172, 0.021434337, -0.15877618, 0.22535062, 0.014872742, -0.0068805423, -0.051181257, -0.38192979, 0.20793833, -0.2901109, -0.057449028, -0.044476006, -0.08431449, -0.05297424, -0.05526057, -0.06096434) * go_3(0.0, 1.0);
result += mat4(0.12446916, -0.010789559, 0.18910398, -0.14184885, -0.040306002, 0.062063884, 0.14885572, 0.0050085005, 0.07284438, 0.03938155, 0.27486423, -0.079940364, -0.10640366, -0.11455711, 0.018501248, -0.05743762) * go_3(1.0, -1.0);
result += mat4(0.26359692, 0.014875724, 0.043625355, 0.0974379, 0.09281598, 0.2449208, -0.07954478, -0.20232148, 0.025533125, -0.29744807, 0.1810463, -0.09866862, -0.16949633, -0.097010635, 0.04885873, 0.08639066) * go_3(1.0, 0.0);
result += mat4(0.10937537, 0.024320884, -0.084123306, 0.045726787, 0.08169718, 0.038608517, 0.2250605, -0.031330425, -0.008280292, -0.026776202, -0.14776887, 0.3436263, -0.16302314, -0.15479733, -0.10982676, 0.12014077) * go_3(1.0, 1.0);
result += vec4(0.046519246, -0.00879819, -0.044789877, -0.07887647);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf1
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.10340159, 0.03126175, 0.008010763, -0.014703102, 0.06388945, 0.08303292, -0.052860666, 0.1492984, 0.06422952, -0.029731093, -0.021047806, 0.0012385565, 0.025289888, 0.08642119, 0.06883434, 0.023763692) * go_0(-1.0, -1.0);
result += mat4(0.0748618, -0.048646145, 0.07845818, -0.24385995, 0.077536225, -0.29863936, 0.24418406, 0.07232939, -0.0054087904, 0.05985848, -0.017639449, 0.12629768, 0.108363576, 0.09904134, -0.00050070864, -0.11790627) * go_0(-1.0, 0.0);
result += mat4(0.05239057, 0.15894121, -0.07164557, -0.32539955, 0.046355467, -0.1368222, 0.10285978, 0.0981996, 0.04779384, -0.19793929, 0.06193576, -0.061980426, 0.12222037, 0.06162786, 0.12215435, 0.045095358) * go_0(-1.0, 1.0);
result += mat4(0.11633697, -0.07783625, 0.038284954, -0.1077604, 0.050120354, -0.039917693, -0.05126379, 0.020723915, 0.06922371, 0.07441101, 0.04355437, -0.0009652994, -0.040668465, 0.11270888, -0.056610428, 0.018002095) * go_0(0.0, -1.0);
result += mat4(0.1991713, -0.12291669, 0.007297408, -0.22448927, 0.0118651325, -0.15347931, -0.02881685, -0.13971193, -0.0597255, -0.056213673, -0.16497411, -0.087855674, -0.09711957, 0.19384801, -0.09268538, 0.0010212396) * go_0(0.0, 0.0);
result += mat4(0.13538352, 0.20081995, 0.05765413, 0.08507135, -0.11396954, -0.06537804, 0.1840262, 0.13141033, 0.07317906, 0.053597126, 0.14733106, -0.027857138, -0.008961551, -0.030892484, -0.10815004, 0.07787356) * go_0(0.0, 1.0);
result += mat4(0.14028777, 0.20683727, -0.1973804, -0.14879352, 0.08193435, 0.06776529, 0.15067616, -0.005689123, 0.091099024, -0.04523496, -0.025365459, 0.046144743, 0.073163316, -0.050716147, 0.03645591, 0.08450625) * go_0(1.0, -1.0);
result += mat4(0.05377605, 0.29956514, -0.05203467, -0.12395672, -0.07375765, 0.07590657, -0.1648796, 0.016921869, -0.15838358, -0.18164106, 0.048942942, 0.08723644, -0.05655316, 0.06374977, 0.03486325, -0.17268877) * go_0(1.0, 0.0);
result += mat4(0.067100935, 0.116894506, -0.12316177, -0.28647798, 0.15253417, -0.043991808, -0.07732363, 0.12502535, 0.027790325, -0.13292582, 0.06508008, 0.033653572, 0.100093335, 0.044676002, 0.1450233, 0.108926095) * go_0(1.0, 1.0);
result += mat4(-0.25443476, 0.0075249635, 0.09893316, 0.13884877, -0.009865199, 0.028503535, 0.04932893, -0.021844162, 0.09569463, 0.042022802, -0.0056093778, -0.044183288, 0.012850613, 0.08729362, 0.088493116, -0.035626948) * go_1(-1.0, -1.0);
result += mat4(-0.28942817, -0.2278143, -0.124107786, 0.18914355, -0.13334653, -0.061389446, 0.09170535, 0.1529043, 0.070113055, 0.052939575, -0.027512128, 0.043993592, 0.058714498, 0.0618404, 0.07549026, 0.27376285) * go_1(-1.0, 0.0);
result += mat4(-0.17169511, 0.18338326, 0.09645834, -0.19721629, -0.062608786, -0.06097738, -0.052246977, 0.11313908, -0.002827855, -0.08297087, 0.2045053, 0.027751451, 0.05598507, 0.08318512, -0.020142859, -0.07377832) * go_1(-1.0, 1.0);
result += mat4(0.024627045, -0.065384455, -0.04648491, -0.32704023, -0.16444866, -0.0068647224, -0.20919928, -0.18135908, 0.05522183, -0.12074867, 0.04628794, 0.025948782, 0.058282085, 0.16593929, -0.1396821, -0.36740735) * go_1(0.0, -1.0);
result += mat4(0.16715747, -0.03793736, 0.08576081, 0.23338848, 0.051240716, 0.090182334, -0.046501555, -0.0894777, -0.06944291, -0.05119481, -0.15820025, -0.17854515, 0.3914519, -0.0677236, 0.076883785, -0.16959) * go_1(0.0, 0.0);
result += mat4(-0.16410258, 0.11443157, 0.048126943, 0.17386216, -0.09785154, 0.14995028, 0.093302995, 0.09777354, 0.016656177, -0.16498508, -0.16739717, 0.11313578, 0.001371565, -0.031823646, -0.02444281, 0.13747996) * go_1(0.0, 1.0);
result += mat4(0.023110714, -0.04154956, -0.030491728, -0.4158937, -0.007988987, 0.0035799788, 0.16974539, -0.014700064, -0.017114861, -0.018651277, 0.00242705, -0.011389802, -0.17292719, -0.03441201, 0.057909735, 0.17829509) * go_1(1.0, -1.0);
result += mat4(0.014969421, 0.21926679, 0.14203273, -0.15120554, -0.094369836, 0.083293505, -0.080706924, 0.16517772, -0.053518526, 0.11042086, 0.02499214, -0.05298825, -0.017418144, -0.024013298, -0.07151083, -0.22398451) * go_1(1.0, 0.0);
result += mat4(0.052312143, -0.09576563, -0.073171586, 0.13949135, -0.019157652, -0.019879084, 0.083495006, -0.14749153, 0.05605271, -0.07413262, -0.09352249, 0.0042679785, -0.069604576, -0.16840592, 0.103903025, 0.2889917) * go_1(1.0, 1.0);
result += mat4(0.059331086, -0.033961378, 0.0041064387, -0.08705166, 0.051230803, -0.018020583, -0.12681223, -0.23725896, 0.059449084, -0.052372735, -0.05540911, 0.10343921, 0.024327401, 0.012832041, -0.022239655, -0.13162766) * go_2(-1.0, -1.0);
result += mat4(-0.00208763, 0.06829585, -0.050976753, -0.05621949, -0.005976271, 0.009429676, -0.04865572, -0.09551031, -0.075597085, -0.026020885, 0.03421109, -0.1937313, -0.22840965, -0.15389588, -0.111958645, 0.10905485) * go_2(-1.0, 0.0);
result += mat4(0.081813, -0.065287165, -0.045189142, -0.047831066, 0.08934535, 0.09954615, -0.07451004, 0.033529207, 0.1303318, -0.08212296, -0.07734046, -0.014592582, -0.3092255, 0.045021445, -0.1223635, -0.026269957) * go_2(-1.0, 1.0);
result += mat4(-0.113570146, 0.036414642, 0.015502351, 0.15432163, 0.008468439, -0.029858474, 0.03321966, -0.14513937, 0.105439186, 0.17247854, -0.040744863, -0.054444846, -0.121361785, 0.04879374, -0.23203504, 0.0054753935) * go_2(0.0, -1.0);
result += mat4(-0.015762426, 0.27844664, -0.023570599, 0.004403549, 0.04703402, 0.11293326, -0.22021124, -0.022294452, 0.0109151825, 0.051353704, 0.01387703, -0.25460902, -0.1720017, -0.41253135, 0.13271171, 0.24472673) * go_2(0.0, 0.0);
result += mat4(-0.06729634, -0.08928969, 0.044666067, -0.080033734, -0.010024118, 0.09617992, -0.03422752, -0.24341615, 0.0026236945, -0.17291804, -0.18756893, -0.011092629, -0.0758896, -0.11379615, 0.2614097, 0.2968493) * go_2(0.0, 1.0);
result += mat4(0.037218813, -0.08741755, -0.047161646, -0.075184174, 0.07814149, -0.117306635, 0.27880162, -0.20831196, 0.11074332, 0.007141896, -0.061060436, -0.07465655, -0.06771369, 0.08425538, -0.13826483, 0.1951752) * go_2(1.0, -1.0);
result += mat4(-0.09369145, 0.05128452, -0.0045741517, -0.08464627, 0.072324485, -0.103766605, 0.04346825, -0.084247194, 0.18332602, 0.24476874, -0.23600607, -0.105699316, 0.0018734589, -0.22071646, 0.2122217, -0.1247409) * go_2(1.0, 0.0);
result += mat4(0.024415143, -0.1883563, -0.08757719, 0.038815416, 0.06804177, 0.072834484, 0.062976, -0.043060035, 0.008934872, -0.065206386, -0.02180933, 0.18650985, 0.15305461, -0.043311838, -0.13565755, -0.15254296) * go_2(1.0, 1.0);
result += mat4(0.027255, 0.13145106, 0.08066033, 0.05240541, -0.093578346, -0.043811, -0.03499714, 0.08510107, -0.01451532, 0.20293784, -0.15014489, 0.010262514, -0.05686128, -0.032981467, 0.009303513, -0.14119668) * go_3(-1.0, -1.0);
result += mat4(0.056040764, 0.1030456, 0.19483311, -0.035117295, -0.045012027, 0.036512565, -0.073540024, 0.07976307, 0.048326198, -0.08448881, 0.009611186, 0.21209192, 0.058837466, 0.21072935, -0.18430287, -0.022488063) * go_3(-1.0, 0.0);
result += mat4(-0.047507305, -0.0024985473, 0.16436942, 0.11034998, -0.07350365, -0.04659239, 0.055649634, -0.24239732, 0.0874119, 0.0491421, -0.20165893, -0.16950199, -0.06907221, -0.02995977, -0.076965876, -0.019354858) * go_3(-1.0, 1.0);
result += mat4(0.16029131, 0.13571973, -0.0066582616, -0.12420045, 0.09299235, 0.10025083, 0.17720564, 0.09894699, 0.25251085, -0.06967862, 0.09031549, 0.014147361, 0.10027847, -0.1572137, 0.075934134, 0.041270934) * go_3(0.0, -1.0);
result += mat4(-0.05063072, -0.049268696, -0.018284608, -0.13692653, -0.20619605, -0.3068155, 0.17608485, 0.09949, 0.28783736, -0.22305936, 0.12421118, 0.22138284, -0.14137621, -0.033278886, -0.08361161, -0.030769518) * go_3(0.0, 0.0);
result += mat4(0.108629055, 0.0015808924, 0.20601004, -0.026752226, -0.1501807, 0.029018851, 0.21033502, -0.027005566, 0.0030185424, 0.23096606, 0.03001235, -0.37719792, -0.015479773, 0.3498214, -0.25188166, -0.09796651) * go_3(0.0, 1.0);
result += mat4(-0.17263511, 0.09929037, -0.057462707, 0.03969186, -0.09580756, -0.02628204, -0.18671957, -0.114821374, -0.032703403, -0.04550097, -0.17387073, -0.06422339, 0.029069535, 0.077399485, -0.09688172, -0.04977373) * go_3(1.0, -1.0);
result += mat4(-0.08245095, 0.025046779, 0.15254857, -0.20083354, -0.21334353, 0.13298917, 0.019746812, 0.037977856, -0.18857501, 0.16555329, 0.08286123, -0.07782444, 0.01507326, 0.11679941, 0.029952176, 0.20679134) * go_3(1.0, 0.0);
result += mat4(-0.08486794, 0.010211643, 0.22983155, -0.16577461, -0.12877122, 0.0017102316, -0.079031415, -0.08309121, -0.062880024, 0.17439415, 0.2649001, -0.46177015, 0.08025148, -0.06425451, 0.028244738, -0.047507387) * go_3(1.0, 1.0);
result += vec4(-0.031883862, -0.0151373055, -0.026020631, 0.062551804);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(L)-Conv-3x3x3x16
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE MAIN
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.012102164, 0.01385959, 0.018815203, 0.0, -0.017435113, -0.04530735, -0.051318135, 0.0, 0.01267727, 0.01400136, 0.017735276, 0.0, 0.012681183, 0.035241637, 0.03990959, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.16069227, 0.098007366, 0.076831706, 0.0, 0.081593364, 0.017831434, 0.010174303, 0.0, 0.014732323, 0.02229113, 0.029828338, 0.0, 0.0048171813, 0.051809076, 0.055740006, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.0347963, -0.014327445, -0.024176419, 0.0, 0.003463003, -0.050532356, -0.06565927, 0.0, 0.082851514, 0.10950989, 0.12022889, 0.0, -0.038950548, -0.015094648, -0.0119305095, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.11845135, -0.08067485, -0.06981454, 0.0, 0.00058037776, 0.01160575, 0.014900963, 0.0, -0.0374349, -0.052966926, -0.044557698, 0.0, 0.017439643, 0.005496974, -0.0024181441, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.1084345, -0.18271221, -0.18795776, 0.0, 0.110637866, 0.08913364, 0.09161146, 0.0, -0.19889367, -0.17172937, -0.1600661, 0.0, -0.03789556, -0.028977778, -0.029903485, 0.0) * go_0(0.0, 0.0);
result += mat4(0.017774954, -0.048732057, -0.061161697, 0.0, 0.022389695, -0.013317256, -0.019972157, 0.0, 0.051979035, 0.08774837, 0.09633588, 0.0, -0.047462203, -0.033091765, -0.028352588, 0.0) * go_0(0.0, 1.0);
result += mat4(0.022178177, 0.05031684, 0.05802219, 0.0, -0.027539665, -0.020904189, -0.01800042, 0.0, 0.0019531948, 0.00019749763, -0.0013961957, 0.0, 0.024253767, -0.00058503833, 0.0006474611, 0.0) * go_0(1.0, -1.0);
result += mat4(0.06707921, 0.0817431, 0.07561426, 0.0, -0.04157211, -0.006174012, -0.003754037, 0.0, 0.0031168605, 0.02320992, 0.026471246, 0.0, 0.0029530525, -0.004939263, -0.0070194793, 0.0) * go_0(1.0, 0.0);
result += mat4(0.03383418, 0.042321067, 0.04266926, 0.0, -0.043634403, -0.0182769, -0.011314871, 0.0, -0.050008457, -0.003527757, 0.0035165092, 0.0, -0.00016610099, 0.019936454, 0.022199173, 0.0) * go_0(1.0, 1.0);
result += mat4(-0.055203374, -0.03910439, -0.03778927, 0.0, 0.027640847, 0.019469904, 0.0277834, 0.0, -0.026225597, 0.04481541, 0.047454204, 0.0, 0.031545334, 0.019874612, 0.011878432, 0.0) * go_1(-1.0, -1.0);
result += mat4(0.016088601, -0.045959134, -0.048793618, 0.0, -0.009834776, 0.0077799167, 0.00873151, 0.0, 0.031265914, 0.09698676, 0.10005417, 0.0, 0.039120086, 0.0005542848, -0.0049420255, 0.0) * go_1(-1.0, 0.0);
result += mat4(0.028432969, -0.014792921, -0.026881924, 0.0, -0.00586326, 0.013427183, 0.018215714, 0.0, -0.013559131, 0.017704675, 0.024854776, 0.0, -0.09087544, -0.104627624, -0.0921747, 0.0) * go_1(-1.0, 1.0);
result += mat4(-0.022899037, 0.026374351, 0.03145993, 0.0, -0.008008749, -0.0013132087, -0.003957525, 0.0, -0.02490554, 0.0020362549, 0.006453752, 0.0, 0.031494617, 0.049864545, 0.04702567, 0.0) * go_1(0.0, -1.0);
result += mat4(-0.12318068, -0.121377476, -0.11615006, 0.0, -0.1321696, -0.078085914, -0.07868927, 0.0, -0.072339885, 0.0012095685, 0.010923645, 0.0, 0.10844834, 0.10038668, 0.09919817, 0.0) * go_1(0.0, 0.0);
result += mat4(0.058991943, 0.018824834, 0.01659209, 0.0, -0.041878223, 0.013176531, 0.023566704, 0.0, -0.010507848, 0.02042605, 0.028884022, 0.0, -0.1193022, -0.10676289, -0.096668206, 0.0) * go_1(0.0, 1.0);
result += mat4(0.023510003, 0.06057355, 0.052194174, 0.0, 0.02304783, 0.031745855, 0.025863871, 0.0, -0.01060811, -0.043136407, -0.03569961, 0.0, -0.022243036, 0.014206766, 0.0032128936, 0.0) * go_1(1.0, -1.0);
result += mat4(0.025120225, 0.07386707, 0.07916389, 0.0, -0.020202598, 0.010854587, 0.009825397, 0.0, -0.043466344, -0.049230598, -0.038344223, 0.0, 0.006438127, 0.041072655, 0.036958262, 0.0) * go_1(1.0, 0.0);
result += mat4(0.027640026, 0.04239058, 0.055017423, 0.0, -0.002110394, 0.040088017, 0.045239322, 0.0, -0.020238828, -0.01711292, -0.014726791, 0.0, -0.029621653, -0.007380026, -0.002073584, 0.0) * go_1(1.0, 1.0);
result += mat4(0.008071638, 0.0034274645, -0.0016181463, 0.0, 0.044838928, 0.06936641, 0.072150804, 0.0, 0.0006324625, -0.02223834, -0.021122342, 0.0, 0.043963037, 0.047561962, 0.026419055, 0.0) * go_2(-1.0, -1.0);
result += mat4(-0.06605246, -0.011649812, -0.0022502556, 0.0, -0.09256232, -0.06281528, -0.055003755, 0.0, 0.032296494, -0.011113339, -0.015790787, 0.0, 0.05214882, 0.022887057, 0.013746634, 0.0) * go_2(-1.0, 0.0);
result += mat4(-0.03587372, 0.018986767, 0.03229596, 0.0, 0.008917248, 0.050303612, 0.06147115, 0.0, 0.01872278, -0.011048741, -0.017369485, 0.0, 0.030770298, 0.0063107815, 0.003187433, 0.0) * go_2(-1.0, 1.0);
result += mat4(0.087662674, 0.048391398, 0.042332277, 0.0, 0.0043635606, 0.02438183, 0.020213395, 0.0, -0.023863237, -0.0051179314, -0.0060627074, 0.0, 0.06292237, 0.05821987, 0.051667042, 0.0) * go_2(0.0, -1.0);
result += mat4(-0.048478693, 0.008368922, 0.016874269, 0.0, -0.19261299, -0.1848583, -0.18258469, 0.0, 0.112302095, 0.061518673, 0.058282077, 0.0, 0.024626324, 0.0058449907, 0.006936535, 0.0) * go_2(0.0, 0.0);
result += mat4(-0.04468695, 0.0099176075, 0.025094027, 0.0, 0.05447911, 0.08220857, 0.08161316, 0.0, -0.0007933787, -0.03090106, -0.040217776, 0.0, -0.028044306, -0.050590593, -0.05027328, 0.0) * go_2(0.0, 1.0);
result += mat4(0.029733973, -0.0129855955, -0.019776886, 0.0, 0.01860655, 0.017793713, 0.020113358, 0.0, -0.023667783, -0.0013290358, -0.004159268, 0.0, -0.01960303, -0.012806444, -0.016549494, 0.0) * go_2(1.0, -1.0);
result += mat4(-0.00952229, -0.007181503, -0.0061082463, 0.0, 0.04292393, 0.01510459, 0.0062862537, 0.0, -0.016540393, -0.023619318, -0.02633423, 0.0, -0.06652295, -0.06933143, -0.063913494, 0.0) * go_2(1.0, 0.0);
result += mat4(-0.015281855, -0.012470513, -0.008184894, 0.0, 0.045862548, 0.023707546, 0.014719574, 0.0, 0.032412887, -0.0038218168, -0.0065955487, 0.0, -0.027728679, -0.04009727, -0.018856067, 0.0) * go_2(1.0, 1.0);
result += mat4(0.042844415, 0.00673587, 0.0038338478, 0.0, -0.031152235, -0.06649269, -0.065986395, 0.0, 0.005666899, -0.015819343, -0.012795757, 0.0, -0.0007617308, 0.021531299, 0.026071105, 0.0) * go_3(-1.0, -1.0);
result += mat4(-0.118266046, -0.07211513, -0.058381762, 0.0, 0.02361942, 0.012819485, 0.010511434, 0.0, 0.077196896, 0.003424893, 0.001927401, 0.0, -0.03160996, -0.0034473129, -0.00444674, 0.0) * go_3(-1.0, 0.0);
result += mat4(-0.06548674, -0.018152835, 0.0034779215, 0.0, -0.006173449, 0.008357867, -0.0033986098, 0.0, 0.021622533, -0.03722321, -0.045832597, 0.0, -0.011835129, 0.0109178, 0.010480887, 0.0) * go_3(-1.0, 1.0);
result += mat4(0.041682176, -0.008985459, -0.018538723, 0.0, -0.054624356, -0.09495616, -0.090484254, 0.0, -0.0060466817, -0.017551763, -0.014151624, 0.0, -0.015683241, -0.012590141, -0.014278323, 0.0) * go_3(0.0, -1.0);
result += mat4(0.073194094, 0.055347454, 0.060976587, 0.0, 0.18175459, 0.13776664, 0.13139476, 0.0, 0.14047755, 0.061971992, 0.056503728, 0.0, 0.0068531767, -0.011873265, -0.016871026, 0.0) * go_3(0.0, 0.0);
result += mat4(-0.041848205, -0.009582, -0.0076929387, 0.0, 0.044274334, 0.04011985, 0.03085897, 0.0, 0.009403278, -0.03346772, -0.04463548, 0.0, 0.04548978, 0.014613167, 0.0055232802, 0.0) * go_3(0.0, 1.0);
result += mat4(0.019901669, -0.0011372451, -0.007423424, 0.0, -0.053240675, -0.07105105, -0.07122227, 0.0, -0.01892976, -0.019795185, -0.019204788, 0.0, 0.01228504, -0.005040437, -0.0010069044, 0.0) * go_3(1.0, -1.0);
result += mat4(0.032843515, 0.014947385, 0.007550199, 0.0, -0.0006476342, -0.020907652, -0.030297596, 0.0, -0.015617971, -0.029182931, -0.038677275, 0.0, 0.037908908, -0.018132487, -0.020226713, 0.0) * go_3(1.0, 0.0);
result += mat4(0.03232915, 0.02915194, 0.014929652, 0.0, 0.016676396, 0.004807404, -0.0008906752, 0.0, 0.0076904814, 0.00541351, -0.0048240838, 0.0, 0.03459369, -0.012969539, -0.024712864, 0.0) * go_3(1.0, 1.0);
result += vec4(-0.0096404655, 0.0022038757, 0.0035988842, 0.0);
return result + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Restore_CNN_M.glsl
+275
View File
@@ -0,0 +1,275 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-Restore-CNN-(M)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.09991986, 0.13782342, -0.031251684, -0.06356843, -0.3437488, 0.05450952, 0.34347802, 0.46335372, 0.08607224, 0.044988394, 0.137179, 0.17976908, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.024212424, -0.09278509, -0.00040907756, 0.34552294, -0.13254678, 0.113105185, 0.005667946, -0.00036919137, -0.06375679, 0.009184115, 0.115518734, -0.115506776, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.14101827, 0.023523493, 0.044094566, -0.019271746, -0.44348842, -0.08818877, -0.4026149, -0.21995795, -0.15880394, -0.013732858, -0.020751135, 0.012719151, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.013001821, -0.34503505, 0.39219138, 0.18792126, 0.24760444, -0.016173402, 0.10154511, 0.15453082, -0.058132876, 0.016784398, -0.05808539, -0.11039915, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(0.37024534, 0.041440863, -0.3374568, -0.44994286, 0.19555596, 0.20855539, -0.27974075, -0.5372628, 0.21228147, -0.0295346, -0.56700057, 0.030042822, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.12940632, 0.057526, 0.090682045, -0.06985033, -0.13704006, -0.047685407, 0.44615674, -0.48056605, -0.06166251, -0.01883519, 0.2032237, -0.113287605, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.010856669, -0.35820737, 0.16757219, 0.082619876, -0.03967303, 0.038705572, 0.32652855, -0.012030017, 0.015120559, -0.15314877, 0.23442009, 0.09767922, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.046272673, -0.17752305, 0.082018286, -0.2512824, 0.58619463, -0.060903464, -0.022793597, 0.077803515, -0.17025311, 0.05136993, 0.029383298, -0.15475409, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.11212024, 0.13378005, -0.2027488, 0.08056421, -0.11176219, -0.048429377, -0.08396386, 0.10507829, 0.13326839, 0.0430627, 0.051362377, 0.06482755, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.061233472, 0.39222646, 0.029704979, 0.02586828);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_tf
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.16410656, -0.40521824, 0.13121907, -0.02314597, 0.105412476, -0.060401272, -0.043063477, -0.13933973, 0.12558138, -0.020861467, 0.030370515, 0.13178016, -0.14220351, 0.20736893, 0.003321564, -0.29241714) * go_0(-1.0, -1.0);
result += mat4(0.18517321, 0.29162985, -0.26783395, 0.039760686, 0.025527012, -0.067319244, 0.055004176, 0.048916563, 0.12750523, -0.091435954, 0.13818842, 0.36704224, 0.0839921, 0.10186618, -0.17237376, 0.13282418) * go_0(-1.0, 0.0);
result += mat4(-0.1657887, 0.0131325135, -0.17222486, 0.091398895, -0.12756164, -0.08437298, -0.29052997, 0.3269337, 0.15870757, -0.013529402, -0.0581753, 0.11802371, 0.07099966, -0.024063632, 0.31834844, -0.11183859) * go_0(-1.0, 1.0);
result += mat4(0.46036887, -0.07654623, 0.22923063, 0.17463821, 0.10555414, -0.117430426, 0.12406777, -0.011399492, 0.028316498, 0.13684341, 0.009664087, 0.2022659, 0.04953974, -0.31342217, -0.6103131, -0.13605757) * go_0(0.0, -1.0);
result += mat4(0.03406955, -0.39819366, 0.61176, -0.46809456, -0.029321073, 0.46619493, 0.36700186, 0.02288561, 0.11464085, -0.10931452, -0.09154022, 0.07334147, -0.5609916, 0.31826234, -0.011012659, -0.46719545) * go_0(0.0, 0.0);
result += mat4(-0.056855045, 0.27037027, -0.09269696, -0.563572, -0.06816116, -0.22986612, 0.08693167, -0.16246101, 0.09954046, -0.05374176, 0.0071916827, -0.1788692, 0.3825241, -0.1609887, 0.055204768, 0.10213068) * go_0(0.0, 1.0);
result += mat4(0.0646626, 0.102358796, -0.45055822, 0.20557903, -0.23337309, 0.12633002, -0.19299199, -0.15085731, -0.13473304, 0.053790465, -0.10061193, -0.13393497, -0.04264752, -0.029740738, -0.07865285, 0.20883279) * go_0(1.0, -1.0);
result += mat4(0.010471527, -0.033218473, -0.46157447, 0.004866583, 0.23226471, -0.059343327, -0.1439596, 0.13619648, 0.013839963, 0.15930325, 0.043742355, 0.17467323, 0.33772305, 0.40261495, -0.08351293, 0.18129359) * go_0(1.0, 0.0);
result += mat4(-0.12493434, -0.1875134, -0.074943796, -0.0031701606, -0.037142616, 0.1667002, 0.16665547, -0.011248127, 0.0071619414, 0.0034872112, 0.120318964, -0.09625579, 0.14917047, -0.16310586, 0.07231737, 0.30447328) * go_0(1.0, 1.0);
result += mat4(0.093798615, 0.17074613, -0.08780678, -0.012520207, 0.118534856, 0.027508778, -0.2778478, -0.19509242, -0.34137097, 0.32000312, -0.22027159, 0.337515, 0.16220862, 0.108993016, 0.14070526, 0.12784284) * go_1(-1.0, -1.0);
result += mat4(-0.14325632, -0.1467453, -0.27502358, 0.09370837, 0.11821083, -0.012266484, -0.2100548, 0.4707502, -0.06766648, 0.58165014, -0.2512279, -0.33783755, 0.1318925, -0.04346277, 0.15454485, 0.044500057) * go_1(-1.0, 0.0);
result += mat4(-0.05683207, 0.0051946463, -0.108000524, 0.10133204, -0.50763863, 0.007308442, 0.8542404, 0.28387356, 0.022709515, 0.294523, -0.3822472, 0.66166407, 0.01404485, 0.031282708, -0.26756814, -0.123147786) * go_1(-1.0, 1.0);
result += mat4(-0.36455178, 0.3470555, -0.045303088, -0.03170764, -0.15802494, -0.0019141496, -0.25939587, -0.23875342, 0.130428, 0.03954273, -0.17985536, 0.105145946, 0.15804817, 0.12551713, 0.28371975, -0.085748516) * go_1(0.0, -1.0);
result += mat4(0.0060625463, 0.2443924, -0.017692259, -0.20214005, -0.09584515, -0.012805372, -0.13942227, 0.16143198, 0.12942013, 0.41785547, 0.046071563, 0.7030026, 0.10499644, -0.20566013, -0.031321276, 0.27830327) * go_1(0.0, 0.0);
result += mat4(-0.081274964, -0.14562319, 0.27200526, -0.20491314, 0.012910989, 0.024201397, 0.04816258, 0.21297328, -0.22015952, -0.44160756, -0.056035373, 0.33824417, -0.31645304, 0.15469243, 0.053187452, -0.20989445) * go_1(0.0, 1.0);
result += mat4(-0.046550367, 0.033185404, 0.33337244, 0.12853645, 0.23520172, -0.05909214, 0.0861368, 0.10706329, -0.07058717, -0.11759937, -0.18594047, 0.080006264, -0.055425353, -0.12506317, 0.15729053, -0.0915004) * go_1(1.0, -1.0);
result += mat4(0.042516407, 0.14844789, 0.16533111, 0.13502933, -0.0655417, -0.057256397, 0.076713726, -0.23448966, 0.12855926, 0.014219275, 0.051761385, 0.053433083, -0.2446715, -0.4008074, 0.19603717, -0.1796951) * go_1(1.0, 0.0);
result += mat4(0.14777803, 0.15524907, 0.043158617, -0.06996876, 0.19210646, -0.2144364, -0.47020787, -0.4207906, -0.18074386, -0.2163903, 0.0030754965, 0.36799973, -0.3837698, -0.0022661497, -0.37276733, -0.28934997) * go_1(1.0, 1.0);
result += vec4(-0.018297346, -0.080951825, -0.062163066, -0.08050014);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_1_tf
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.31543177, 0.23095237, -0.06692611, -0.5867763, 0.003622504, 0.17948842, -0.14627707, 0.1745016, -0.052964583, -0.15551159, 0.05644786, -0.012665164, 0.13107763, 0.11369179, -0.09452995, -0.11973403) * go_0(-1.0, -1.0);
result += mat4(-0.2694661, -0.115382135, 0.3073268, -0.067228466, -0.25511482, -0.13922207, 0.36758214, -0.18821828, -0.022617863, 0.20333402, -0.11125889, 0.3552245, -0.013346653, -0.099095374, -0.25100616, 0.35521755) * go_0(-1.0, 0.0);
result += mat4(0.011012409, -0.13675085, 0.25642, -0.34851208, -0.23184675, 0.18012202, 0.57654136, 0.103173524, -0.16461405, 0.038177088, 0.1234096, 0.013202029, -0.19033363, 0.07469178, -0.017948546, 0.15287702) * go_0(-1.0, 1.0);
result += mat4(-0.05340533, 0.23797482, 0.20351392, -0.05333351, -0.12181174, -0.23363493, -0.20696607, 0.109941036, -0.11519453, 0.13842066, -0.10687832, 0.29040006, 0.022218632, 0.031238724, 0.2685182, 0.15300068) * go_0(0.0, -1.0);
result += mat4(0.22985318, -0.3103802, -0.22916415, 0.25238806, -0.11690287, -0.1947488, 0.118020535, 0.07814263, -0.06335474, -0.007870727, 0.076106325, 0.094677486, -0.16776285, -0.006570437, -0.29589584, 0.41413507) * go_0(0.0, 0.0);
result += mat4(0.43607962, -0.36456433, -0.123776875, -0.16634953, -0.091190875, 0.13035081, 0.28627968, 0.27249968, 0.12356344, -0.008616177, 0.09599816, -0.006144557, -0.23490307, 0.3013123, 0.14153156, 0.21837278) * go_0(0.0, 1.0);
result += mat4(0.060364585, 0.37860224, 0.039182413, -0.22805426, -0.089910224, -0.06817697, -0.2684275, -0.12528503, 0.036934495, -0.07826616, 0.06559976, -0.08253646, 0.13489649, 0.06237663, 0.126376, 0.21194184) * go_0(1.0, -1.0);
result += mat4(-0.12534817, 0.21225189, -0.27818045, -0.3070443, -0.006957577, -0.025105853, 0.12100924, -0.06916452, 0.23081483, 0.1802756, -0.18995638, 0.16603014, -0.2904096, -0.25292823, -0.21834068, 0.13719653) * go_0(1.0, 0.0);
result += mat4(0.017209655, 0.10757137, 0.21414296, -0.30885983, 0.10467716, -0.2184891, 0.100061476, -0.1527528, 0.2100472, -0.25768545, -0.22329919, -0.29153427, -0.06983842, -0.103854865, -0.051384352, 0.14629121) * go_0(1.0, 1.0);
result += mat4(0.0059623295, -0.26060802, 0.32115817, 0.021025505, 0.09783085, -0.15865178, 0.1473021, -0.24977303, -0.033508282, 0.17480391, -0.091310136, 0.09870876, 0.10504043, -0.06105686, 0.013493489, -0.11278855) * go_1(-1.0, -1.0);
result += mat4(0.14875248, -0.14859414, 0.19377062, -0.17456068, 0.101288855, -0.1113682, -0.48944646, 0.1018565, -0.037392337, 0.08539691, 0.1751306, -0.15428723, -0.059375558, 0.027663672, 0.051804014, -0.049813222) * go_1(-1.0, 0.0);
result += mat4(0.118846565, -0.19869871, -0.037388258, 0.08456728, -0.11662527, -0.43818352, -0.093285345, 0.038507205, -0.051991668, 0.21008292, 0.10792365, 0.2020924, 0.057021596, 0.09460527, 0.0016551288, -0.0015957063) * go_1(-1.0, 1.0);
result += mat4(0.11062174, -0.2639232, -0.060295466, -0.3217331, -0.050545212, 0.30989558, 0.30906132, 0.030323273, 0.028986752, 0.037429404, 0.20855664, -0.19848943, 0.034687653, -0.09599135, -0.06250494, -0.13215867) * go_1(0.0, -1.0);
result += mat4(-0.010391146, 0.07657845, 0.44491258, 0.0435906, 0.0075931503, 0.42632654, 0.47022533, 0.34737435, -0.15452717, -0.14613411, -0.45231065, 0.12094409, 0.0067911847, 0.057501152, 0.09876979, 0.044946447) * go_1(0.0, 0.0);
result += mat4(-0.15607435, 0.2293058, -0.09520331, 0.012836732, -0.15282455, 0.26437718, -0.1685477, -0.13211122, -0.055801593, -0.016778728, -0.34478986, -0.23228309, 0.12300962, -0.13235827, -0.13987203, -0.16550972) * go_1(0.0, 1.0);
result += mat4(0.13161735, -0.09039346, -0.033475474, -0.23686698, 0.1514885, 0.20977421, 0.031431954, -0.0049226107, 0.090661936, 0.15288061, -0.03316583, 0.09646573, -0.32651708, 0.18825398, -0.15777239, 0.17572704) * go_1(1.0, -1.0);
result += mat4(0.112157226, -0.08712878, 0.23453182, 0.1043877, -0.14686783, 0.28682423, -0.086443506, 0.059457052, -0.31530112, -0.2700583, -0.06028952, -0.070416875, 0.18053482, 0.16653341, 0.25215197, 0.061915852) * go_1(1.0, 0.0);
result += mat4(-0.20122242, 0.076313145, -0.0988483, 0.094337784, -0.35436687, 0.3762327, -0.07809558, 0.3055848, 0.10425242, -0.17087407, 0.030301496, -0.13911743, 0.01630275, 0.24247427, -0.006474477, 0.03842641) * go_1(1.0, 1.0);
result += vec4(-0.008952847, -0.0058945753, -0.08097229, 0.020968592);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_2_tf
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.2237721, -0.0064096362, -0.31808427, 0.73477733, 0.015353088, 0.23983319, 0.14967978, -0.34920225, -0.07456269, 0.093151815, -0.14331086, -0.24586205, -0.14183366, 0.06401045, -0.22044073, 0.29932275) * go_0(-1.0, -1.0);
result += mat4(-0.07968509, -0.3349146, 0.16529128, 0.08443499, 0.4095855, -0.17120704, 0.17425705, 0.15298946, 0.2981273, 0.2212369, 0.10392389, -0.28775454, -0.065247655, -0.15255849, 0.13094437, 0.18685219) * go_0(-1.0, 0.0);
result += mat4(0.015706737, -0.17755036, 0.2622526, 0.112057306, -0.15876788, -0.38466996, -0.33700845, -0.031711742, -0.023320962, -0.3145249, -0.21223734, -0.1314596, -0.1888095, -0.046370104, 0.09000896, -0.0046378844) * go_0(-1.0, 1.0);
result += mat4(-0.31127506, 0.31304324, -0.03965752, 0.03649018, -0.029851055, 0.05801377, 0.00040150844, -0.04422069, 0.18019931, 0.14415511, -0.09845236, 0.21895434, -0.013932474, -0.046454947, -0.3403935, -0.006705289) * go_0(0.0, -1.0);
result += mat4(-0.34878647, -0.5129283, 0.060250953, -0.16354133, 0.20644619, 0.08732273, -0.24118888, 0.24455065, 0.24449423, 0.44103387, 0.22455928, 0.25738943, -0.26914698, -0.21309987, 0.08386486, 0.021484816) * go_0(0.0, 0.0);
result += mat4(-0.057454903, -0.4121922, 0.022661546, 0.37178272, 0.03331408, 0.05044008, 0.04324371, 0.20727943, 0.2432641, 0.076906696, -0.20858039, 0.012439015, -0.19335061, 0.09217451, 0.1968369, -0.19435833) * go_0(0.0, 1.0);
result += mat4(-0.16960496, 0.24616167, 0.37977478, 0.14324574, -0.011531225, -0.11312143, -0.18141079, -0.23843932, 0.0086012175, -0.3564491, -0.12639481, 0.009799298, -0.29120612, 0.23756824, 0.18035695, -0.087133996) * go_0(1.0, -1.0);
result += mat4(-0.10081239, 0.29191494, 0.10434693, 0.08970636, 0.008997759, 0.104756236, 0.039641086, 0.02323888, -0.11627765, 0.023693223, -0.30801758, -0.120208986, 0.05086147, 0.18498175, 0.15595439, -0.09877306) * go_0(1.0, 0.0);
result += mat4(0.101321675, -0.2929976, 0.38810417, 0.5605376, -0.04073937, 0.030110704, -0.18147062, -0.09833952, 0.01927733, 0.15335669, -0.15384074, -0.110595055, -0.054297395, -0.077522054, 0.07918369, -0.068480626) * go_0(1.0, 1.0);
result += mat4(0.23263514, -0.11719232, 0.2903209, -0.007503795, -0.020222448, -0.17790157, -0.15600762, -0.08741775, 0.12529704, 0.25548857, -0.04585447, -0.10255033, 0.18350503, -0.29593533, 0.0868933, 0.027004737) * go_1(-1.0, -1.0);
result += mat4(-0.14958654, -0.006238835, -0.2928948, 0.1988557, -0.17057803, 0.12524141, 0.13978264, -0.019280292, 0.05967142, -0.07790818, -0.5893818, -0.022845713, -0.08596779, 0.07875358, -0.03316667, -0.4369282) * go_1(-1.0, 0.0);
result += mat4(0.19195688, -0.060883682, -0.25897828, 0.07063324, 0.090833396, 0.003422883, 0.109534174, 0.031180874, -0.05017118, 0.022862168, -0.270113, -0.057831235, 0.53920543, -0.10252776, -0.091807485, 0.004294343) * go_1(-1.0, 1.0);
result += mat4(-0.18494242, -0.119284816, 0.3821897, 0.07777979, 0.15568028, -0.2854859, -0.22441281, -0.049155876, -0.15292497, 0.21895619, -0.095677756, 0.15210424, 0.001643022, -0.026176987, 0.048463076, -0.4824009) * go_1(0.0, -1.0);
result += mat4(0.007215129, 0.17074333, 0.053930074, -0.027014816, -0.17180431, -0.15163863, -0.0012122132, -0.18934256, -0.08294297, -0.24580221, -0.46552867, -0.27923223, 0.4092668, 0.06288688, -0.1602188, -0.0030876845) * go_1(0.0, 0.0);
result += mat4(0.111870885, 0.03317145, 0.14155298, 0.20328505, -0.05104131, 0.13979794, 0.018966835, -0.07238511, 0.05493792, -0.14975783, -0.10293237, -0.21985306, 0.49054706, 0.18288186, -0.26925826, 0.35845932) * go_1(0.0, 1.0);
result += mat4(0.3747799, -0.096748486, -0.17139742, 0.25289854, -0.17421168, -0.018461818, 0.09747162, 0.01660535, -0.20580359, 0.56189656, 0.17151354, -0.26347768, 0.28350568, -0.21486014, -0.44330928, -0.008981037) * go_1(1.0, -1.0);
result += mat4(0.10169985, -0.18244018, 0.04760736, 0.41017643, -0.09468786, -0.024218475, 0.103733875, -0.22540338, 0.10630112, 0.3677178, -0.104170956, 0.057317447, 0.21764882, 0.0789158, -0.22041337, 0.15065216) * go_1(1.0, 0.0);
result += mat4(0.11633995, -0.008195114, -0.14501533, 0.07168025, 0.058413275, 0.055995367, 0.09362145, -0.13827963, 0.13760869, 0.040319785, 0.038895044, 0.2675253, -0.087339684, 0.1412073, -0.17166458, -0.2312994) * go_1(1.0, 1.0);
result += vec4(-0.059377354, -0.02055341, 0.07234869, -0.015452986);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_3_tf
//!SAVE conv2d_4_tf
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.29012984, -0.13150147, 0.31015614, 0.05992291, -0.050289866, 0.14845313, -0.09608898, 0.27913308, 0.060307387, -0.04160452, 0.035932682, -0.08137563, -0.07999419, 0.11818284, -0.27512288, 0.21948813) * go_0(-1.0, -1.0);
result += mat4(0.12916058, -0.21759962, -0.33868533, 0.021636661, 0.053470243, 0.1412425, 0.043395396, -0.26751056, -0.01689101, -0.2623835, 0.010809152, 0.062962815, -0.20692012, -0.1677863, -0.23313859, -0.17402615) * go_0(-1.0, 0.0);
result += mat4(-0.08204112, -0.23672083, -0.0064437394, -0.13200696, -0.056692924, -0.02708657, 0.12536962, 0.004428919, 0.14137582, 0.15404348, -0.105753876, 0.047957454, 0.15734316, 0.16562423, -0.010160829, -0.06602983) * go_0(-1.0, 1.0);
result += mat4(0.025653997, -0.10877775, -0.31258908, 0.18841636, -0.36005193, 0.1816357, -0.34537643, -0.0741087, 0.4663994, 0.0065186517, 0.08109033, 0.2976773, -0.35774228, -0.041366056, -0.37852773, 0.050565656) * go_0(0.0, -1.0);
result += mat4(0.04392313, 0.11316681, -0.14421389, 0.17985669, -0.1651274, -0.5656209, -0.124100484, 0.42774054, -0.1153939, 0.16829851, 0.2025612, 0.054007456, -0.06868256, -0.56935954, -0.12227961, 0.17688861) * go_0(0.0, 0.0);
result += mat4(0.34041, 0.499, 0.15234196, 0.21353458, -0.2732667, -0.049950935, 0.03550811, -0.21051687, 0.2609023, 0.016438454, -0.29874632, 0.37994128, 0.049288407, -0.31126305, 0.029235512, -0.012256015) * go_0(0.0, 1.0);
result += mat4(-0.0046853204, 0.15391374, -0.040689662, 0.20186873, -0.08137621, 0.35905558, 0.23733845, 0.21794793, -0.066420384, 0.029600656, -0.31421044, -0.050773863, -0.06260773, 0.04634221, -0.10948491, -0.045498934) * go_0(1.0, -1.0);
result += mat4(-0.082953, -0.025837064, -0.09928303, -0.14300232, 0.275064, 0.07793617, 0.22240888, 0.06637834, -0.4382666, -0.2932182, -0.27243167, -0.14221182, 0.5695728, 0.20719238, 0.5575927, 0.40816882) * go_0(1.0, 0.0);
result += mat4(-0.18510929, -0.15052167, 0.25277212, 0.06804461, 0.016387, 0.20310035, 0.2903229, -0.0615877, -0.28987274, -0.11942605, 0.013498961, 0.3184152, 0.29543474, -0.042830903, -0.018111207, -0.13263674) * go_0(1.0, 1.0);
result += mat4(0.25749087, 0.0053866603, -0.09391162, -0.06129529, -0.094091184, -0.07419633, 0.0013858611, 0.012000353, -0.062903, -0.0204224, -0.12113313, 0.017942557, -0.073379934, 0.052201986, 0.35864577, 0.023564404) * go_1(-1.0, -1.0);
result += mat4(0.100115694, 0.19451359, 0.23252094, 0.19506809, -0.12470779, 0.0027281935, -0.17488572, -0.018721964, -0.15159339, 0.18457152, 0.057712987, -0.08191495, 0.19735703, 0.07326743, -0.28563106, 0.01642815) * go_1(-1.0, 0.0);
result += mat4(0.068062514, 0.28356665, 0.07377898, 0.42776972, 0.28725025, -0.13045293, -0.17525704, -0.05885591, -0.16676305, -0.2555945, -0.10078422, -0.053032875, 0.084470876, 0.06460686, 0.13824362, -0.05231353) * go_1(-1.0, 1.0);
result += mat4(0.22637829, -0.028969254, 0.1968254, -0.13331996, 0.038017053, -0.008854481, -0.2031639, 0.09237089, -0.3821112, 0.1108527, -0.11029933, -0.24542028, 0.22416145, -0.031492114, -0.19144306, -0.0996271) * go_1(0.0, -1.0);
result += mat4(0.10776744, 0.16363445, 0.14656505, -0.3737814, -0.06642015, 0.5616549, -0.008412252, -0.37266847, 0.12506576, -0.15329036, 0.037538245, -0.10810259, 0.01706349, 0.1813702, 0.035651788, -0.012786579) * go_1(0.0, 0.0);
result += mat4(-0.4023338, -0.2098614, -0.18285121, -0.02727653, 0.26107362, 0.041306913, -0.036515504, -0.045217298, -0.39958602, -0.21229339, -0.021053292, -0.13427502, 0.36178818, 0.20934913, 0.1500852, 0.2634554) * go_1(0.0, 1.0);
result += mat4(0.07794611, -0.25937587, -0.06822529, -0.056336135, 0.094220124, 0.21588847, -0.0455218, -0.10968329, -0.08068449, -0.31366697, 0.07799637, 0.24252681, 0.23963861, 0.13715535, 0.010329345, 0.09094301) * go_1(1.0, -1.0);
result += mat4(-0.20975718, -0.12550138, 0.14453574, -0.0020878632, -0.07153068, 0.3249998, -0.056577377, 0.18166828, 0.37204072, 0.17018336, 0.3752895, 0.32178587, 0.2571982, -0.27258632, -0.25971004, -0.40536007) * go_1(1.0, 0.0);
result += mat4(-0.3243907, -0.06300621, -0.09398436, -0.19549188, 0.14906861, 0.061537784, -0.055284478, 0.11281728, 0.12964857, 0.09979093, -0.1810159, -0.4104283, 0.05807971, -0.056371246, 0.08072554, 0.18479007) * go_1(1.0, 1.0);
result += vec4(-0.048888464, -0.0561434, 0.030690912, -0.030496685);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_4_tf
//!SAVE conv2d_5_tf
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.15332128, 0.027258258, 0.14900503, -0.15982795, 0.17021236, -0.51046044, -0.15287271, -0.058167327, 0.51826185, -0.34817994, 0.004513167, 0.05395769, 0.1990321, -0.049979225, 0.11391989, -0.16062729) * go_0(-1.0, -1.0);
result += mat4(0.033682905, 0.019728886, 0.19931756, 0.17381927, 0.2585768, -0.2124572, -0.014632459, 0.39779893, -0.1146207, -0.2396625, 0.08960277, 0.38345298, 0.25497693, 0.11692859, -0.14207517, 0.12667973) * go_0(-1.0, 0.0);
result += mat4(-0.14911255, 0.08910706, 0.16136818, 0.03914566, 0.24204038, -0.03607149, -0.4571109, 0.10802461, -0.0021356856, 0.00885878, 0.22297303, 0.2367231, 0.045177583, 0.11120606, -0.009971904, -0.059262395) * go_0(-1.0, 1.0);
result += mat4(0.24565999, -0.2261384, 0.47373205, 0.024613412, -0.10923052, 0.039027315, -0.42707404, -0.3783373, 0.3544573, -0.5468578, -0.27599156, -0.09455918, 0.18760219, -0.19082001, 0.030565469, 0.20589156) * go_0(0.0, -1.0);
result += mat4(0.1973198, -0.03433863, 0.059960485, 0.045642868, 0.1819595, -0.14460869, 0.1286175, 0.2067575, -0.042632047, -0.11842967, -0.11224446, -0.18764776, -0.19563004, 0.027425969, 0.24056377, 0.5949649) * go_0(0.0, 0.0);
result += mat4(0.055027682, 0.16331595, -0.2608588, 0.12545955, 0.4588985, 0.03642909, 0.22187738, 0.45190734, -0.001210133, -0.057651415, -0.061199043, 0.11935476, -0.049561135, 0.27509886, 0.13778673, -0.124914035) * go_0(0.0, 1.0);
result += mat4(-0.02257459, 0.27705106, 0.044165276, -0.26521233, 0.05982374, -0.2824302, 0.3171142, 0.08430561, -0.10155528, 0.16182268, -0.09183147, -0.19447176, 0.3295707, -0.50616395, -0.036964044, 0.23166709) * go_0(1.0, -1.0);
result += mat4(-0.0232342, 0.07299799, -0.18038079, -0.13672702, -0.108305976, 0.15024792, -0.19531927, 0.0870979, -0.26488534, 0.19481428, 0.10737945, -0.14573483, -0.33094683, 0.24155116, -0.09850332, 0.2797003) * go_0(1.0, 0.0);
result += mat4(-0.24089853, 0.19506595, 0.4799156, -0.058313113, 0.36212957, -0.44844806, 0.23864488, 0.15477742, -0.07795971, -0.0033861927, -0.11216164, 0.033454563, -0.25893036, 0.23793478, -0.15769425, -0.00033481256) * go_0(1.0, 1.0);
result += mat4(0.05772507, -0.1640253, -0.13499664, -0.20460358, -0.024399966, 0.14966168, -0.090857334, -0.039677754, 0.00036956606, -0.24236615, -0.053542696, -0.0049544116, 0.026651502, 0.39019194, -0.2742246, -0.061242323) * go_1(-1.0, -1.0);
result += mat4(-0.016323274, -0.036179908, 0.029965919, 0.11151491, -0.00016685206, -0.29573023, 0.17996423, -0.20145437, 0.1324275, -0.18442132, -0.24618152, 0.061780427, -0.02770517, 0.28452995, 0.39804098, -0.1174389) * go_1(-1.0, 0.0);
result += mat4(-0.025068847, -0.053328387, -0.27053785, 0.26866457, -0.09866204, 0.057677213, 0.01850112, -0.18014707, -0.13319959, -0.14411181, -0.26355243, -0.022209354, -0.05062645, -0.036771543, 0.13294417, -0.18458557) * go_1(-1.0, 1.0);
result += mat4(-0.046194963, 0.038230438, -0.08993043, -0.07236354, 0.11031123, -0.16504908, -0.09517036, -0.16459833, -0.5279925, 0.12686682, -0.05726125, 0.055361677, 0.31593755, 0.027328093, 0.001839602, 0.30581662) * go_1(0.0, -1.0);
result += mat4(0.08608678, 0.03168437, 0.007713377, -0.26140293, -0.1268983, 0.13395861, -0.069848835, -0.24080403, 0.018839337, -0.049821075, -0.21461345, -0.14168301, -0.0872339, 0.47096667, 0.022512507, 0.14860632) * go_1(0.0, 0.0);
result += mat4(0.06293673, 0.22462969, 0.045494985, 0.021673543, 0.18227446, -0.2956555, 0.08010543, -0.01919729, -0.012190269, 0.241983, -0.046537094, -0.40094566, -0.3853647, 0.1081711, -0.16926058, 0.16138376) * go_1(0.0, 1.0);
result += mat4(-0.14854589, -0.17625804, -0.10849075, 0.221543, 0.099971965, 0.13901573, 0.29464146, 0.020068526, 0.054358527, -0.10351705, -0.0062914286, 0.24127026, -0.16914125, 0.12729423, -0.18377453, -0.6452375) * go_1(1.0, -1.0);
result += mat4(0.12603393, -0.10986093, 0.2314103, 0.16915044, -0.13619255, -0.09349073, 0.20594226, -0.34507084, 0.19077192, 0.052500796, 0.07185645, 0.029082738, -0.015576321, 0.08254907, -0.5501743, -0.38495848) * go_1(1.0, 0.0);
result += mat4(0.09300796, -0.079218306, 0.46825135, -0.08735625, 0.06321122, 0.16234867, 0.042932414, -0.013057422, 0.09697148, 0.23457524, 0.19417483, -0.16804664, 0.18379296, 0.17770062, -0.050235, -0.059676602) * go_1(1.0, 1.0);
result += vec4(0.011169491, 0.032399546, 0.138099, 0.023857072);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_5_tf
//!SAVE conv2d_6_tf
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.22753362, -0.08612073, 0.33140692, 0.08699529, -0.18788953, -0.056579117, -0.12905197, -0.06694621, 0.054559365, 0.15031597, -0.13430363, 0.021646025, 0.14884405, -0.0694291, 0.26149413, 0.11270503) * go_0(-1.0, -1.0);
result += mat4(0.17876762, -0.09637848, 0.11285323, 0.2004893, 0.1317187, -0.036162686, 0.17958368, -0.069625, 0.28760737, -0.12505141, 0.12760694, 0.047717955, -0.16811855, -0.16340709, 0.13278298, -0.08403954) * go_0(-1.0, 0.0);
result += mat4(-0.21917523, 0.079711854, -0.28642535, 0.2822416, 0.03001489, -0.014772918, -0.3487396, 0.10597145, -0.013841082, 0.17034237, 0.10810282, -0.08089695, -0.22184245, -0.59067357, 0.44113398, 0.13045649) * go_0(-1.0, 1.0);
result += mat4(-0.29906932, 0.013923749, 0.2031124, -0.11846688, -0.13953634, 0.08003455, -0.10164494, -0.21218559, 0.10563715, 0.31033117, -0.075903505, 0.047310907, -0.37824214, -0.14506383, 0.11866701, -0.21384487) * go_0(0.0, -1.0);
result += mat4(-0.1353849, 0.19258606, 0.063908584, -0.2043788, 0.27244982, 0.1665306, -0.29357895, -0.22441709, 0.18514316, -0.17840464, 0.20986097, 0.14351055, -0.057732623, 0.42166704, -0.23182064, -0.4957248) * go_0(0.0, 0.0);
result += mat4(-0.34830126, 0.109066755, -0.28285867, -0.048280068, -0.12290918, 0.04291651, -0.047484186, -0.03702595, 0.23047262, 0.09398974, 0.022467108, 0.08271034, 0.3066665, -0.54077, 0.057771873, 0.23194093) * go_0(0.0, 1.0);
result += mat4(-0.17731948, -0.3175927, 0.1452728, 0.09396786, -0.16433562, -0.01833653, -0.22345604, -0.04161193, -0.14827462, 0.18544114, -0.15544125, -0.06179007, 0.16989979, -0.20985202, 0.16391534, -0.09447268) * go_0(1.0, -1.0);
result += mat4(-0.053878862, -0.21034616, 0.023831524, 0.19772215, 0.31647214, 0.0126534775, -0.19130844, -0.049282108, -0.21446131, 0.067189045, 0.09117449, -0.25548774, 0.12109098, 0.22009392, -0.3924665, -0.13340388) * go_0(1.0, 0.0);
result += mat4(-0.16096684, -0.18495405, 0.10410178, 0.0015673033, -0.00183498, -0.044303037, -0.062745355, -0.090802394, 0.043269135, 0.06924481, -0.21367405, -0.14619029, 0.11555763, -0.20292862, 0.5799557, 0.14739846) * go_0(1.0, 1.0);
result += mat4(-0.21030277, -0.09578802, 0.013482288, -0.21484336, 0.12995781, 0.40431052, -0.3347856, -0.18183486, 0.15550353, -0.04402301, 0.4603779, 0.14874357, -0.07694621, -0.053523075, -0.19607326, -0.10850742) * go_1(-1.0, -1.0);
result += mat4(-0.2347211, 0.2697403, -0.0634794, -0.17925987, 0.17231455, 0.24999185, -0.5208536, -0.10491828, -0.233575, 0.52950364, 0.0038063182, -0.1380038, 0.022935199, 0.19369157, 0.14586553, 0.1938704) * go_1(-1.0, 0.0);
result += mat4(-0.10245223, 0.34150192, 0.25862157, -0.20165509, 0.5597771, 0.114510864, -0.122526556, -0.04010975, 0.1704679, -0.23335956, -0.16771887, -0.03783455, -0.056995615, 0.24153493, -0.08082429, -0.24210933) * go_1(-1.0, 1.0);
result += mat4(-0.103466526, 0.15278348, -0.30526164, -0.080755696, 0.103505425, 0.15862796, 0.14696524, -0.008358076, -0.09180311, -0.12505089, 0.28052542, -0.13551563, 0.07528779, -0.09636086, -0.10369617, 0.23656134) * go_1(0.0, -1.0);
result += mat4(-0.25752836, 0.099439755, -0.30716348, 0.035077725, 0.023509016, 0.23106368, 0.05277125, 0.34910464, 0.088015385, 0.26995596, 0.1390645, -0.40671825, 0.18096298, -0.100688554, 0.5492049, 0.2482101) * go_1(0.0, 0.0);
result += mat4(0.41411775, -0.107200556, -0.13813478, 0.13768874, 0.27137747, 0.06313619, -0.08522967, 0.03218302, -0.03166121, -0.3415683, -0.52242, -0.1741813, -0.36956537, 0.179129, -0.09742935, -0.11696616) * go_1(0.0, 1.0);
result += mat4(-0.07975504, 0.17964838, 0.37122533, 0.16064765, 0.14309953, 0.29473078, 0.0926391, -0.22333665, 0.34612748, -0.3387473, 0.0077308523, -0.07239449, 0.18522519, -0.21297298, 0.11493978, 0.16117814) * go_1(1.0, -1.0);
result += mat4(-0.17402779, 0.10023144, 0.11712206, 0.031971734, 0.18713303, 0.08736295, 0.013007052, -0.06943139, -0.20102951, -0.010721135, -0.2562522, 0.34877458, -0.13732676, -0.40258047, 0.25824392, 0.15720639) * go_1(1.0, 0.0);
result += mat4(0.044494305, 0.3296108, 0.0017603852, 0.09362289, 0.38839245, 0.40015858, -0.13395199, -0.044521853, -0.56266373, 0.251378, 0.5005789, -0.13106057, -0.18491416, -0.046887, 0.067797676, -0.14694957) * go_1(1.0, 1.0);
result += vec4(0.013687534, -0.08185164, -0.04755438, 0.290178);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(M)-Conv-3x1x1x56
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_tf
//!BIND conv2d_1_tf
//!BIND conv2d_2_tf
//!BIND conv2d_3_tf
//!BIND conv2d_4_tf
//!BIND conv2d_5_tf
//!BIND conv2d_6_tf
//!SAVE MAIN
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_2 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_4 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_5 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_6 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_8 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_9 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_10 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_12 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_13 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(-0.08837163, -0.065234736, -0.034704313, 0.0, 0.021405501, 0.013663729, 0.019249594, 0.0, 0.05328863, 0.03580334, 0.046457592, 0.0, -0.12216048, 0.022547891, 0.016400825, 0.0) * g_0;
result += mat4(0.061996464, 0.05631466, 0.06808407, 0.0, -0.005013109, -0.0044589997, -0.032367796, 0.0, 0.016481603, 0.13721058, 0.14924648, 0.0, 0.020035887, -0.07250003, -0.08034037, 0.0) * g_1;
result += mat4(0.24078514, 0.081361525, 0.053420708, 0.0, -0.009353794, -0.051077116, -0.058007747, 0.0, -0.14071098, 0.01035966, 0.005308949, 0.0, -0.1489842, -0.06711817, -0.05552926, 0.0) * g_2;
result += mat4(-0.13002375, 0.012733757, 0.017821986, 0.0, 0.17767483, 0.20204604, 0.1751779, 0.0, 0.12804912, 0.07381453, 0.05655911, 0.0, 0.17044514, 0.07301451, 0.06523978, 0.0) * g_3;
result += mat4(-0.1170986, -0.05130371, -0.027939914, 0.0, -0.16645707, -0.121526904, -0.09471366, 0.0, -0.04143118, 0.026693767, 0.034615446, 0.0, -0.084318705, -0.064990036, -0.054324172, 0.0) * g_4;
result += mat4(0.12094524, 0.09518409, 0.07387219, 0.0, 0.062216382, 0.053228356, 0.031372335, 0.0, 0.072797105, 0.026258165, 0.009804673, 0.0, 0.120719045, 0.073281154, 0.056623302, 0.0) * g_5;
result += mat4(-0.11141495, -0.11566289, -0.10398725, 0.0, -0.0651895, -0.06820691, -0.054204144, 0.0, -0.032746475, -0.008849683, -0.007610222, 0.0, -0.024655705, -0.048778858, -0.041144755, 0.0) * g_6;
result += mat4(0.058090195, 0.07538767, 0.059722915, 0.0, 0.044788487, 0.04212742, 0.027502589, 0.0, 0.04892866, 0.015416752, 0.008312418, 0.0, -0.011864114, -0.0074752793, -0.0060824654, 0.0) * g_7;
result += mat4(0.043446552, 0.061971307, 0.05758086, 0.0, -0.06379154, -0.053758245, -0.047204215, 0.0, 0.016307736, 0.03423424, 0.030179083, 0.0, 0.041445345, 0.03843772, 0.033059113, 0.0) * g_8;
result += mat4(-0.003803544, 0.0008906116, -0.00059585314, 0.0, 0.102071285, 0.11485224, 0.10007254, 0.0, -0.074306004, -0.08803551, -0.07972321, 0.0, -0.030704215, -0.021514274, -0.009049376, 0.0) * g_9;
result += mat4(0.0066058086, 0.0011408008, 0.0016199006, 0.0, -0.03916473, -0.042929266, -0.04018418, 0.0, -0.03153446, -0.039413508, -0.034767237, 0.0, 0.113516055, 0.12577052, 0.113335624, 0.0) * g_10;
result += mat4(0.02655948, 0.041905303, 0.03861737, 0.0, 0.048471425, 0.049788587, 0.050447535, 0.0, 0.12092813, 0.13564217, 0.12613249, 0.0, -0.0023508538, 0.0012828974, 0.0028730957, 0.0) * g_11;
result += mat4(0.0084758485, 0.008800083, 0.008206044, 0.0, -0.056123603, -0.06610845, -0.060320783, 0.0, -0.081793964, -0.101638645, -0.096699014, 0.0, -0.04402356, -0.04177539, -0.03829645, 0.0) * g_12;
result += mat4(0.10676299, 0.118409514, 0.10618478, 0.0, -0.05880252, -0.06488367, -0.06432695, 0.0, 0.019221924, 0.017602798, 0.017413978, 0.0, -0.07512528, -0.080483615, -0.066218294, 0.0) * g_13;
result += vec4(-0.010478934, -0.008364784, -0.010246552, 0.0);
return result + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Restore_CNN_S.glsl
+137
View File
@@ -0,0 +1,137 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-Restore-CNN-(S)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.19288683, -0.21397883, 0.111997396, -0.04791413, -0.26682988, -0.06144587, -0.03601853, -0.16693151, 0.038494494, -0.16651472, 0.147657, -0.083003886, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.14286195, 0.08746566, -0.40107322, 0.12390977, -0.33392772, -0.18703035, -0.21326795, 0.04780781, -0.15155545, -0.0010025925, -0.1554875, -0.10676251, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.28095165, 0.022872915, -0.21342312, -0.29982176, 0.025937587, -0.055012174, -0.33779636, 0.0015666655, 0.076416336, 0.06656033, -0.1557806, 0.1078894, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.31584853, 0.07527119, 0.30713862, -0.34014285, -0.50103146, -0.07217874, 0.512807, -0.09597398, -0.32097813, -0.051580857, -0.022466356, 0.01148551, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.026032459, -0.04193211, 0.37703893, -0.031916667, -0.27421117, 1.0906446, -0.049654085, -0.19814016, 0.07819544, 0.06003738, 0.1405805, -0.0064135445, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.041450135, 0.11319654, -0.23237701, 0.08443178, 0.53344345, 0.30857387, -0.057264958, -0.1575803, 0.2325609, -0.027797326, -0.04544767, -0.18720597, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.2531829, -0.074966915, -0.27800754, -0.3146097, 0.20126024, -0.5380133, -0.15082566, -0.19021043, 0.29951036, 0.17123336, -0.01681872, -0.12574998, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.25203633, 0.19882993, 0.14906439, 0.13593598, 0.40712556, 0.084902965, 0.42969635, 0.2961132, -0.057267334, -0.030388135, 8.8084314e-05, 0.0210724, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.13459359, -0.12199573, 0.12591946, 0.24736497, 0.2033463, -0.09388599, -0.094370656, 0.1071285, -0.18479438, -0.066625565, 0.08279283, 0.20130983, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.011108127, -0.07481861, 0.07640154, 0.4964964);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_tf
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.056432575, 0.0028165397, -0.026325442, -0.14802271, 0.16885762, -0.062179096, -0.2332292, 0.17513658, -0.08011296, 0.02947316, 0.014771492, -0.17946689, 0.026012989, -0.09823925, 0.036625937, -0.06924322) * go_0(-1.0, -1.0);
result += mat4(-0.13571467, 0.09831142, 0.12911566, 0.06305893, -0.07188695, -0.20161287, 0.3858435, -0.21069056, -0.12294444, -0.1404628, -0.022659872, 0.23008968, 0.10969853, 0.17640765, 0.39796907, 0.20413099) * go_0(-1.0, 0.0);
result += mat4(-0.0061665224, 0.055102807, -0.0059629944, -0.021429887, 0.061626043, 0.16898955, -0.21215646, 0.16510476, 0.2238265, 0.19429931, 0.09874656, 0.06828208, -0.122404456, -0.00026717107, -0.28203064, -0.29979932) * go_0(-1.0, 1.0);
result += mat4(-0.22735378, 0.14538136, 0.11549746, 0.194148, -0.09841722, -0.0661309, 0.348576, -0.017375294, -0.044078812, 0.1298332, 0.04793373, -0.30687734, 0.08353025, 0.083519086, 0.10766399, 0.31796935) * go_0(0.0, -1.0);
result += mat4(0.048365135, -0.17566709, -0.33212858, -0.052667376, -0.26443407, -0.010216014, 0.1573303, 0.05725314, 0.08140953, -0.09664591, 0.076109104, -0.026773714, 0.07732627, 0.10188082, -0.28266954, -0.16230233) * go_0(0.0, 0.0);
result += mat4(0.29931107, 0.117944, -0.10414009, 0.12795551, 0.12576093, 0.17082554, -0.15803693, 0.13430743, -0.025801308, -0.10797019, 0.0721032, 0.2825884, -0.11025257, 0.12798019, 0.081827976, -0.050441865) * go_0(0.0, 1.0);
result += mat4(-0.11827391, 0.08306765, -0.3430314, 0.07898041, -0.023839617, -0.019507334, 0.23176382, -0.40992323, 0.09411734, 0.38415068, -0.25845516, -0.29984522, 0.1470966, -0.0684779, -0.07071314, -0.026773235) * go_0(1.0, -1.0);
result += mat4(0.19091596, 0.082110435, -0.5266589, -0.1744098, -0.015838385, -0.046316292, 0.023171103, -0.03731331, 0.2642396, 0.31824252, -0.041754793, -0.09525519, -0.14696182, 0.052168854, 0.039857205, -0.027555354) * go_0(1.0, 0.0);
result += mat4(0.15207373, 0.09845733, 0.0142631065, 0.096375965, 0.06089903, 0.17902578, -0.42391995, 0.22475442, 0.016356342, -0.06277531, -0.12173141, -0.18635495, -0.0013459618, 0.15725887, 0.019310836, 0.20293565) * go_0(1.0, 1.0);
result += mat4(-0.18395247, 0.30672902, 0.09034339, 0.1821889, -0.0419004, -0.2169228, -0.14052129, 0.11006559, 0.1709272, 0.51062274, 0.13758625, -0.2242552, -0.030382963, 0.3357568, -0.26491287, 0.02501938) * go_1(-1.0, -1.0);
result += mat4(0.040511727, 0.12523083, -0.27318433, 0.08388512, 0.25354835, 0.3404216, -0.2632471, -0.17784123, 0.2732347, 0.4468553, 0.084667034, -0.1856242, 0.034099877, -0.00954992, -0.32751867, -0.062207516) * go_1(-1.0, 0.0);
result += mat4(0.17564747, 0.11645554, -0.16362113, 0.105654195, -0.2762563, -0.1413764, 0.23264363, -0.14000498, 0.095402054, 0.0715738, -0.19346157, -0.028285999, 0.009799127, 0.04059529, 0.19688335, 0.1282381) * go_1(-1.0, 1.0);
result += mat4(0.23575781, -0.11446148, -0.20504695, 0.035568226, 0.36890212, -0.85968876, -0.18545328, 0.33796397, -0.30916876, -0.10445518, -0.3046253, 0.33271998, -0.06263589, -0.2160114, -0.16383372, -0.31173357) * go_1(0.0, -1.0);
result += mat4(0.20469664, 0.4039374, -0.070057206, 0.030353077, 0.39843914, -0.15490077, -0.24476516, 0.38238233, -0.21809858, 0.23496576, -0.051794037, 0.033664484, -0.14411364, -0.2515329, 0.124655396, -0.05818785) * go_1(0.0, 0.0);
result += mat4(-0.09065731, -0.16787091, 0.013269188, 0.23687351, -0.41504318, -0.048163068, 0.31760025, -0.33648986, 0.29752317, 0.2926866, 0.14408836, -0.33382463, -0.15873958, -0.121961035, 0.11797893, 0.09000567) * go_1(0.0, 1.0);
result += mat4(0.13356976, 0.013763947, 0.012169505, -0.109594524, 0.03417223, 0.7031121, 0.65146804, 0.5250268, -0.50132495, -0.419648, 0.2940041, 0.83051753, -0.17595838, 0.1633008, -0.018587278, 0.079596795) * go_1(1.0, -1.0);
result += mat4(0.07570128, -0.1581438, 0.03904949, 0.14890033, -0.054611947, 0.17469402, -0.44252598, 0.036181703, -0.4981031, -0.37507218, -0.18466389, 0.2645845, 0.25189674, -0.025896115, 0.034307647, -0.020462232) * go_1(1.0, 0.0);
result += mat4(-0.11645865, 0.02296537, 0.040909223, 0.015069485, 0.062284566, -0.22526766, 0.09241534, -0.32623053, 0.18208642, 0.3954284, 0.2884468, -0.25137675, -0.037232924, -0.10185309, -0.17956531, 0.018966453) * go_1(1.0, 1.0);
result += vec4(-0.16371979, -0.024620198, -0.035754893, 0.04176776);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_1_tf
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.01921286, -0.26684764, -0.12663573, 0.31641877, -0.25313398, 0.12264074, 0.58750325, -0.14084283, 0.5837018, -0.042300556, -0.20435576, -0.009954825, 0.060783498, 0.05540401, 0.2205112, -0.06578902) * go_0(-1.0, -1.0);
result += mat4(-0.21930243, -0.03774968, 0.22615197, 0.18338196, 0.011201461, -0.271034, 0.00573116, -0.12248194, 0.47990513, 0.2982416, -0.1087603, -0.050099242, -0.07620939, -0.07148229, 0.03691984, -0.16796488) * go_0(-1.0, 0.0);
result += mat4(-0.14962853, -0.053769328, 0.02387081, 0.22002189, 0.052237745, -0.26160842, -0.08603077, 0.012542448, 0.08119985, 0.075785555, -0.33437458, -0.43373227, -0.13206963, -0.08759176, -0.03288923, -0.09799959) * go_0(-1.0, 1.0);
result += mat4(-0.1305593, -0.5974288, 0.06058367, 0.08406488, 0.013692483, 0.06646377, 0.16469325, 0.08990975, 0.42217395, -0.11289523, -0.06165009, 0.48556912, -0.15702641, -0.19922857, -0.0035429662, -0.0022089656) * go_0(0.0, -1.0);
result += mat4(-0.1964807, 0.038099788, 0.21587034, 0.039734077, -0.07063389, 0.11604167, -0.24558097, -0.08900199, -0.7684516, -0.1037487, -0.09380674, 0.33144563, -0.16653742, 0.0028585843, -0.33774406, -0.0528696) * go_0(0.0, 0.0);
result += mat4(-0.27298656, -0.05665099, 0.09661685, 0.19780266, 0.1025106, -0.22055034, -0.21218458, -0.040628925, 0.0095010325, 0.13118382, -0.42582452, -0.22197723, 0.21006055, -0.06189587, -0.15285942, -0.09526762) * go_0(0.0, 1.0);
result += mat4(-0.14494462, -0.046788953, 0.065877035, 0.09911713, 0.35096622, 0.16682479, 0.028363144, 0.36037162, 0.29413632, 0.28212717, -0.025364442, -0.3406269, 0.047262143, -0.11892685, -0.008032766, 0.29743317) * go_0(1.0, -1.0);
result += mat4(-0.15191558, -0.36980554, 0.14555687, 0.0043930537, -0.012661432, 0.15737776, -0.115250416, 0.10324491, 0.24491951, -0.15575431, -0.27802598, 0.21959937, 0.18063772, 0.4455559, -0.09693302, 0.33382267) * go_0(1.0, 0.0);
result += mat4(0.2717801, 0.13452889, 0.14105384, 0.16324317, -0.40111846, 0.1154301, -0.0076733204, -0.09697362, 0.44306824, -0.02831414, -0.2153124, -0.12075326, 0.060776163, 0.30347148, -0.0036976219, -0.12070682) * go_0(1.0, 1.0);
result += mat4(-0.39780128, -0.29875937, -0.12952097, 0.080333896, 0.07520163, 0.021689568, -0.23121156, -0.038140096, -0.1593877, 0.017156163, -0.06038025, 0.009244022, -0.13917233, 0.30957314, 0.243109, -0.104947075) * go_1(-1.0, -1.0);
result += mat4(-0.07965157, 0.06776501, -0.13288979, 0.005851189, -0.08768168, -0.03689969, 0.12034646, 0.22441491, 0.14453568, -0.17648841, -0.3378289, -0.018329712, 0.11722939, -0.34161824, 0.08424494, -0.01400687) * go_1(-1.0, 0.0);
result += mat4(0.08153887, 0.07222914, -0.14663404, -0.038526025, -0.07385973, 0.18440577, 0.35890242, 0.17084727, 0.26345527, 0.15280858, -0.007446105, -0.024403179, -0.30336383, -0.22978698, 0.11612946, -0.23614909) * go_1(-1.0, 1.0);
result += mat4(-0.07447396, 0.09023449, -0.13798, -0.086943336, -0.30787337, 0.15087669, 0.14418626, -0.03371195, 0.048989657, -0.13075387, -0.13458036, -0.059836224, 0.06495196, 0.269715, 0.3674355, 0.38956037) * go_1(0.0, -1.0);
result += mat4(0.34981915, -0.048779126, 0.31717536, 0.38080826, -0.20149232, -0.82969636, -0.10167862, 0.6382858, 0.25976858, 0.4370118, -0.04724865, -0.10014156, 0.19380626, -0.080370255, 0.09578106, -0.035166856) * go_1(0.0, 0.0);
result += mat4(-0.026443917, 0.4132611, 0.01822534, 0.12742202, -0.26652107, -0.2996705, 0.30905882, 0.07989903, 0.38249823, 0.21486135, 0.025314959, -0.14717339, -0.13344015, -0.32088286, -0.2833883, -0.30973712) * go_1(0.0, 1.0);
result += mat4(0.021517841, 0.006556378, 0.2025686, -0.12044382, -0.38583103, -0.0027515136, -0.06556736, -0.097090125, 0.04676486, -0.11954886, -0.051612873, 0.07831412, -0.18823163, -0.16542958, 0.04245155, 0.6437998) * go_1(1.0, -1.0);
result += mat4(-0.39475346, -0.2936861, 0.26768062, -0.28151843, 0.21935691, 0.2101108, -0.15455097, 0.19548604, 0.09188909, -0.020147726, 0.103328265, -0.12574542, -0.34167948, 0.07523185, -0.17669058, 0.62446547) * go_1(1.0, 0.0);
result += mat4(-0.37661025, -0.29630858, 0.05451026, 0.1611643, 0.14079669, -0.2170294, -0.038716137, 0.13514164, -0.21235192, -0.07860726, -0.005749412, 0.025625167, -0.13297133, 0.33012658, -0.27434957, -0.18416783) * go_1(1.0, 1.0);
result += vec4(-0.0036821906, -0.050239526, -0.01355402, 0.00048220603);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(S)-Conv-3x3x3x8
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_2_tf
//!SAVE MAIN
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.15873, 0.17989138, 0.14648493, 0.0, -0.017379675, -0.017363746, -0.019855022, 0.0, 0.009670625, 0.0070157526, 0.0075994316, 0.0, 0.025388412, 0.027231036, 0.024052646, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.048195973, 0.041760173, 0.037366055, 0.0, -0.115950756, -0.12887983, -0.12535639, 0.0, 0.032125086, 0.03397254, 0.032950625, 0.0, 0.01223746, 0.020822672, 0.0161561, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.0890567, 0.094453335, 0.09014035, 0.0, 0.016081346, 0.017434116, 0.020783134, 0.0, -0.011775135, -0.010094134, -0.018522855, 0.0, 0.072103254, 0.07940666, 0.065876864, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.04841196, -0.06963968, -0.056574684, 0.0, 0.10912542, 0.11813441, 0.10643838, 0.0, -0.013013885, -0.01562045, -0.013802797, 0.0, 0.037505716, 0.04352026, 0.04645123, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.3472869, -0.36243078, -0.33530185, 0.0, 0.23654196, 0.2305048, 0.22150646, 0.0, -0.045226905, -0.041799217, -0.042511635, 0.0, -0.10267792, -0.1123385, -0.10845448, 0.0) * go_0(0.0, 0.0);
result += mat4(0.011987401, 0.012285043, 0.007813165, 0.0, -0.15911353, -0.17523928, -0.1535267, 0.0, 0.15675929, 0.16531634, 0.15948962, 0.0, -0.09240023, -0.09513292, -0.084187366, 0.0) * go_0(0.0, 1.0);
result += mat4(0.069052905, 0.07278333, 0.0756627, 0.0, -0.012180326, -0.018794727, -0.031050753, 0.0, -0.044663202, -0.04362803, -0.038904265, 0.0, -0.008540197, -0.011201734, -0.01556625, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.08261173, -0.09042543, -0.07589266, 0.0, 0.043515377, 0.045066774, 0.04037769, 0.0, -0.06262993, -0.07469342, -0.058593787, 0.0, 0.026696987, 0.028740842, 0.037405368, 0.0) * go_0(1.0, 0.0);
result += mat4(0.07975598, 0.09597654, 0.08997132, 0.0, -0.07844719, -0.07880916, -0.06835411, 0.0, 0.05668995, 0.050163813, 0.053357534, 0.0, -0.020040333, -0.019867316, -0.01907621, 0.0) * go_0(1.0, 1.0);
result += mat4(-0.017078733, -0.017393313, -0.008266595, 0.0, -0.0033478448, -0.0027439648, -0.0042334674, 0.0, -0.06354017, -0.062058125, -0.04652064, 0.0, -0.010787706, -0.0062706997, -0.007573461, 0.0) * go_1(-1.0, -1.0);
result += mat4(-0.019895451, -0.016341688, -0.008712399, 0.0, 0.026231976, 0.023955572, 0.0216376, 0.0, -0.061950512, -0.05481285, -0.05261985, 0.0, -0.018804235, -0.016235247, -0.0131616965, 0.0) * go_1(-1.0, 0.0);
result += mat4(-0.055628926, -0.063315354, -0.057192408, 0.0, -0.0256364, -0.028660972, -0.02937357, 0.0, -0.017604912, -0.020851422, -0.016070362, 0.0, -0.0870202, -0.0832279, -0.07525406, 0.0) * go_1(-1.0, 1.0);
result += mat4(0.062738225, 0.07106593, 0.061644047, 0.0, -0.06068257, -0.06983662, -0.066070385, 0.0, 0.024919355, 0.03227179, 0.028569462, 0.0, -0.07866227, -0.098967604, -0.092128105, 0.0) * go_1(0.0, -1.0);
result += mat4(0.040397774, 0.047241107, 0.03962998, 0.0, -0.09112752, -0.10057507, -0.09301817, 0.0, 0.10833967, 0.101835825, 0.10027467, 0.0, 0.27189335, 0.27433604, 0.26781923, 0.0) * go_1(0.0, 0.0);
result += mat4(-0.044211388, -0.042373534, -0.03658007, 0.0, 0.113148406, 0.12423258, 0.107804194, 0.0, -0.17081551, -0.18562958, -0.17475435, 0.0, 0.09636739, 0.10763415, 0.093332425, 0.0) * go_1(0.0, 1.0);
result += mat4(-0.03798545, -0.047811143, -0.050768293, 0.0, 0.018775463, 0.026812987, 0.03452908, 0.0, 0.0055677597, 0.0039081173, -0.0017878668, 0.0, -0.10728597, -0.12618187, -0.109045394, 0.0) * go_1(1.0, -1.0);
result += mat4(0.06359783, 0.064184755, 0.04934199, 0.0, -0.009819327, -0.006616115, -0.007431496, 0.0, 0.025055679, 0.024787048, 0.017360551, 0.0, -0.047140837, -0.061695747, -0.06440822, 0.0) * go_1(1.0, 0.0);
result += mat4(0.060199022, 0.06482763, 0.059514645, 0.0, 0.026998974, 0.028776823, 0.024897143, 0.0, 0.17968474, 0.19337215, 0.16760105, 0.0, 0.0075838566, 0.010503482, 0.011993149, 0.0) * go_1(1.0, 1.0);
result += vec4(-0.0052927984, -0.0060193934, -0.0048643993, 0.0);
return result + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Restore_CNN_Soft_L.glsl
+429
View File
@@ -0,0 +1,429 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.2676983, -0.1694746, 0.7231928, -0.050193843, 0.1850188, -0.4749505, 0.07632266, 0.17824799, 0.026348969, -0.213702, -0.16420218, -0.066780016, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.09888135, -0.079641104, 0.51160043, 0.53629893, -0.1368544, -0.07092336, 0.18622977, 0.6388427, 0.19499005, 0.06811229, -0.31991923, 0.088302985, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.06487055, -0.1591197, -0.29304126, -0.428903, 0.1966732, 0.11229865, 0.089009434, 0.23463708, -0.22231965, -0.008649182, 0.3317394, 0.10976113, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.40386826, -0.09486362, -0.058931742, -0.1341693, -0.28993917, -0.09050739, 0.28094417, 0.31630108, -0.02661985, -0.24368657, 0.096867286, 0.05391612, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(0.05631564, 0.34576723, -0.5587978, 0.16213721, 0.12679785, 0.18991663, -0.24762277, -0.33682153, -0.22863568, 0.20517963, 0.20418519, 0.12087338, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.17579688, 0.18395603, -0.014987654, 0.30243605, -0.12778279, -0.07003458, -0.5353068, -0.39372426, 0.2676877, 0.255503, -0.29737592, -0.30513638, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.799834, -0.023603538, 0.19820727, -0.11204286, -0.1566225, -0.1937577, -0.030266436, -0.10107911, 0.023661222, 0.16879195, 0.046644643, 0.09485681, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.014675849, -0.110290475, -0.28381273, -0.06814732, 0.2067597, 0.20925248, -0.24068354, -0.5096708, -0.09384791, 0.10593733, 0.0672362, -0.06924161, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.05908883, 0.099426664, -0.20916614, -0.17044452, -0.091960385, 0.3218613, 0.41635308, -0.36125022, -0.012630896, -0.37540653, 0.018497325, -0.10067442, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.55533427, -0.05231614, -0.032685343, -0.027457517);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf1
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.09844753, -0.19389127, 0.029695928, 0.3805915, 0.1353029, 0.027786473, 0.15621242, 0.09383762, -0.1097243, 0.021245124, -0.016402386, 0.09129394, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.3038283, 0.03778846, 0.1898852, 0.23949303, -0.34829387, 0.20485392, 0.60560244, 0.4089768, -0.260066, 0.42611003, 0.19227165, 0.03948586, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.033990905, 0.17583308, -0.2235879, 0.47376296, -0.1001787, 0.72851896, -0.056391567, -0.056544185, 0.0966166, -0.016663829, -0.15151545, -0.14227313, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.16544957, 0.05889452, -0.3277256, -0.42792717, 0.32491356, -0.39113912, 0.16600312, -0.3097514, 0.27907088, -0.22553465, 0.048548058, -0.08310438, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(0.03992136, 0.17895368, 0.16562924, -0.536188, -0.25868654, -0.4869832, 0.2591772, -0.5191932, 0.020162001, -0.41568524, 0.4776641, 0.019298514, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.14911795, -0.5984171, -0.18241958, 0.5472136, -0.69194865, 0.033839397, 0.13408412, 0.09503547, -0.21318413, 0.53743845, 0.080091774, -0.1369053, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(-0.038978565, 0.40742934, 0.20107205, -0.3550106, 0.227634, -0.16101603, -0.45037574, 0.23192371, 0.17923234, -0.13692904, 0.10395048, 0.3124129, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.059144646, -0.22531863, -0.024704054, -0.20749553, 0.58086175, -0.32206532, -0.5130457, -0.14057957, 0.24317528, 0.088735096, -0.44098017, -0.16980846, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.30321437, 0.17502202, 0.1910563, -0.10118702, 0.1465326, 0.3852395, -0.31210947, 0.18236226, -0.23306467, -0.28551704, -0.2982589, 0.072740674, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(0.029685514, 0.066621915, 0.03600017, -0.03497038);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.20989326, 0.020975577, -0.005522964, -0.10013134, 0.013517254, -0.03347422, 0.40903455, 0.013940953, 0.01066957, 0.2569982, -0.018764338, -0.37931216, -0.20921241, -0.3565134, 0.1776639, 0.081515394) * go_0(-1.0, -1.0);
result += mat4(-0.2555968, -0.05024504, 0.046776827, 0.38626888, -0.21787676, 0.0013136056, -0.13391882, 0.00022813173, -0.042842478, -0.10413157, -0.008385445, -0.11843704, 0.062092766, -0.40029097, 0.31873867, -0.19030346) * go_0(-1.0, 0.0);
result += mat4(-0.19435422, -0.56006145, 0.050693467, -0.8857939, -0.0677575, -0.30498, 0.012069988, 0.026757652, -0.16890685, 0.04575225, -0.08477036, -0.018015383, 0.0002810964, 0.0772843, 0.00017034424, -0.228497) * go_0(-1.0, 1.0);
result += mat4(0.092564344, 0.061863884, -0.13135873, 0.10290956, 0.1670116, -0.08312144, -0.020718448, 0.06729496, -0.06338295, -0.09972319, 0.18505506, -0.2622095, 0.045575716, 0.12836345, -0.22356766, 0.28924033) * go_0(0.0, -1.0);
result += mat4(0.23605964, 0.46831363, 0.21037713, 0.3901851, -0.122640595, -0.29213053, 0.14194407, -0.3353137, 0.07847812, 0.3094049, -0.050705243, -0.23498294, 0.24583417, 0.3703223, 0.1121086, 0.20645288) * go_0(0.0, 0.0);
result += mat4(-0.08616125, -0.13809866, 0.27488732, 0.19573413, -0.20682202, 0.01106275, -0.018731792, 0.048580807, -0.097444884, -0.03766069, -0.12636039, 0.3133589, -0.12802023, 0.1988174, 0.19551867, -0.2720954) * go_0(0.0, 1.0);
result += mat4(0.03484159, 0.05830728, 0.028816089, 0.27173883, 0.15579484, -0.07751753, -0.033748254, 0.22559631, -0.35857964, 0.1043378, 0.5031367, 0.031042032, 0.071555324, -0.24148308, -0.24156207, 0.104249395) * go_0(1.0, -1.0);
result += mat4(0.04002337, -0.17350379, -0.1802324, -0.23008482, 0.2917599, 0.1801853, 0.041955303, 0.015545025, 0.069034904, 0.19370675, 0.097300164, 0.11832116, -0.23043779, 0.33832225, -0.029885143, -0.022836795) * go_0(1.0, 0.0);
result += mat4(0.040476788, 0.3176767, -0.2372066, 0.24106048, 0.28147677, -0.06513699, -0.22784042, -0.46840426, -0.23415963, -0.067057185, -0.013863767, 0.30710638, 0.06337683, -0.1774192, 0.05082387, -0.02581459) * go_0(1.0, 1.0);
result += mat4(-0.13767451, 0.26832962, 0.018361554, 0.2665501, -0.22070843, 0.10799693, 0.09780551, 0.042999722, 0.3302224, 0.10916339, -0.22705203, 0.040675506, -0.049211837, 0.19487813, 0.051528033, 0.20227027) * go_1(-1.0, -1.0);
result += mat4(0.1279485, 0.14895418, 0.40570346, -0.008809808, 0.09898892, 0.035774715, -0.28405192, 0.26836014, -0.096799396, -0.12336552, -0.24413097, 0.12693845, 0.12410443, 0.27200332, -0.18279982, -0.032115027) * go_1(-1.0, 0.0);
result += mat4(0.14698029, -0.31720948, 0.24974433, 0.14444488, 0.09503049, -0.02618792, 0.15163966, 0.22923012, -0.004227005, -0.2564904, -0.06648419, -0.07868524, -0.14852846, -0.3513046, -0.1374295, -0.09808154) * go_1(-1.0, 1.0);
result += mat4(0.1275583, 0.1875862, -0.15939887, -0.1029876, -0.25886494, -0.07434281, -0.018779758, -0.008408217, 0.06420735, 0.0025367932, 0.073679835, 0.1369152, -0.2256255, 0.26216295, -0.052095387, 0.04673847) * go_1(0.0, -1.0);
result += mat4(0.1147465, 0.14129257, -0.036377613, 0.041968875, 0.031286925, -0.00013609273, -0.248227, 0.10412182, -0.00039004904, 0.01673792, 0.056068443, -0.16470632, -0.042392768, 0.23993582, -0.22915693, 0.36430097) * go_1(0.0, 0.0);
result += mat4(0.23650797, 0.12200628, 0.057768486, 0.23353462, 0.04389849, -0.11567954, -0.12633252, -0.1884369, -0.10636852, -0.115114085, -0.0022040834, 0.041720822, 0.20775628, -0.1127031, -0.060805347, -0.10988217) * go_1(0.0, 1.0);
result += mat4(0.0401325, -0.271267, -0.3003843, 0.010670003, -0.12597936, -0.059235968, 0.08256807, -0.22041298, 0.14655456, 0.07416407, -0.03940599, -0.25057787, -0.043001004, 0.2124355, 0.19165096, 0.077120975) * go_1(1.0, -1.0);
result += mat4(0.01693656, -0.057261657, -0.13366276, -0.15589137, -0.07157646, -0.12266521, 0.24651442, -0.079142615, -0.113005005, -0.15769142, -0.017285366, 0.08821278, 0.28891653, 0.06013908, 0.0038421913, 0.106700204) * go_1(1.0, 0.0);
result += mat4(0.16187043, -0.059908718, -0.050456535, -0.027998367, 0.12749411, -0.07558445, 0.05249467, 0.02001542, 0.03188715, 0.056223337, 0.06117334, 0.022764465, 0.1051409, 0.0011876151, -0.07030176, -0.015487096) * go_1(1.0, 1.0);
result += mat4(0.047084607, 0.06401777, 0.15585798, 0.16639893, 0.025441, -0.020858578, -0.07795479, -0.0045188745, -0.09186016, -0.16865493, 0.02187216, 0.02241868, 0.3175809, 0.25483596, 0.046578035, -0.09617824) * go_2(-1.0, -1.0);
result += mat4(0.08622112, 0.124111585, -0.15246506, -0.072898194, 0.26907462, -0.15550381, 0.036907334, -0.16388376, -0.10869113, 0.113909826, -0.118678264, 0.013610441, -0.1307433, 0.044969033, -0.053201765, -0.058903012) * go_2(-1.0, 0.0);
result += mat4(0.036120024, -0.011461657, -0.10083318, -0.334466, 0.016460553, 0.1781498, 0.15133101, -0.0010224655, 0.10511601, 0.12667589, 0.15001541, 0.14479756, -0.046095166, -0.15012313, -0.009395591, 0.019260757) * go_2(-1.0, 1.0);
result += mat4(0.04500625, -0.037348565, -0.10475762, 0.113254204, -0.17360263, -0.18522957, 0.014305901, 0.07039716, -0.11408359, 0.057783633, -0.028000865, -0.25506407, -0.058175903, 0.0040344223, 0.11234911, -0.07254186) * go_2(0.0, -1.0);
result += mat4(0.05607878, -0.07737156, 0.01586671, -0.21907675, 0.1729392, -0.09273287, 0.14671144, 0.21306099, -0.1374591, -0.09428349, 0.28138107, 0.08421483, -0.30330884, -0.039166123, -0.18316704, -0.27840406) * go_2(0.0, 0.0);
result += mat4(-0.15336679, -0.05767407, 0.13347702, 0.10092905, 0.09895612, -0.0839073, -0.16025528, -0.087642424, -0.101612955, 0.4119443, 0.031125817, -0.110090934, 0.056127027, -0.04000313, -0.042920932, 0.08100733) * go_2(0.0, 1.0);
result += mat4(-0.113653034, -0.10163741, -0.058498476, -0.12347642, -0.20110545, -0.006300695, -0.1328342, -0.0071486877, 0.18334186, 0.15882389, -0.120586954, -0.04277906, -0.13593355, 0.11897087, 0.030404912, -0.23374279) * go_2(1.0, -1.0);
result += mat4(0.044901595, -0.00010039519, -0.14989527, 0.025639903, 0.23985633, 0.0114784185, 0.056620862, -0.0599113, 0.017398749, 0.3567445, 0.10223932, -0.12609181, 0.0074833618, -0.16702464, -0.033638544, 0.062087793) * go_2(1.0, 0.0);
result += mat4(-0.0302778, -0.009963125, 0.29761076, 0.08238972, 0.26467612, -0.19331805, -0.09930472, 0.23798122, 0.03599952, 0.24224155, 0.3041322, -0.054690234, 0.05582198, 0.0012778769, 0.041249134, -0.014496484) * go_2(1.0, 1.0);
result += mat4(-0.033623356, -0.18683043, -0.48352727, -0.09534184, 0.16657802, -0.31149274, -0.25840783, -0.16902964, -0.40347067, 0.046952717, 0.15677738, -0.14079048, 0.0444492, -0.012346084, -0.16768047, -0.07540055) * go_3(-1.0, -1.0);
result += mat4(0.2678487, 0.113161474, -0.19962314, 0.23060325, -0.28154588, -0.06956369, 0.08050926, -0.25503877, 0.12565655, 0.5497286, -0.18335307, -0.044097837, 0.058234677, 0.049816858, -0.021038791, 0.14644346) * go_3(-1.0, 0.0);
result += mat4(-0.008438418, 0.080761805, 0.06993718, 0.08508105, 0.11905285, 0.016726421, -0.16668561, 0.026911844, 0.041182615, 0.2760306, 0.18553418, 0.25386074, 0.11789433, 0.094213605, 0.15487063, 0.15375367) * go_3(-1.0, 1.0);
result += mat4(-0.10329284, 0.16198465, -0.0681889, -0.006294233, 0.4592297, -0.12816279, 0.19529971, 0.109294996, 0.043646853, 0.084326275, 0.0635968, -0.11471805, 0.44923568, -0.01125437, -0.19251052, -0.08885202) * go_3(0.0, -1.0);
result += mat4(-0.108986676, 0.40908077, -0.31152573, -0.13468693, -0.10438951, -0.086357035, 0.13880713, -0.288345, 0.17497768, -0.08021166, 0.07815909, 0.17337689, 0.02700953, -0.016387407, 0.0053377734, 0.109923586) * go_3(0.0, 0.0);
result += mat4(0.13881513, -0.21179448, -0.104762904, 0.019093828, -0.3383386, 0.14453639, -0.28122503, 0.19449967, -0.035691183, 0.21306588, -0.046144057, 0.17898172, -0.0035024916, -0.054061864, -0.03985455, 0.3264588) * go_3(0.0, 1.0);
result += mat4(0.02336507, 0.20597245, 0.03627631, 0.04278966, -0.042182084, -0.26431814, 0.122881256, 0.34909293, -0.17958918, 0.050698034, 0.336547, 0.21614759, 0.19511287, -0.20311548, -0.13249207, -0.24043573) * go_3(1.0, -1.0);
result += mat4(-0.025547924, 0.020525696, 0.375233, -0.02528368, -0.044973124, 0.13667387, -0.08506365, 0.34317508, 0.14618309, 0.108213425, 0.15557359, -0.05340479, -0.27103037, 0.12428249, -0.085362, -0.009073445) * go_3(1.0, 0.0);
result += mat4(-0.09518274, 0.036228243, -0.2145168, 0.090918355, -0.20793489, 0.19843313, 0.06701371, -0.11499378, -0.033398125, -0.020169621, 0.057314273, 0.0027613493, -0.11993404, 0.12495525, -0.0151242195, 0.1896457) * go_3(1.0, 1.0);
result += vec4(-0.045150407, -0.034128085, 0.10230384, 0.074793644);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.10541986, -0.27021417, 0.30589217, -0.06793019, 0.0712113, -0.5818028, -0.09057832, 0.009519015, -0.07754299, 0.009050975, -0.08283811, -0.078837596, -0.008200866, 0.53291875, 0.22918138, 0.09433025) * go_0(-1.0, -1.0);
result += mat4(0.35867104, 0.17056245, 0.28573632, 0.45787787, 0.054377224, 0.30656826, -0.13864343, 0.13956884, -0.052365527, -0.17660435, -0.14363506, -0.11313267, -0.15472592, -0.011637987, 0.3057005, 0.40122506) * go_0(-1.0, 0.0);
result += mat4(-0.42738816, -0.13046122, -0.4223082, 0.32663476, -0.14648326, 0.056164477, 0.09366789, -0.046335716, 0.00401621, -0.008206323, -0.075975314, 0.046879925, 0.04891574, 0.08912198, 0.32541895, 0.014354832) * go_0(-1.0, 1.0);
result += mat4(0.105501, -0.06999185, -0.023181506, 0.13587391, -0.10643463, 0.061667755, 0.24508677, 0.33984032, -0.1698376, -0.05051473, -0.29430416, -0.06635265, -0.031917162, 0.046488285, 0.17973569, -0.025048103) * go_0(0.0, -1.0);
result += mat4(-0.07685088, -0.035609607, 0.07060013, -0.19892506, 0.17084605, -0.19758354, -0.29233304, -0.19821644, -0.047398012, 0.12004138, 0.1643941, 0.043807004, 0.2513805, 0.13687916, 0.23235638, 0.00979058) * go_0(0.0, 0.0);
result += mat4(-0.2601253, -0.0010056786, -0.46147683, -0.117661044, -0.042538162, -0.012710203, -0.034079336, -0.08661733, -0.03908205, 0.104053, -0.045735247, -0.07916684, -0.021913078, -0.0035067864, -0.10581172, 0.11498716) * go_0(0.0, 1.0);
result += mat4(0.0421786, 0.0099540735, -0.020447837, -0.27269018, -0.084229656, 0.04271779, 0.036794372, -0.18072419, 0.07743771, -0.109369494, -0.07608079, 0.2973058, -0.1602913, -0.10049883, 0.033048846, -0.3780618) * go_0(1.0, -1.0);
result += mat4(-0.38231418, 0.106174126, 0.07344471, -0.1979349, 0.093251124, -0.07658309, 0.08417288, 0.2981472, -0.047867708, 0.0097399205, -0.11213339, 0.1746439, 0.10045314, -0.030283177, 0.004107288, -0.16744147) * go_0(1.0, 0.0);
result += mat4(0.43939134, 0.14499938, 0.20161533, -0.0067911143, 0.098075844, 0.22099596, 0.099283025, -0.017734041, 0.112658866, -0.12010951, -0.13342896, 0.053806942, 0.017880073, 0.028821323, 0.0082069365, -0.053472634) * go_0(1.0, 1.0);
result += mat4(0.2429229, 0.012143042, -0.029962441, 0.017843649, 0.11972611, -0.07733264, -0.37523645, -0.19887479, -0.18222691, -0.31171882, -0.20578085, 0.040127717, 0.0842879, 0.12601142, -0.07302166, -0.033017557) * go_1(-1.0, -1.0);
result += mat4(0.09666541, -0.053779975, -0.045221806, -0.06923458, -0.046158988, -0.12819108, -0.32956856, -0.15813568, 0.12464106, -0.42395857, 0.078095086, -0.12961964, -0.15057011, -0.041440632, 0.04221429, 0.08509352) * go_1(-1.0, 0.0);
result += mat4(0.2505401, 0.023106987, -0.0001688444, -0.11545978, 0.044663083, -0.011316191, -0.024175104, 0.033631656, -0.13285598, -0.026969459, 0.02669494, 0.082885765, -0.036615327, 0.06434473, -0.059197906, -0.1100841) * go_1(-1.0, 1.0);
result += mat4(-0.12549014, 0.25078717, -0.06146062, 0.1406611, 0.13844866, 0.012716272, 0.07641059, 0.04245357, -0.09028008, -0.15924782, -0.14551707, -0.09782215, 0.05188703, -0.12323306, -0.20053494, -0.20062317) * go_1(0.0, -1.0);
result += mat4(-0.26341316, -0.16508758, 0.036919586, -0.17812039, -0.3016191, 0.06403582, 0.12948476, 0.110633194, 0.14551535, -0.09222706, -0.30942333, 0.20120445, 0.059902433, -0.17293817, -0.07280857, -0.36021966) * go_1(0.0, 0.0);
result += mat4(0.11032128, -0.024297172, -0.110301405, -0.09563319, -0.23266938, -0.009982061, 0.18834652, 0.0987435, -0.13652846, -0.025019212, 0.07672643, 0.017108513, -0.043844085, 0.02440773, -0.029404791, 0.034692347) * go_1(0.0, 1.0);
result += mat4(-0.048525557, -0.043118346, 0.12048513, 0.030609682, 0.16658829, 0.19444555, 0.113910906, 0.31148425, -0.1755198, -0.038910154, 0.084356636, 0.12969102, 0.01661835, 0.28915378, -0.032290917, -0.12997934) * go_1(1.0, -1.0);
result += mat4(-0.24347968, 0.032619976, 0.16692804, -0.046297006, 0.0901479, 0.060802385, 0.21347383, 0.29304698, 0.16361152, 0.19639444, 0.0054137907, 0.049575172, 0.20710163, 0.076565325, 0.34911337, 0.35831028) * go_1(1.0, 0.0);
result += mat4(-0.092651226, 0.045491215, 0.11757575, 0.11756375, -0.27768722, 0.010231745, 0.21116765, 0.024840422, 0.0051228474, -0.04532887, -0.013311027, 0.121157385, -0.1053527, -0.00010417442, -0.035180032, 0.2051271) * go_1(1.0, 1.0);
result += mat4(-0.055320628, 0.14249797, -0.13782813, -0.05412119, -0.043079898, -0.18216185, 0.13923723, -0.11468015, -0.09394785, 0.12044827, -0.05177875, 0.1349153, -0.03233552, 0.16400962, -0.11219184, 0.09460802) * go_2(-1.0, -1.0);
result += mat4(-0.018258873, -0.23629102, -0.140925, 0.10609654, 0.024990926, -0.31095183, 0.21505022, 0.0007466126, -0.062110204, 0.24764718, 0.0018352414, 0.03383791, -0.05727847, -0.006963949, -0.23087887, -0.2521535) * go_2(-1.0, 0.0);
result += mat4(-0.08928898, 0.21107556, 0.27720314, 0.3170095, 0.1569246, -0.07950364, -0.035353288, 0.0851358, 0.034223706, -0.1124521, 0.068468235, -0.1876728, -0.09508409, -0.03837469, -0.19909252, 0.09844746) * go_2(-1.0, 1.0);
result += mat4(0.04326774, -0.063746035, 0.13767312, 0.048762802, 0.14155331, -0.21800575, -0.22868122, -0.10928361, 0.15166105, 0.086240664, 0.110339195, -0.0039928076, 0.114750795, 0.19737157, -0.09005264, -0.10637459) * go_2(0.0, -1.0);
result += mat4(0.023298614, 0.07140441, 0.029475417, -0.14667986, -0.017949682, 0.007795148, -0.044714145, -0.13990426, 0.03870307, -0.067750655, -0.11831945, -0.14363948, 0.00049597165, -0.18959905, -0.20256434, 0.040964015) * go_2(0.0, 0.0);
result += mat4(0.18983524, 0.07018097, 0.015068278, -0.17990883, -0.12528846, -0.020557154, 0.0106482245, 0.08105856, 0.02577546, -0.25885943, 0.0061467723, -0.058998212, 0.045207195, 0.019213859, -0.021913687, -0.10641617) * go_2(0.0, 1.0);
result += mat4(-0.005021213, -0.030781588, -0.08722711, 0.045172613, 0.13006134, 0.03640675, -0.18160394, 0.10903534, 0.1283007, 0.053212877, 0.15160874, -0.30678773, 0.0611477, 0.060609598, -0.21533446, 0.2817914) * go_2(1.0, -1.0);
result += mat4(-0.06942382, -0.08785516, -0.018080644, 0.12124481, -0.0988795, 0.021093542, 0.015752183, 0.057520576, -0.1873821, -0.15041956, 0.12230656, -0.23798561, -0.16819417, 0.07222907, -0.01441512, 0.06420038) * go_2(1.0, 0.0);
result += mat4(-0.0350732, -0.054145966, 0.008372502, -0.16092199, -0.0671371, 0.057495046, -0.08276416, 0.34617814, 0.11239629, -0.19681981, 0.16116115, 0.046944335, 0.09723501, -0.12488112, -0.031532682, 0.013095191) * go_2(1.0, 1.0);
result += mat4(-0.2309171, 0.10420613, -0.12122516, -0.04000454, -0.20740104, -0.010152015, 0.26092738, 0.13527256, 0.08665683, -0.18393658, -0.030344693, -0.10654187, 0.07108977, -0.28212613, 0.024101965, -0.22189055) * go_3(-1.0, -1.0);
result += mat4(0.06602971, 0.050674047, 0.33251405, -0.07886978, -0.13822217, -0.014285523, 0.22478761, 0.22517748, -0.1175651, 0.11234997, -0.17835312, 0.010875831, 0.20007257, 0.21565825, 0.30876723, -0.029953295) * go_3(-1.0, 0.0);
result += mat4(0.3083618, 0.12779777, 0.112711206, 0.001815444, -0.123584166, 0.03232661, -0.060439207, -0.13411477, 0.30604517, -0.19359338, -0.115064435, -0.03826723, 0.16092177, -0.07926006, -0.27355558, 0.077829085) * go_3(-1.0, 1.0);
result += mat4(-0.020265967, -0.27894706, -0.105033666, -0.10975655, 0.20102961, 0.024541473, 0.21834314, -0.21726306, -0.01132585, -0.16459125, 0.21980706, 0.039996378, -0.15850788, 0.16646145, 0.10387183, -0.35103965) * go_3(0.0, -1.0);
result += mat4(-0.038195442, 0.02967505, -0.22234862, -0.040221542, 0.06056814, 0.14282827, -0.26034078, 0.32477978, -0.45779508, -0.3667849, 0.22392158, 0.09866475, -0.096611015, 0.12282537, 0.080877006, -0.038721707) * go_3(0.0, 0.0);
result += mat4(0.12205649, 0.052729234, 0.09086409, 0.13457046, -0.24082763, -0.008418334, -0.24735104, 0.13281673, 0.049058694, 0.046168383, -0.049963474, 0.09272115, 0.12703685, 0.020337742, -0.20470645, -0.07379872) * go_3(0.0, 1.0);
result += mat4(0.02244616, 0.058318693, -0.05570221, -0.02717316, 0.14189804, -0.0016504574, 0.018723257, -0.05787106, 0.055331856, 0.0030448188, 0.01664426, 0.080254346, -0.15860988, -0.10147442, 0.115529425, -0.12332509) * go_3(1.0, -1.0);
result += mat4(0.16019078, -0.20631735, -0.018190302, 0.0647328, -0.04840569, 0.083106056, -0.13247506, -0.2112572, -0.10423932, -0.12388437, 0.1951962, 0.15236832, -0.075027406, -0.12183809, -0.07161853, -0.24558437) * go_3(1.0, 0.0);
result += mat4(-0.06832158, 0.06699966, -0.17887384, 0.025053928, 0.22054252, -0.03332688, -0.089027286, -0.0743864, -0.019737093, 0.1890527, 0.3194981, -0.014847898, 0.0616053, -0.046331815, -0.013838972, -0.19598661) * go_3(1.0, 1.0);
result += vec4(0.0031252617, 0.028414045, -0.018389644, 0.011216021);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.1156422, 0.13656664, 0.23103227, -0.09881847, -0.13118152, 0.063764885, -0.1902535, 0.12580052, -0.057555363, 0.0015611092, 0.009383415, 0.0028447553, -0.12577637, 0.06707094, 0.05323591, 0.087465174) * go_0(-1.0, -1.0);
result += mat4(0.023715734, 0.15901619, 0.010465818, -0.05401794, 0.12822664, -0.079860024, -0.107430205, -0.09094713, 0.11440009, -0.069189526, 0.1377121, -0.02780827, -0.2594948, -0.008447683, -0.052618783, 0.0995311) * go_0(-1.0, 0.0);
result += mat4(0.014655754, 0.0976315, -0.10425098, 0.06731683, -0.07336922, -0.09931748, -0.074338034, 0.014602733, 0.0761052, -0.14147633, 0.057346404, -0.10485628, 0.008160006, -0.14553718, -0.14069714, -0.106754564) * go_0(-1.0, 1.0);
result += mat4(-0.18000032, 0.2654082, 0.07008131, -0.21326934, -0.11475177, 0.110427424, -0.09757059, -0.068473235, 0.14004572, -0.1257574, -0.18653339, -0.0546973, -0.04573617, 0.0062926346, -0.111400455, 0.20940857) * go_0(0.0, -1.0);
result += mat4(-0.018083753, 0.2091146, -0.12149297, -0.20310159, 0.19642518, 0.008668434, 0.30470127, 0.080623224, -0.04213514, 0.114459425, -0.20325947, 0.024065504, 0.4724302, -0.12169043, 0.22899939, 0.16189654) * go_0(0.0, 0.0);
result += mat4(0.22153069, -0.13286535, 0.21529129, 0.059222966, -0.010648649, -0.07542803, 0.12650701, 0.107978106, -0.0122471545, -0.12456761, -0.05047403, 0.052241012, -0.18476847, 0.023691572, 0.16347644, -0.10157776) * go_0(0.0, 1.0);
result += mat4(0.053245157, 0.23913434, -0.06288426, -0.15678102, -0.09103809, -0.070054255, -0.021768395, 0.012513, 0.105658144, -0.2088671, -0.03485171, -0.07802848, -0.08754643, 0.0675039, -0.10190519, 0.03442446) * go_0(1.0, -1.0);
result += mat4(-0.028817, 0.11284706, 0.13998732, -0.015143216, -0.03416565, 0.09102063, 0.11161235, 0.08467392, 0.16325544, 0.14942992, -0.12313727, -0.06640328, -0.0750008, -0.018136598, -0.23112826, -0.006661416) * go_0(1.0, 0.0);
result += mat4(0.017297093, 0.07989559, 0.13549612, 0.07035857, -0.25493076, 0.061273754, 0.052633338, 0.0782014, -0.17994808, -0.14367908, 0.098241016, -0.07993234, -0.010386358, -0.102339104, 0.023344131, -0.08682215) * go_0(1.0, 1.0);
result += mat4(0.36794287, -0.048137277, -0.3692417, 0.07832, -0.023172008, 0.02877666, -0.23517531, 0.1448923, 0.09313475, -0.27063283, 0.028388552, 0.17988816, 0.1006075, 0.028261969, -0.10012888, -0.10348935) * go_1(-1.0, -1.0);
result += mat4(-0.06629671, 0.35957095, -0.21791938, -0.12429962, 0.054654542, 0.05988639, -0.32374984, 0.009501225, -0.26171863, 0.042992886, 0.29698196, 0.08521328, 0.15199377, 0.16362138, -0.18785295, -0.049852755) * go_1(-1.0, 0.0);
result += mat4(0.15766738, -0.04841046, 0.14447841, 0.17353393, -0.008089345, 0.04590437, -0.043384884, 0.002877719, 0.08845935, 0.039423246, -0.14808795, -0.03975318, 0.2653877, -0.20700884, 0.07218189, -0.10878484) * go_1(-1.0, 1.0);
result += mat4(0.11222389, 0.2779044, 0.0847275, -0.16267867, 0.17030342, 0.05503266, -0.22644295, -0.23563059, 0.41185054, -0.43625602, -0.18901125, 0.6115694, -0.084791176, -0.01684559, 0.19077617, -0.07168747) * go_1(0.0, -1.0);
result += mat4(0.015268929, -0.14208716, 0.15536898, -0.11922906, -0.021667667, -0.078210905, 0.023766499, -0.18069603, -0.06938558, -0.023576038, -0.2990819, 0.11863158, -0.05013765, 0.061508566, -0.085189775, 0.07901883) * go_1(0.0, 0.0);
result += mat4(0.13318339, 0.29247984, 0.14075997, 0.08248716, 0.3436642, -0.099461004, -0.17356718, -0.029998098, 0.11614284, 0.20115575, 0.04850254, -0.109567694, -0.090151444, 0.06976889, 0.12614332, 0.097242) * go_1(0.0, 1.0);
result += mat4(0.102283016, 0.2969136, -0.059127506, 0.06053867, 0.102346785, 0.061365493, -0.09023823, -0.14396398, 0.04298546, -0.10845686, -0.16071963, 0.05240062, 0.00294458, 0.01617549, 0.30480185, -0.0020818028) * go_1(1.0, -1.0);
result += mat4(0.022530032, -0.04770017, 0.16849731, 0.2684958, -0.20493472, 0.26375678, -0.08210537, 0.11594341, 0.12630959, -0.33804628, -0.066290505, -0.21235433, -0.11481554, 0.045285236, 0.009036264, -0.009541344) * go_1(1.0, 0.0);
result += mat4(0.22221607, 0.19683546, 0.088301376, 0.07007941, 0.42560205, -0.2515224, 0.10263357, 0.17257528, -0.025208276, 0.09696816, 0.07462843, -0.1663459, 0.14332424, -0.04554422, 0.1857485, 0.19819035) * go_1(1.0, 1.0);
result += mat4(-0.33422568, 0.22908518, -0.052035328, 0.0022050992, 0.22068155, -0.31737608, 0.11867548, -0.1062603, 0.21229419, 0.0637268, 0.06284452, 0.075321406, -0.0017977909, -0.24026957, 0.08011851, -0.016301792) * go_2(-1.0, -1.0);
result += mat4(0.18647133, -0.042395514, -0.21644959, 0.020428998, -0.19073069, 0.037881456, 0.15364948, 0.13242447, -0.30524725, 0.056054097, -0.03914103, 0.030670341, -0.0010289366, -0.03421297, 0.34305614, 0.078916825) * go_2(-1.0, 0.0);
result += mat4(-0.061559163, 0.33350998, -0.040633813, -0.1973531, -0.17371178, 0.020277103, -0.024941592, 0.06309346, 0.10086231, -0.07366512, 0.16570221, 0.20248237, -0.23286462, 0.2155677, 0.15136743, 0.05190251) * go_2(-1.0, 1.0);
result += mat4(-0.089644894, 0.13512145, -0.09810823, 0.1616594, 0.16190928, -0.35417703, -0.05601066, 0.20318456, 0.17348176, 0.074274324, 0.029394915, 0.15095772, 0.12337869, 0.029932164, 0.04123706, -0.049648866) * go_2(0.0, -1.0);
result += mat4(0.46952993, 0.14834478, -0.11927866, 0.07611556, -0.2967575, -0.030506441, -0.1524667, -0.16106017, -0.38649827, 0.18501776, 0.07677004, -0.0828538, -0.43983704, -0.15083657, -0.118309684, 0.13656397) * go_2(0.0, 0.0);
result += mat4(-0.04939808, 0.53252345, 0.12711428, -0.38512766, -0.20486577, 0.031688303, -0.18231112, -0.019054607, -0.034855623, -0.05244254, -0.1425771, 0.0892418, 0.046889585, 0.1430025, -0.12742822, 0.092776656) * go_2(0.0, 1.0);
result += mat4(-0.105744444, -0.10247078, -0.02144931, -0.09396661, -0.03536793, -0.027341979, -0.103435315, 0.12214116, -0.13862023, 0.037751865, 0.40586975, 0.023863355, -0.12592442, -0.0762698, 0.008515978, 0.1552095) * go_2(1.0, -1.0);
result += mat4(0.018858416, 0.053681094, 0.16911085, -0.29219922, -0.182029, 0.02297272, -0.30588147, -0.18948974, -0.05744442, 0.0065371646, 0.16328862, -0.051437955, 0.13113242, -0.07573973, -0.047258016, 0.0882382) * go_2(1.0, 0.0);
result += mat4(-0.021155104, 0.07440132, -0.06681412, -0.20775446, 0.053573515, 0.007910367, -0.26769453, -0.15753269, 0.24886242, -0.004493456, 0.023437606, 0.13257046, 0.104298666, 0.14052817, -0.29093856, 0.006735399) * go_2(1.0, 1.0);
result += mat4(-0.1299053, 0.21084401, 0.07395335, 0.025556391, -0.012464804, 0.090624444, -0.1041891, 0.03487812, -0.012958428, -0.22729388, 0.06259986, -0.1693054, -0.12679845, -0.15950051, -0.13191415, 0.1125045) * go_3(-1.0, -1.0);
result += mat4(0.1916771, -0.02030791, -0.2001191, 0.01943065, -0.18369348, -0.054252382, -0.11485618, -0.16434757, 0.0587951, 0.15208498, -0.1752913, 0.03718008, -0.07597363, -0.21144252, -0.049415894, -0.010295923) * go_3(-1.0, 0.0);
result += mat4(-0.044603452, 0.019383559, -0.24661145, -0.12994917, 0.12697428, -0.13032277, -0.15293793, -0.03483303, -0.104321085, 0.04012559, 0.037243072, 0.079595305, -0.12313407, 0.118987724, 0.038709577, 0.09531991) * go_3(-1.0, 1.0);
result += mat4(-0.021859067, 0.009060085, 0.19879933, 0.21082644, -0.07705756, 0.10045584, -0.075999945, 0.15191688, -0.12042984, -0.11578441, 0.29679164, -0.23787339, 0.1087794, -0.1419117, -0.22779143, 0.12054577) * go_3(0.0, -1.0);
result += mat4(0.16636065, 0.21066229, -0.06262401, 0.051833395, 0.05992027, 0.014294402, -0.13363211, -0.11139326, -0.026526988, -0.2071816, -0.03000262, -0.08924753, 0.0979992, -0.08312352, -0.016549548, -0.034920745) * go_3(0.0, 0.0);
result += mat4(0.099836424, -0.19452114, 0.07249264, -0.025459828, 0.12210845, -0.15024027, -0.06490785, -0.080187015, -0.009426102, 0.15876383, -0.19070506, 0.12257102, 0.04862195, 0.0707773, -0.24345201, -0.103591055) * go_3(0.0, 1.0);
result += mat4(-0.039747223, 0.07834283, 0.13246708, -0.021774938, -0.05476214, 0.07021812, 0.0134778535, 0.003289531, 0.11907656, 0.04191671, 0.04860092, -0.041503876, -0.040156245, -0.21329322, 0.2024782, 0.067827046) * go_3(1.0, -1.0);
result += mat4(-0.036722995, 0.12776081, 0.14014143, 0.09107308, 0.18742307, -0.099873625, -0.13149267, -0.18590397, -0.067778006, 0.16363877, -0.007999648, 0.13500053, 0.23733437, 0.16123019, 0.23561893, 0.0365712) * go_3(1.0, 0.0);
result += mat4(0.023911275, -0.03754323, 0.17444386, 0.08616114, 0.21406639, -0.15029684, 0.09355591, -0.2486941, 0.11913366, -0.16174106, -0.10907662, 0.107935205, -0.20745984, -0.06180981, -0.019558005, -0.24215329) * go_3(1.0, 1.0);
result += vec4(-0.16255508, -0.041602854, 0.09628627, 0.12747966);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf1
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.14002717, 0.058876935, 0.20110254, 0.08939276, 0.03416418, 0.0011943586, 0.042772148, -0.00071322336, -0.115944035, 0.04220234, -0.34941152, -0.01974448, -0.0860279, 0.062355816, -0.023853427, 0.02757322) * go_0(-1.0, -1.0);
result += mat4(0.07400734, 0.19251242, 0.22637455, -0.12530822, -0.17724502, -0.022523593, -0.15113536, 0.065425, 0.101782374, -0.014717139, -0.098752305, 0.080687046, -0.1023507, 0.019614108, 0.01754361, 0.017383952) * go_0(-1.0, 0.0);
result += mat4(-0.044900224, -0.04213899, 0.0073328684, 0.16705592, -0.051043745, -0.115500204, -0.07567362, 0.07818187, 0.26050508, 0.20679274, 0.04177571, 0.059024576, -0.12510507, -0.051585447, -0.007354538, 0.041514263) * go_0(-1.0, 1.0);
result += mat4(0.19596866, -0.085393354, 0.03522195, 0.070734546, -0.10047298, 0.033123884, -0.030003218, -0.060309574, 0.11121212, 0.038920198, -0.09097313, 0.020515997, 0.082481235, 0.08472773, -0.007372676, 0.020294813) * go_0(0.0, -1.0);
result += mat4(-0.08415041, -0.2041298, -0.0834695, -0.18762465, 0.26823425, -0.029255247, 0.21203867, 0.01842292, 0.17127061, -0.14378369, 0.18486983, 0.040807612, 0.053938765, -0.0033184371, 0.021192972, -0.28285155) * go_0(0.0, 0.0);
result += mat4(-0.071444504, -0.16073905, 0.03151272, 0.31961456, -0.09696413, -0.14652419, 0.012872177, 0.036853626, 0.055909842, 0.023814479, 0.12539348, 0.40904784, 0.065472044, -0.04875745, -0.012401859, 0.055437304) * go_0(0.0, 1.0);
result += mat4(-0.020927057, -0.23479983, -0.073076054, -0.019441728, 0.08953939, 0.00085565075, 0.061437223, -0.0912304, 0.088546015, -0.009464413, -0.21220255, -0.13741408, 0.049379412, -0.059064344, 0.019205336, -0.11340151) * go_0(1.0, -1.0);
result += mat4(0.091714375, -0.17525947, 0.10243093, 0.037679292, 0.062438603, -0.05920895, -0.041936304, -0.030830177, 0.15641114, -0.13261372, -0.021079037, -0.036029477, 0.051840104, 0.07784452, 0.024798041, -0.079719625) * go_0(1.0, 0.0);
result += mat4(0.09153048, 0.09966556, -0.10249195, 0.062159285, -0.041912418, -0.22329834, 0.06683857, -0.07287391, -0.1276734, -0.108105786, -0.076660454, -0.07083524, 0.115786545, 0.043516885, 0.032041304, 0.058955755) * go_0(1.0, 1.0);
result += mat4(0.13925591, 0.18807505, 0.19418481, 0.13057134, -0.18483852, 0.07704087, -0.25748852, -0.008577424, 0.0165214, 0.03893396, 0.081021786, -0.19419926, 0.21641012, 0.047428373, -0.08350786, -0.14157358) * go_1(-1.0, -1.0);
result += mat4(-0.06301399, -0.10051874, 0.050919298, -0.011019032, -0.09310829, -0.09138247, -0.16847654, 0.059362046, 0.09107295, 0.06165534, -0.14288484, -0.09833287, 0.116363674, 0.20607105, 0.28841344, -0.09095499) * go_1(-1.0, 0.0);
result += mat4(-0.21624683, -0.01876206, 0.008987255, 0.17512046, -0.07461909, 0.124108806, -0.054439757, 0.0063252384, -0.24328436, 0.12330878, -0.09306248, -0.046553027, 0.07773235, 0.08965016, 0.0025699693, 0.06252218) * go_1(-1.0, 1.0);
result += mat4(0.17797774, -0.0768457, -0.06500614, 0.010914941, 0.052788664, 0.10169022, -0.11962388, -0.10176263, -0.52695477, 0.10339165, 0.12893896, 0.016989866, -0.070845306, 0.011061218, -0.033032518, 0.13843493) * go_1(0.0, -1.0);
result += mat4(0.4498575, 0.3626344, -0.18857695, 0.12901132, 0.050753895, 0.03323978, -0.15807427, 0.050633483, -0.35924155, 0.13558777, 0.07132256, -0.20883714, 0.23128356, 0.2943383, 0.011521201, -0.21517687) * go_1(0.0, 0.0);
result += mat4(-0.007034323, -0.08821435, -0.1275898, -0.15626103, 0.1458542, 0.26724494, -0.118883595, -0.0062981425, 0.07331739, -0.061295208, -0.008509335, -0.012484612, -0.010828551, -0.11301564, -0.078878716, -0.07692456) * go_1(0.0, 1.0);
result += mat4(-0.17712432, 0.020956295, 0.118008055, 0.09609794, 0.22146885, 0.20994097, -0.11431106, -0.10710715, -0.15350081, 0.118692145, -0.028190786, 0.021440385, 0.053412, -0.06350743, -0.03998433, 0.061913643) * go_1(1.0, -1.0);
result += mat4(-0.07220576, 0.21927893, 0.029267995, 0.107059665, 0.114823125, -0.115261756, -0.18801664, 0.04473252, -0.055653024, 0.11297751, 0.15545851, -0.012991604, 0.1803409, 0.1982345, -0.07486266, -0.09845943) * go_1(1.0, 0.0);
result += mat4(-0.0855076, 0.014239223, 0.15630183, 0.21274531, -0.24398185, -0.039692834, -0.167163, 0.09103569, 0.029505143, 0.0986762, 0.015726546, 0.015572646, 0.16977786, -0.08617271, 0.13340445, -0.14292516) * go_1(1.0, 1.0);
result += mat4(-0.07120758, -0.1391182, -0.12895927, -0.05497231, 0.017502422, 0.21387358, 0.11369438, -0.09802215, 0.23512627, -0.18750496, 0.3741736, 0.07218814, 0.050294157, -0.03545248, 0.1803603, -0.05216715) * go_2(-1.0, -1.0);
result += mat4(-0.031216163, 0.26304567, -0.22097221, 0.0057130447, 0.05476227, 0.048769098, 0.11701435, -0.08043882, 0.121324, -0.07633719, 0.019091062, 0.1056272, 0.19340484, -0.11655276, -0.06859909, -0.20875669) * go_2(-1.0, 0.0);
result += mat4(-0.1303287, 0.23683752, -0.14536002, -0.12238158, -0.024545986, -0.09032069, 0.03192402, -0.22449107, 0.2297885, 0.02040227, 0.00034511733, -0.0878228, 0.184152, -0.070972465, -0.010276752, -0.1974931) * go_2(-1.0, 1.0);
result += mat4(-0.345411, -0.088238314, -0.020721637, -0.19773935, -0.08967216, 0.11257784, 0.11590796, 0.047473334, 0.20315827, 0.08028863, -0.053076692, 0.04220213, 0.0463197, -0.11993164, 0.17273119, -0.10105775) * go_2(0.0, -1.0);
result += mat4(0.01774352, -0.029116748, -0.070671946, 0.03868912, -0.23905252, 0.122819565, -0.13782008, -0.11386684, -0.15104173, 0.06922476, -0.40653947, -0.041311335, 0.03382718, 0.17504995, 0.19865142, 0.20958701) * go_2(0.0, 0.0);
result += mat4(0.019477593, -0.13480781, -0.15261935, -0.29111782, -0.009433358, 0.07510615, -0.07673836, -0.092863046, -0.15928364, -0.18979515, 0.23357031, -0.096665405, 0.017931713, 0.15517262, -0.045679327, -0.13043073) * go_2(0.0, 1.0);
result += mat4(0.009786184, 0.23618346, 0.08964326, -0.07550377, -0.21214269, 0.008612741, 0.012998613, 0.08797401, 0.16580902, 0.018369747, 0.31754863, 0.094271086, -0.3186572, 0.013351233, -0.04407326, 0.0920314) * go_2(1.0, -1.0);
result += mat4(-0.025626086, 0.09697167, -0.013395247, -0.080764554, -0.19025484, 0.25081167, -0.008351234, 0.009649054, -0.045282297, 0.02762338, 0.09182815, -0.015618593, -0.24248622, -0.0027028685, -0.026439957, 0.06903493) * go_2(1.0, 0.0);
result += mat4(0.15144084, 0.09893225, 0.18078536, -0.40492618, 0.006812688, 0.20841157, -0.052535042, -0.03471349, 0.07722477, 0.18913163, 0.06806257, 0.13268931, -0.23726766, -0.06573527, -0.07974115, 0.00016083609) * go_2(1.0, 1.0);
result += mat4(-0.22123417, 0.043395992, -0.075050056, 0.040263254, 0.05219495, -0.10119571, 0.06624045, 0.006088249, -0.02443482, 0.22211014, 0.11706287, 0.09821594, -0.26269525, -0.045644283, 0.1594094, 0.05119857) * go_3(-1.0, -1.0);
result += mat4(-0.1359838, 0.085772105, -0.14989698, 0.22662053, -0.13730896, 0.13598563, -0.22069088, -0.049138095, -0.11819638, 0.00615722, 0.22080155, -0.18276499, 0.13765272, 0.026108319, -0.16875726, -0.04851573) * go_3(-1.0, 0.0);
result += mat4(-0.23633143, -0.04675013, 0.13207665, 0.17955893, -0.057579413, -0.007248268, -0.11771674, 0.053317282, 0.06935881, -0.07843104, -0.051989514, -0.101527795, 0.030873962, 0.05374762, 0.15865721, -0.11873757) * go_3(-1.0, 1.0);
result += mat4(-0.17574823, 0.116152145, 0.038584445, 0.06896235, 0.045519844, -0.003343947, -0.18241419, -0.0559283, 0.1285456, -0.06100108, 0.072168864, 0.2383614, 0.06786445, -0.110831186, 0.0017635048, -0.11216164) * go_3(0.0, -1.0);
result += mat4(-0.22214325, -0.16752025, 0.39590892, 0.0366774, -0.09062008, 0.04298391, -0.2098661, -0.007913526, 0.27807632, -0.0072328355, -0.123739436, 0.017585058, -0.0792693, -0.012500297, -0.0028807693, -0.0010119011) * go_3(0.0, 0.0);
result += mat4(0.014059116, 0.19940482, 0.16831028, 0.16160843, -0.23937507, -0.0070899655, 0.05102661, 0.14583974, 0.04344956, 0.21863829, 0.014209773, -0.063842624, -0.19981036, 0.09243793, 0.24139273, 0.11667779) * go_3(0.0, 1.0);
result += mat4(0.16715737, -0.09880053, 0.00053459726, -0.08722921, -0.050105397, -0.01993378, -0.15830508, -0.028736366, -0.03423738, -0.13328381, -0.1851269, 0.012596559, 0.16408625, 0.10486815, -0.011303046, -0.025475042) * go_3(1.0, -1.0);
result += mat4(0.118060954, -0.24267668, -0.0098548755, -0.04774737, -8.479728e-05, 0.11292645, -0.05507332, -0.20990159, -0.16743746, -0.17963362, -0.14095132, 0.19843975, -0.032164577, -0.21628135, -0.12668937, -0.008645119) * go_3(1.0, 0.0);
result += mat4(0.11424831, -0.19821498, 0.016948126, 0.0033053497, 0.24253003, 0.24522384, -0.13992928, 0.08576702, -0.15157521, -0.08158828, 0.07676344, -0.08844756, -0.02293248, -0.052961793, 0.08597288, -0.07834255) * go_3(1.0, 1.0);
result += vec4(-0.07366732, -0.06278686, 0.11547288, -0.04786791);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.012843345, 0.047590222, 0.0052741203, 0.017328946, 0.06774971, -0.028615275, 0.030839639, 0.053735327, -0.093057916, 0.08288735, 0.02991863, -0.040167376, 0.11699043, 0.062987246, 0.038180597, 0.11130321) * go_0(-1.0, -1.0);
result += mat4(0.047898952, 0.013089616, 0.13206771, 0.053474475, -0.24849094, -0.13717765, -0.14899106, 0.032647215, -0.111574546, -0.017941473, 0.017136412, -0.04121033, 0.04825172, -0.07243479, -0.30205736, -0.009043054) * go_0(-1.0, 0.0);
result += mat4(-0.006104078, -0.056147296, -0.05430816, -0.012150009, -0.12583707, -0.06810525, -0.18965304, -0.03767409, 0.038220566, 0.12901759, 0.14772348, -0.011318772, 0.10613474, -0.011039028, -0.017407915, -0.035597485) * go_0(-1.0, 1.0);
result += mat4(0.070510425, 0.07079898, 0.063229784, 0.12203576, -0.08330366, 0.14733653, 0.1879776, 0.038365003, -0.112844236, 0.039776023, 0.1109856, -0.013311713, -0.039772045, 0.055393253, 0.13704132, -0.017909162) * go_0(0.0, -1.0);
result += mat4(0.01609076, 0.29408732, -0.27179766, 0.06092111, 0.22690177, -0.16917813, -0.3125674, -0.059012905, -0.095299855, -0.07046006, -0.03500062, 0.14539354, -0.031449903, -0.020992422, 0.11367832, -0.16279401) * go_0(0.0, 0.0);
result += mat4(-0.014307108, 0.066424, -0.10264224, 0.03198627, 0.1848716, 0.0827183, 0.055873994, -0.08671376, -0.09059771, -0.0033756928, 0.015373264, 0.1482131, -0.22886358, 0.14303732, 0.060101535, -0.056595195) * go_0(0.0, 1.0);
result += mat4(-0.085188106, 0.07173675, 0.112149395, 0.12051379, -0.008070544, 0.17174324, 0.09781431, 0.15725529, -0.11921908, -0.026167218, 0.0726004, 0.1150364, 0.07129521, 0.08404156, -0.06052682, -0.024796983) * go_0(1.0, -1.0);
result += mat4(-0.118749954, 0.21372789, 0.1825785, 0.12766796, -0.20407347, -0.31983793, 0.06569954, 0.061804183, -0.1381503, -0.2288562, 0.010778781, 0.046662748, 0.09632992, -0.0007208436, 0.042766806, -0.008586152) * go_0(1.0, 0.0);
result += mat4(-0.08471548, 0.11370638, 0.044628102, 0.21962023, -0.1537214, 0.018495824, -0.10132307, 0.055931155, -0.19381963, -0.029650096, -0.12020838, 0.14787269, 0.10709368, 0.091088474, -0.08593706, 0.02723246) * go_0(1.0, 1.0);
result += mat4(0.023070067, 0.047927327, -0.0039206124, 0.044357426, 0.078707196, -0.02090998, 0.061532218, -0.01990171, -0.0010075673, -0.02985451, -0.013571645, 0.072454736, -0.08910195, 0.08069201, 0.021186491, -0.015898732) * go_1(-1.0, -1.0);
result += mat4(0.19465011, -0.099643335, -0.13729279, -0.01785864, 0.07081408, -0.03980578, -0.055030484, -0.007838133, 0.02866604, 0.047467582, 0.0021829177, -0.0085278815, -0.14039196, 0.14613628, -0.08654854, 0.091417976) * go_1(-1.0, 0.0);
result += mat4(0.2008973, -0.055368304, -0.11570937, -0.020534834, 0.029072378, 0.057559345, -0.12295086, -0.093348056, -0.032486536, -0.024021279, -0.03250597, 0.03629745, -0.08590457, -0.037932087, -0.21787491, 0.06611054) * go_1(-1.0, 1.0);
result += mat4(0.0013978226, 0.12190444, -0.1388371, 0.053365257, 0.06383916, -0.16512986, 0.020202242, -0.05118216, -0.022544125, 0.022348702, -0.04619122, -0.007816115, 0.16181955, -0.087810166, -0.017245274, 0.2592078) * go_1(0.0, -1.0);
result += mat4(-0.29257166, 0.18668509, 0.39435357, -0.015695287, 0.052169085, 0.08033462, -0.06759564, 0.15172167, -0.07392426, 0.08598093, -0.099814445, 0.16442427, -0.23507537, 0.00095621345, 0.09456823, 0.35083038) * go_1(0.0, 0.0);
result += mat4(0.09508197, -0.10668374, 0.07861556, -0.18495509, -0.012995353, 0.10549121, 0.20355113, 0.02486487, -0.0010891877, 0.0013024746, 0.040683478, 0.09813279, -0.25718254, -0.080950156, -0.20833632, -0.011176342) * go_1(0.0, 1.0);
result += mat4(0.04636551, 0.01815646, -0.061344985, 0.16105172, 0.018154364, 0.08175996, 0.02177905, 0.05214974, 0.056760095, 0.056198932, -0.01944339, 0.10342066, 0.037774805, -0.098509185, -0.050058816, 0.22327778) * go_1(1.0, -1.0);
result += mat4(0.3342538, 0.24596402, -0.05070882, -0.1629279, -0.0605624, -0.31846803, -0.030116247, 0.14499578, 0.23033214, 0.100796476, -0.11549748, 0.13272488, 0.09768287, -0.08599002, -0.18570031, -0.095745035) * go_1(1.0, 0.0);
result += mat4(0.017806288, 0.03143078, 0.1363342, -0.018307902, 0.036575943, -0.04645106, -0.13187204, -0.019356936, 0.08177283, 0.14059572, -0.026990665, -0.025628868, 0.089009784, -0.054094527, -0.10889895, -0.08352851) * go_1(1.0, 1.0);
result += mat4(-0.10441912, 0.06942166, 0.021075722, 0.022823252, 0.14455585, -0.10067584, -0.006786432, -0.15945506, 0.051149122, -0.051351603, -0.012551037, 0.017784216, -0.030743994, 0.06534117, -0.05894921, -0.007193482) * go_2(-1.0, -1.0);
result += mat4(-0.105177015, 0.12079406, -0.021824203, 0.0051873215, 0.09426312, 0.0872351, 0.042457238, -0.027718134, -0.04744092, -0.036118995, -0.088347785, 0.025714433, -0.0033455554, 0.0052299164, 0.14114419, -0.23041077) * go_2(-1.0, 0.0);
result += mat4(-0.10924918, 0.07170065, 0.15847342, 0.045235954, 0.01170718, 0.09113452, 0.155801, 0.012455027, 0.0091770645, -0.071032606, -0.06911904, -0.0078831315, 0.27796802, -0.08136213, 0.20615137, -0.22055252) * go_2(-1.0, 1.0);
result += mat4(0.02993543, -0.011065637, 0.015992155, -0.106134124, -0.26578894, 0.16489314, 0.0020848098, 0.12432517, -0.14845847, 0.11076599, -0.015617476, 0.12498255, 0.009672752, -0.013014179, 0.10577515, 0.02908296) * go_2(0.0, -1.0);
result += mat4(-0.0728776, -0.14159116, 0.105368264, -0.016262107, -0.14621304, -0.0007887494, 0.14413477, 0.11337385, -0.1769697, -0.1076886, 0.08036942, 0.10428512, 0.10336065, -0.15257628, 0.05553209, 0.12439473) * go_2(0.0, 0.0);
result += mat4(-0.067323305, 0.23115864, 0.0817162, 0.13127932, 0.02427729, 0.01246805, 0.021550559, 0.066352196, -0.014213087, -0.022559473, 0.058270242, -0.069260366, -0.1949913, 0.27712336, -0.020843407, 0.16199547) * go_2(0.0, 1.0);
result += mat4(-0.06066066, 0.009365795, -0.005817299, 0.016661849, 0.032292802, 0.10364246, -0.105340734, -0.040422246, 0.0028520338, 0.10786728, 0.041312158, 0.0634878, -0.10283239, -0.13716424, 0.2013461, -0.14106691) * go_2(1.0, -1.0);
result += mat4(-0.14796652, 0.042259417, -0.08663438, 0.09733461, -0.044074174, 0.24739462, 0.04777009, -0.026686348, 0.0027458945, 0.043400105, -0.11496284, 0.08113486, -0.33933377, 0.046819236, -0.12803015, 0.006137677) * go_2(1.0, 0.0);
result += mat4(-0.07903079, -0.009489394, 0.018812884, -0.031424083, 0.14344518, 0.08629371, 0.123602144, 0.045581687, 0.102321856, 0.07221763, 0.14465447, -0.23171869, -0.1145046, -0.088674895, -0.08679749, -0.20322132) * go_2(1.0, 1.0);
result += mat4(-0.09741677, 0.0010184142, -0.06932825, 0.044964395, 0.03060611, 0.11817057, 0.04148144, 0.000755089, 0.018646225, -0.1362759, 0.045627713, -0.01720389, -0.013920286, 0.0041473205, 0.023480741, -0.00036270308) * go_3(-1.0, -1.0);
result += mat4(-0.047821313, 0.15457056, 0.081069574, -0.061125267, -0.003727664, -0.03735384, -0.00673114, -0.0585745, -0.14427665, 0.21584798, 0.17612408, 0.03723236, 0.09688153, 0.0071055717, 0.0704578, -0.008490558) * go_3(-1.0, 0.0);
result += mat4(0.005648931, -0.021415008, 0.07515239, 0.024656001, 0.14356652, -0.09023091, -0.092833556, -0.11933706, -0.17543222, -0.31645912, -0.14794292, -0.10830711, 0.046658885, -0.13449514, -0.032724228, -0.07927336) * go_3(-1.0, 1.0);
result += mat4(-0.012330256, 0.030906612, 0.009849825, 0.16186711, 0.105316125, 0.1066287, 0.007410255, 0.08471377, -0.06755245, 0.2835302, 0.06922882, 0.18501134, -0.10781668, -0.021025939, -0.057754997, -0.19532007) * go_3(0.0, -1.0);
result += mat4(0.09254016, 0.21572222, -0.250398, -0.017990865, 0.10726608, -0.13617107, 0.06726572, -0.17355372, 0.07552837, -0.01980061, 0.10523871, -0.062427603, -0.1769102, 0.35534126, -0.22155605, -0.13921477) * go_3(0.0, 0.0);
result += mat4(0.0054315915, 0.028563919, -0.030617325, 0.12851912, 0.0020591016, -0.07287573, -0.15371658, -0.3468236, 0.042036943, -0.19993319, -0.1311562, -0.11087494, -0.033534657, -0.049439076, 0.07299748, 0.049393892) * go_3(0.0, 1.0);
result += mat4(0.04817828, 0.009956909, 0.08608736, -0.04149299, 0.07101367, -0.03388178, 0.08030968, -0.032450564, 0.14994971, -0.006995002, 0.13461865, -0.061656967, -0.044900555, -0.05698395, 0.07130313, -0.17835349) * go_3(1.0, -1.0);
result += mat4(0.09259944, -0.1760367, -0.05008204, 0.12799591, 0.10526596, 0.25768888, 0.11187724, -0.06537007, 0.11869906, -0.30243787, 0.1930932, -0.13290296, 0.017331708, 0.04682896, 0.02930385, 0.15250616) * go_3(1.0, 0.0);
result += mat4(-0.01343636, -0.015147329, -0.12101166, 0.04787181, 0.088516094, -0.0716172, 0.012281597, -0.01175244, -0.036102388, -0.16996604, 0.0068835146, 0.16938321, -0.019361602, -0.07008898, -0.111906745, -0.008676077) * go_3(1.0, 1.0);
result += vec4(0.03128986, -0.070663765, -0.056307543, -0.043389197);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf1
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.010251427, -0.045750465, 0.016315231, -0.008768869, 0.017431414, 0.080067836, 0.025827147, 0.10838066, 0.0024869177, -0.034495536, 0.09772538, 0.07213915, 0.016637174, 0.040788822, -0.022752339, 0.10970543) * go_0(-1.0, -1.0);
result += mat4(0.11526194, 0.09676918, -0.04237834, -0.2271947, 0.12261753, -0.24500768, 0.10468346, 0.13780572, -0.009849901, 0.023189532, 0.0011982447, 0.04185303, 0.045187697, 0.06505389, 0.096869685, -0.1784324) * go_0(-1.0, 0.0);
result += mat4(0.04672689, 0.13536161, -0.1818021, -0.20668268, 0.07533596, -0.032177944, -0.024819814, 0.036118865, 0.012960037, -0.04256549, 0.03154665, 0.10697645, 0.0455828, 0.15624708, 0.0880299, -0.044446476) * go_0(-1.0, 1.0);
result += mat4(-0.03187084, -0.04798656, 0.05435525, -0.060023244, -0.02988392, -0.13252808, -0.13699181, -0.013882888, 0.052836955, -0.051288467, -0.048392758, -0.02818318, -0.045959223, -0.0385304, -0.113381095, 0.048340388) * go_0(0.0, -1.0);
result += mat4(0.06799445, -0.32721373, 0.09433875, -0.24025385, 0.0029125893, -0.029136823, 0.01100064, -0.12017942, -0.12278812, -0.0646935, 0.009398038, -0.021518359, 0.008572816, 0.15084247, -0.22798048, -0.027803216) * go_0(0.0, 0.0);
result += mat4(0.14571115, 0.24804439, 0.13177192, -0.1820655, -0.0030899157, -0.11837261, 0.14447895, 0.11825037, 0.083688706, 0.13209106, 0.051847935, -0.27009267, -0.030820336, 0.15591313, 0.00807933, 0.08577916) * go_0(0.0, 1.0);
result += mat4(0.07043623, -0.006127145, -0.16473344, -0.091646075, 0.12019198, 0.02408659, 0.038805984, 0.043282606, 0.09853516, -0.03085117, -0.13666795, 0.057578508, 0.023477113, -0.050639734, 0.05486259, 0.10117338) * go_0(1.0, -1.0);
result += mat4(0.07739963, 0.019718317, -0.17859067, -0.107660785, 0.07235146, -0.08198499, -0.13072458, 0.0808431, -0.09421921, -0.024668563, 0.058651946, 0.058679227, -0.041750733, 0.07785575, 0.0375434, -0.11090677) * go_0(1.0, 0.0);
result += mat4(0.13032761, 0.2291367, -0.1677081, -0.22246332, 0.03946319, 0.0063910848, 0.09128152, 0.0013804171, -0.034065075, -0.058277655, 0.052419346, -0.030012188, 0.018556409, -0.07521306, 0.12746032, 0.0899423) * go_0(1.0, 1.0);
result += mat4(-0.14820024, 0.03316697, 0.074021704, 0.0349015, -0.028731624, -0.03655249, 0.041885335, 0.025598902, -0.007544352, -0.058063164, 0.030487465, -0.073317364, -0.033130456, -0.17607957, 0.0020156964, 0.15351814) * go_1(-1.0, -1.0);
result += mat4(-0.33111712, 0.11070417, -0.11759775, 0.12881225, -0.10840586, -0.114877716, 0.026571346, 0.01617625, 0.0028098845, 0.07325011, -0.008114658, 0.11581408, 0.0040087802, 0.15237121, 0.10423624, 0.010486565) * go_1(-1.0, 0.0);
result += mat4(-0.14014785, 0.03670812, 0.041663505, -0.25026393, -0.05651376, -0.009220771, 0.18786587, 0.11221872, -0.0045316, -0.0781469, 0.09609792, -0.077175744, 0.15113525, 0.14979461, -0.003579166, -0.097722545) * go_1(-1.0, 1.0);
result += mat4(0.005191016, -0.05746076, 0.14736177, -0.37837118, -0.116905205, 0.035447106, -0.1389216, -0.06583864, 0.08867301, -0.027591052, 0.020395119, -0.067704394, -0.078146204, 0.21156693, -0.24100207, -0.34081197) * go_1(0.0, -1.0);
result += mat4(0.3395633, -0.16366479, -0.16501908, 0.19205959, -0.1203106, 0.1201394, 0.059141878, 0.024588805, 0.0106182005, -0.007498128, -0.13781549, -0.031079333, 0.45373476, -0.019419974, -0.029461615, -0.109356895) * go_1(0.0, 0.0);
result += mat4(-0.20302778, 0.023634301, 0.0037064455, 0.23106048, -0.14157735, 0.115462445, -0.10275177, -0.05708588, 0.0066573587, -0.14406916, -0.029837208, 0.056612004, -0.036978997, 0.07784742, -0.009329581, 0.11628078) * go_1(0.0, 1.0);
result += mat4(-0.050052032, 0.061341796, -0.108812004, -0.27657855, 0.07106667, -0.062498234, 0.08073948, 0.18898413, -0.005880379, -0.031624768, 0.0334547, 0.10361753, -0.18414119, -0.070826136, 0.027453694, 0.022999335) * go_1(1.0, -1.0);
result += mat4(0.014818375, 0.17337285, 0.10936815, -0.030657725, -0.08041041, 0.022390872, 0.0053962595, 0.090021096, 0.05470518, 0.014654071, 0.06899392, -0.03431451, 0.05177294, -0.13493995, -0.055468578, -0.19131596) * go_1(1.0, 0.0);
result += mat4(0.08200318, -0.10802187, -0.075451784, 0.006642357, -0.041665014, -0.05528946, 0.1799087, -0.07113583, -0.016218789, -0.12353001, -0.034801062, 0.06995437, 0.013318846, -0.16708943, 0.17779571, 0.20705931) * go_1(1.0, 1.0);
result += mat4(0.10754426, -0.03437161, -0.089123115, -0.12592112, -0.09719291, 0.042339396, -0.02457928, -0.10472151, -0.031175358, -0.06077806, -0.025603233, 0.0030798917, 0.0302328, -0.011108347, -0.08815118, -0.11247357) * go_2(-1.0, -1.0);
result += mat4(-0.03634052, -0.0752815, -0.032257803, -0.020932812, -0.01030603, 0.05347118, -0.013455479, -0.1528448, 0.11631174, 0.017359301, 0.0053947037, -0.10187295, -0.034056764, -0.06371101, 0.10579902, 0.06297638) * go_2(-1.0, 0.0);
result += mat4(0.0026892002, -0.09832557, 0.07002896, 0.17336288, 0.017382741, 0.0868499, 0.024310237, 0.1024202, 0.016445315, -0.096997134, -0.05655256, -0.03888035, -0.23449722, 0.004868548, -0.046150357, 0.16268611) * go_2(-1.0, 1.0);
result += mat4(-0.08197917, 0.06499742, 0.044401966, 0.119590975, 0.17058893, 0.003096477, 0.073047325, -0.2325016, 0.20562899, 0.06886438, -0.10150125, -0.09421983, -0.026852611, 0.11638924, -0.2897435, 0.10056706) * go_2(0.0, -1.0);
result += mat4(0.05599001, 0.20881969, 0.057560008, 0.03211348, 0.07353149, 0.10849278, -0.04358825, -0.07277266, 0.19414866, 0.084341206, -0.054937962, -0.19548011, -0.1875029, -0.13233592, 0.247698, 0.054934226) * go_2(0.0, 0.0);
result += mat4(0.006909254, -0.043635696, -0.0420242, 0.0029297285, -0.011208758, 0.10583326, -0.039475866, -0.091568366, -0.11034183, -0.2710617, -0.15182555, 0.27160573, 0.029486256, -0.17993683, 0.10480137, -0.031949393) * go_2(0.0, 1.0);
result += mat4(0.012359864, -0.024621721, -0.066488825, -0.041012418, 0.0008418082, -0.034133818, 0.1275645, -0.22584224, 0.04127642, 0.021086683, -0.055507325, 0.017740795, -0.10207868, -0.02459281, -0.16278388, 0.2084072) * go_2(1.0, -1.0);
result += mat4(0.07907339, -0.08811312, -0.043821383, -0.12781687, -0.014701197, -0.08600121, -0.07344954, -0.06233793, 0.13561183, 0.17435691, -0.25248256, -0.18915577, 0.11731138, -0.076414265, 0.011668736, -0.24489906) * go_2(1.0, 0.0);
result += mat4(0.015452916, -0.1093781, -0.031768844, -0.049816687, 0.087654404, 0.083113015, -0.11759004, -0.02852037, 0.0119902035, -0.12981133, -0.043321397, 0.30873615, 0.16349368, 0.0475539, -0.12394514, 0.012860273) * go_2(1.0, 1.0);
result += mat4(0.024975974, 0.14167881, -0.03849521, 0.092395015, -0.14491238, -0.024630755, 0.1262065, 0.22724074, -0.088403955, 0.069909796, -0.1582284, -0.06366643, 0.03808985, 0.055002328, 0.046191234, -0.15073699) * go_3(-1.0, -1.0);
result += mat4(0.040616892, -0.05149903, 0.07913543, -0.12622666, 0.012306014, -0.0072504813, 0.09324519, 0.013837971, 0.033986375, 0.09466625, -0.11271816, 0.06514161, 0.008318977, 0.2319992, -0.23813216, -0.064383216) * go_3(-1.0, 0.0);
result += mat4(0.0058016274, 0.07342614, -0.02532061, 0.046294674, -0.14704724, -0.09635743, 0.011660911, -0.028665043, 0.07488793, 0.049912058, -0.23186599, -0.12174707, -0.078130014, -0.17273565, 0.009148666, 0.042669322) * go_3(-1.0, 1.0);
result += mat4(0.02457923, 0.06036786, -0.08706319, 0.011597113, 0.0027447701, 0.12410346, 0.07509643, 0.23769653, 0.055913534, -0.030516708, 0.090205066, 0.005610863, -0.0037265806, -0.06458783, 0.08390646, 0.03704848) * go_3(0.0, -1.0);
result += mat4(-0.24644387, 0.09733959, 0.15941189, -0.039000493, -0.34143484, -0.10905996, 0.123846896, -0.025850125, 0.22231472, -0.074195, 0.17869541, 0.007901206, -0.07893139, -0.0031443893, -0.2252749, 0.020515904) * go_3(0.0, 0.0);
result += mat4(0.046822242, 0.19209228, 0.10584968, -0.20782734, 0.020917192, 0.064485386, 0.022432446, 0.0021164739, 0.053817958, 0.2291973, 0.15079306, -0.18283905, 0.090974085, 0.24965459, -0.11586238, -0.1068585) * go_3(0.0, 1.0);
result += mat4(-0.018472567, -0.09019175, -0.0014198436, 0.11438912, -0.18806975, 0.017498987, 0.06471353, -0.11078878, -0.09412236, -0.11218875, 0.077031404, -0.18779173, -0.025784107, -0.031477705, -0.10906885, 0.074243516) * go_3(1.0, -1.0);
result += mat4(-0.06388332, 0.0813248, 0.1583895, -0.17604364, 0.02474024, 0.09227594, -0.07166613, -0.046409506, -0.20977338, 0.058364637, -0.014288648, 0.23180534, -0.03359222, 0.03962627, -0.011652336, 0.08433068) * go_3(1.0, 0.0);
result += mat4(-0.05829235, -0.026256828, 0.051615473, -0.082805336, 0.06738748, -0.093329325, -0.03197624, 0.067339435, -0.06104219, 0.119381785, 0.10763423, -0.31583574, 0.003745323, 0.14953502, -0.009772352, -0.05511591) * go_3(1.0, 1.0);
result += vec4(-0.014193535, -0.035853464, -0.0019574068, 0.035060503);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(L)-Conv-3x3x3x16
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE MAIN
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.01858372, 0.017144108, 0.02794388, 0.0, 0.0129101565, -0.0073674284, -0.011766938, 0.0, 0.01970984, 0.01209068, 0.009530311, 0.0, -0.009190449, -0.006996753, -0.0038750458, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.15856947, 0.10162126, 0.08489005, 0.0, 0.038381726, -0.017771017, -0.03226132, 0.0, -0.011787879, -0.0152445, -0.007564454, 0.0, 0.055921376, 0.08389841, 0.08452836, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.026705442, -0.0070655374, -0.018199183, 0.0, 0.016254421, -0.025398912, -0.03461042, 0.0, 0.03950644, 0.06586101, 0.0707467, 0.0, -0.03793455, -0.04957139, -0.04777402, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.115341224, -0.04463122, -0.016549354, 0.0, -0.059433736, -0.04303295, -0.042805545, 0.0, 0.010830498, -0.011057443, -0.0141014, 0.0, 0.067396216, 0.06553637, 0.06705378, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.12767975, -0.19935511, -0.20109995, 0.0, 0.11554901, 0.11426503, 0.11161185, 0.0, -0.22092125, -0.22041021, -0.2142712, 0.0, -0.06326996, -0.061314825, -0.059039716, 0.0) * go_0(0.0, 0.0);
result += mat4(0.007717391, -0.046238754, -0.056983955, 0.0, 0.021419598, 0.0036924274, -0.00033630748, 0.0, 0.053556852, 0.0824714, 0.08295022, 0.0, -0.09881205, -0.043157153, -0.040801782, 0.0) * go_0(0.0, 1.0);
result += mat4(0.0052828738, 0.049702674, 0.056108, 0.0, 0.009478552, 0.010345037, 0.0094180945, 0.0, -0.010412882, 0.0006965096, 0.0021917222, 0.0, -0.010701383, -0.023212843, -0.024252625, 0.0) * go_0(1.0, -1.0);
result += mat4(0.07542127, 0.0739301, 0.06642962, 0.0, -0.08054489, -0.037553925, -0.026762033, 0.0, 0.09727509, 0.102272816, 0.097533874, 0.0, 0.01325714, -0.004582272, -0.006647532, 0.0) * go_0(1.0, 0.0);
result += mat4(0.03005975, 0.017012767, 0.007840201, 0.0, -0.028650383, -0.0019064787, 0.01083078, 0.0, -0.071352504, -0.019919744, -0.008299795, 0.0, 0.023253804, 0.042413715, 0.04681489, 0.0) * go_0(1.0, 1.0);
result += mat4(-0.052201163, -0.021727808, -0.020888992, 0.0, 0.008365179, -0.016546093, -0.0111018475, 0.0, -0.06236095, -0.019278256, -0.021443967, 0.0, 0.0029381379, -0.0033039588, -0.006425339, 0.0) * go_1(-1.0, -1.0);
result += mat4(0.02397296, -0.041659098, -0.050882675, 0.0, -0.013487, 0.0067506596, 0.005435185, 0.0, 0.066447854, 0.13331215, 0.13754861, 0.0, 0.028300207, -0.0048033795, -0.010058485, 0.0) * go_1(-1.0, 0.0);
result += mat4(0.08140248, 0.018564016, 0.0036607496, 0.0, -0.0112075955, 0.0022339798, 0.0045722146, 0.0, -0.045716517, -0.0076076477, -0.0016939791, 0.0, -0.030486025, -0.07539711, -0.07185734, 0.0) * go_1(-1.0, 1.0);
result += mat4(-0.0155724995, 0.048904862, 0.059412133, 0.0, -0.013894624, -0.0061430936, -0.011662488, 0.0, -0.0052947477, -0.0176474, -0.018611705, 0.0, 0.022075793, 0.031703226, 0.026735537, 0.0) * go_1(0.0, -1.0);
result += mat4(-0.18287502, -0.18703277, -0.18331653, 0.0, -0.08616293, -0.011741755, -0.009296464, 0.0, -0.054274965, 0.016794622, 0.022522328, 0.0, 0.06965258, 0.08260611, 0.08285337, 0.0) * go_1(0.0, 0.0);
result += mat4(0.08107809, 0.0336241, 0.025449684, 0.0, -0.031931, 0.01179566, 0.019694995, 0.0, 0.025930194, 0.042288166, 0.04673656, 0.0, -0.14357394, -0.11003491, -0.094090074, 0.0) * go_1(0.0, 1.0);
result += mat4(0.007188181, 0.050626095, 0.050705966, 0.0, -0.008030409, -0.018670242, -0.019766346, 0.0, 0.014874803, -0.03657919, -0.034044486, 0.0, -0.011178416, -0.004358302, -0.013611815, 0.0) * go_1(1.0, -1.0);
result += mat4(0.07987872, 0.11399873, 0.12089382, 0.0, -0.01514355, 0.0068139364, 0.010206274, 0.0, -0.0005701044, -0.011158322, 0.006484812, 0.0, 0.002018227, 0.043359682, 0.042987905, 0.0) * go_1(1.0, 0.0);
result += mat4(0.0017806455, -0.0015697709, -0.0018252691, 0.0, 0.0058658062, 0.021681193, 0.028615465, 0.0, -0.054827355, -0.04541651, -0.027485048, 0.0, -0.017649114, 0.017717479, 0.027309911, 0.0) * go_1(1.0, 1.0);
result += mat4(0.02555098, -0.0028983613, -0.005134733, 0.0, -0.0029332284, 0.015552135, 0.022189403, 0.0, -0.019786593, -0.0031676649, -0.0014604586, 0.0, 0.06648065, 0.0672302, 0.04586375, 0.0) * go_2(-1.0, -1.0);
result += mat4(-0.06674696, 0.002328631, 0.014039355, 0.0, -0.03636718, 0.014560653, 0.028076636, 0.0, 0.042305287, 0.015249338, 0.0136925895, 0.0, 0.033586804, 0.00701501, -0.011588751, 0.0) * go_2(-1.0, 0.0);
result += mat4(-0.039022632, 0.015240631, 0.02699061, 0.0, -0.02614261, 0.0051843156, 0.012590042, 0.0, 0.015304643, -0.022641543, -0.030434309, 0.0, 0.016862666, 0.020819275, 0.022333218, 0.0) * go_2(-1.0, 1.0);
result += mat4(0.08056982, 0.026592938, 0.009744146, 0.0, 0.08762212, 0.10150359, 0.09662005, 0.0, -0.044551965, -0.016349116, -0.014629014, 0.0, -0.014341297, -0.030914815, -0.038747486, 0.0) * go_2(0.0, -1.0);
result += mat4(-0.048734166, 0.019775594, 0.03124684, 0.0, -0.2345022, -0.23639877, -0.22958128, 0.0, 0.12412277, 0.10245112, 0.10389806, 0.0, -0.0030797734, -0.01989389, -0.02020691, 0.0) * go_2(0.0, 0.0);
result += mat4(-0.0133485105, 0.029644802, 0.041630358, 0.0, 0.041081797, 0.059993293, 0.060033485, 0.0, -0.02155099, -0.035306025, -0.03838472, 0.0, 0.017466968, -0.01866363, -0.004764589, 0.0) * go_2(0.0, 1.0);
result += mat4(0.0030783121, -0.04064586, -0.04504904, 0.0, -0.023528632, -0.029308239, -0.022441925, 0.0, 0.020095564, 0.018979732, 0.015117934, 0.0, 0.008429918, 0.021180628, 0.020137152, 0.0) * go_2(1.0, -1.0);
result += mat4(0.0012200709, 0.013313984, 0.014122978, 0.0, 0.08750284, 0.038747437, 0.027102578, 0.0, -0.09627132, -0.09706183, -0.09405641, 0.0, -0.05180081, -0.03555434, -0.021694236, 0.0) * go_2(1.0, 0.0);
result += mat4(-0.022396728, -0.018316073, -0.01250564, 0.0, 0.045423746, 0.025315331, 0.010639915, 0.0, 0.05618814, 0.022210265, 0.014195103, 0.0, -0.014828652, -0.010245087, 0.0020570823, 0.0) * go_2(1.0, 1.0);
result += mat4(0.046651457, 0.001333767, -0.003572458, 0.0, -0.0077845114, -0.012861641, -0.015116351, 0.0, 0.01338984, 0.029198132, 0.026183384, 0.0, 0.0014878022, 0.020025207, 0.024829973, 0.0) * go_3(-1.0, -1.0);
result += mat4(-0.09506711, -0.06541528, -0.051106647, 0.0, 0.02552611, 0.01181497, 0.0020236392, 0.0, 0.03234602, -0.03153924, -0.035502207, 0.0, -0.034516744, 0.00018784113, 0.0085376045, 0.0) * go_3(-1.0, 0.0);
result += mat4(-0.05945615, -0.0046793907, 0.011128929, 0.0, -0.0061961384, -0.0040663416, -0.010319631, 0.0, 0.044197917, -0.033448357, -0.04109943, 0.0, -0.04109929, 0.006773195, 0.016976412, 0.0) * go_3(-1.0, 1.0);
result += mat4(0.02855516, -0.033051047, -0.04864978, 0.0, -0.06393814, -0.082921155, -0.0730681, 0.0, -0.058905125, -0.038639963, -0.027698845, 0.0, -0.013616608, -0.007876684, -0.006182652, 0.0) * go_3(0.0, -1.0);
result += mat4(0.15423118, 0.14667909, 0.14534634, 0.0, 0.1485341, 0.096721016, 0.0820024, 0.0, 0.1263968, 0.088775866, 0.083860956, 0.0, 0.04213644, 0.020989005, 0.010447147, 0.0) * go_3(0.0, 0.0);
result += mat4(-0.068275765, -0.018390667, -0.011452603, 0.0, 0.03738383, 0.019398715, 0.005998161, 0.0, -0.0011161854, -0.039955888, -0.04444185, 0.0, 0.052985556, 0.017621813, 0.009551621, 0.0) * go_3(0.0, 1.0);
result += mat4(0.01387326, -0.0033411914, -0.009420935, 0.0, -0.034494568, -0.019219222, -0.009562797, 0.0, 0.0074023325, 0.022065453, 0.027121471, 0.0, 0.00019609048, -0.0042242454, 2.0403608e-05, 0.0) * go_3(1.0, -1.0);
result += mat4(-0.015793918, -0.024342488, -0.037188973, 0.0, 0.004534637, -0.025236975, -0.028567247, 0.0, -0.055682972, -0.054670315, -0.06584981, 0.0, 0.043045517, -0.0075941198, -0.014196169, 0.0) * go_3(1.0, 0.0);
result += mat4(0.0132598495, 0.01775289, 0.017206183, 0.0, 0.010604703, -0.007352816, -0.017301153, 0.0, 0.030967329, 0.027615465, 0.0145311365, 0.0, 0.008636854, -0.033379406, -0.042725433, 0.0) * go_3(1.0, 1.0);
result += vec4(-0.0056639817, -0.0017339308, -0.0011913306, 0.0);
return result + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Restore_CNN_Soft_M.glsl
+275
View File
@@ -0,0 +1,275 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(M)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.073079124, 0.11507942, 0.028201895, -0.021776304, -0.25251916, -0.08662003, 0.38814726, 0.4146095, 0.06326891, 0.01635252, 0.06423356, 0.13488062, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.059791833, -0.03105604, 0.041643705, 0.35197195, -0.17314838, 0.067622855, -0.032012507, 0.09691628, -0.11094062, 0.007625051, 0.094762206, -0.05824145, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.120281175, 0.027440755, -0.026316144, -0.025291128, -0.41698205, -0.05966847, -0.28400028, -0.06946398, -0.10906026, -0.015854035, -0.028724853, -0.06626416, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.068752654, -0.12652585, 0.38200122, 0.17978846, 0.2749825, 0.015504972, 0.21765926, 0.2246602, -0.062151223, 0.07457783, 0.13588274, -0.037328478, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(0.3718559, 0.025637252, -0.4048626, -0.41484925, 0.24768798, 0.09984098, -0.5663632, -0.6659978, 0.212067, -0.08328392, -0.5277322, -0.016879432, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.11072714, -0.010321538, 0.11265787, 0.0055236337, -0.13345073, 0.004847663, 0.3744461, -0.4038564, -0.09893075, 0.031325124, 0.2883957, -0.04268903, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.10444391, -0.60588187, 0.02543334, 0.10911738, -0.10860678, 0.15701362, 0.29235297, 0.045803998, 0.076250754, -0.10799697, 0.08841044, 0.08145623, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.04246739, -0.1225759, 0.11280305, -0.12079673, 0.5289142, -0.011892906, -0.0800465, 0.05915611, -0.126204, 0.08239301, -0.0092391195, -0.07672885, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.11922264, 0.14036109, -0.09491126, 0.05112697, -0.12543046, -0.08662423, -0.041537095, 0.048038274, 0.11672854, -0.006516173, -0.023524825, 0.030505095, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.07697861, 0.41154122, 0.042374082, -0.087270625);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_tf
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.09419103, -0.1178418, 0.09523275, 0.24648252, 0.03595256, -0.05417468, -0.029167585, -0.012279932, 0.08852021, -0.12534834, 0.0604663, 0.050634373, -0.19536541, 0.21548285, 0.040379744, -0.28046605) * go_0(-1.0, -1.0);
result += mat4(-0.13783203, 0.17191975, 0.06956328, 0.005270252, -0.029844455, -0.17657366, 0.03439078, 0.048861686, 0.12017991, -0.087307535, 0.11815637, 0.31309614, 0.08440897, 0.09969244, -0.06220224, 0.2633136) * go_0(-1.0, 0.0);
result += mat4(0.098606475, -0.05856224, -0.01163882, -0.020945825, -0.08988821, 0.18520717, 0.011407763, 0.20973705, 0.21017794, 0.038311377, -0.018910313, 0.053878684, -0.08751144, -0.0081623215, 0.29060364, 0.14363094) * go_0(-1.0, 1.0);
result += mat4(0.13354321, -0.38046083, 0.14157647, 0.10190452, -0.045502663, 0.0053245644, -0.10817685, -0.048371315, 0.16157807, 0.2086147, 0.07632662, 0.24636099, -0.0053555835, -0.19587666, -0.46687222, 0.002362032) * go_0(0.0, -1.0);
result += mat4(0.28275147, -0.1468291, 0.24075283, -0.35119128, 0.18727398, 0.3833064, 0.08667899, 0.15021381, -0.092296466, -0.25686404, -0.116076745, 0.2231862, -0.27637103, 0.12317917, -0.0341737, -0.40077657) * go_0(0.0, 0.0);
result += mat4(-0.007041629, 0.18089123, -0.21195571, -0.12346183, -0.06088577, -0.30784377, 0.0048495876, 0.06013008, 0.07200418, -0.0076884073, 0.02632822, -0.0011575016, 0.21025613, -0.2573419, -0.06994815, 0.32497165) * go_0(0.0, 1.0);
result += mat4(0.0016823286, -0.014366541, -0.5049525, 0.048534572, -0.0057915323, -0.0030526456, -0.028976317, -0.16376147, -0.15560333, -0.053708192, -0.055678204, -0.13087665, 0.0048869387, 0.027514834, 0.017380254, -0.06743363) * go_0(1.0, -1.0);
result += mat4(0.044514824, -0.1754644, -0.26664957, 0.1486667, 0.114894986, 0.061640915, -0.13305616, 0.06450565, 0.03552732, 0.2835473, 0.13800526, 0.005875215, 0.15751484, 0.41759813, -0.19406971, 0.071032055) * go_0(1.0, 0.0);
result += mat4(-0.18419577, -0.05527526, 0.017057603, -0.1146602, 0.15775396, -0.01188916, 0.09368113, 0.05765405, 0.064170234, -0.017833546, 0.12100514, -0.06250493, 0.2421206, 0.15719843, 0.23718071, 0.023142194) * go_0(1.0, 1.0);
result += mat4(0.079226464, 0.07877355, -0.022315226, -0.13507473, 0.14683898, 0.028739132, -0.24479519, -0.280197, -0.13223173, 0.21732429, -0.1546993, 0.045442928, 0.163642, -0.07062695, 0.03805918, 0.060860883) * go_1(-1.0, -1.0);
result += mat4(0.095216066, -0.16650215, -0.34863555, -0.025274571, 0.3064775, -0.034196265, -0.25773287, 0.19570488, -0.005434017, 0.26308087, 0.009404902, -0.24736062, 0.05558232, -0.014217521, 0.03667355, -0.15134114) * go_1(-1.0, 0.0);
result += mat4(-0.074846864, 0.010901994, 0.035149742, 0.12106729, -0.36042807, -0.011231913, 1.4317516, 0.6400351, 0.105860665, -0.11587906, -0.11065066, 0.19126756, 0.14132085, 0.021570992, -0.3618735, -0.081163004) * go_1(-1.0, 1.0);
result += mat4(-0.06937371, 0.3815214, 0.026842717, -0.04051589, -0.09472515, -0.027198657, -0.16502109, 0.114273794, -0.15207845, -0.15054241, -0.25099036, -0.10871029, 0.14311226, 0.07640166, 0.47051275, 0.0447809) * go_1(0.0, -1.0);
result += mat4(-0.25960425, 0.11150338, -0.042022616, -0.006633396, -0.29595324, -0.0149574205, 0.09806478, 0.03635802, 0.26789796, 0.41416678, 0.05145585, 0.61168057, 0.019582301, -0.118703716, 0.13974573, 0.04498941) * go_1(0.0, 0.0);
result += mat4(-0.04119621, -0.15503803, 0.33170196, -0.1158483, -0.06258357, 0.2574262, -0.07890287, -0.6929032, 0.004379942, 0.097908296, 0.009286624, 0.27194506, -0.2476702, 0.13828708, 0.05071857, -0.43693772) * go_1(0.0, 1.0);
result += mat4(-0.010842703, 0.13108006, 0.30126816, 0.20221521, 0.018797455, 0.0614624, 0.11102966, 0.019204421, 0.09975456, 0.04676902, -0.044540443, 0.118877, -0.04871634, -0.089208096, 0.027455999, 0.029557817) * go_1(1.0, -1.0);
result += mat4(-0.10421777, 0.3135469, 0.14557797, 0.0497297, 0.0034963787, -0.20342828, 0.08332032, -0.09004643, 0.06574797, -0.14168271, -0.08754358, 0.30385306, -0.3374016, -0.4360316, 0.15854433, -0.24081887) * go_1(1.0, 0.0);
result += mat4(0.1407836, 0.09678823, -0.02240152, -0.013985894, 0.012281648, -0.24124922, -0.46433777, -0.25915003, 0.042200714, -0.21701157, -0.016618999, 0.13135725, -0.34656256, -0.034729004, -0.29246503, -0.13514486) * go_1(1.0, 1.0);
result += vec4(-0.08458621, -0.023144595, -0.057707336, -0.081382714);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_1_tf
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.27743992, 0.04277345, 0.019331178, -0.7335445, 0.006292013, 0.19800001, -0.0025032016, 0.16098699, -0.03186617, -0.060173523, 0.08878855, -0.10669283, 0.130609, -0.068515256, -0.03571823, -0.13751523) * go_0(-1.0, -1.0);
result += mat4(-0.2430821, -0.08233978, 0.082374334, 0.04843392, -0.18989052, -0.041925047, 0.40021122, -0.317836, -0.13517766, 0.032255337, -0.0746507, 0.22114721, -0.045706213, -0.12841983, -0.27830583, 0.05763077) * go_0(-1.0, 0.0);
result += mat4(-0.08436965, -0.04967552, -0.16798134, -0.1539139, -0.17429228, -0.10166739, 0.35864773, 0.12873615, -0.07667423, 0.04985163, 0.13391761, -0.054322604, 0.085659124, -0.078792974, 0.06481059, 0.058667548) * go_0(-1.0, 1.0);
result += mat4(-0.17568155, 0.56705236, 0.056562193, -0.020951264, 0.005879628, -0.2502103, -0.19619654, 0.019490348, -0.14527243, 0.16983634, 0.049245857, 0.18316677, 0.055053137, 0.10699275, 0.0016993808, 0.20105995) * go_0(0.0, -1.0);
result += mat4(0.36284775, -0.05856962, -0.42545465, 0.31931567, -0.15698905, -0.28837132, -0.028697362, -0.024917847, 0.04317283, 0.024557106, -0.052158598, 0.38654143, -0.1782944, 0.43094924, -0.11738149, 0.21554618) * go_0(0.0, 0.0);
result += mat4(0.22645079, -0.20319854, 0.20733371, -0.18697177, -0.05167819, -0.12845007, 0.5543688, 0.2453291, 0.08027872, -0.0628224, -0.06593836, -0.05795855, -0.24527508, 0.23632833, -0.043366548, 0.14135826) * go_0(0.0, 1.0);
result += mat4(0.08384414, 0.20807321, 0.030559694, -0.13640808, -0.07641805, -0.10919174, -0.19799095, -0.12955745, 0.093737304, -0.17856954, 0.035103753, -0.044699315, -0.07255943, -0.02331535, 0.2059249, 0.3058302) * go_0(1.0, -1.0);
result += mat4(0.022345139, 0.16286038, -0.27228013, -0.41105714, -0.0014384583, 0.089546144, -0.08296848, -0.0050463285, 0.07038578, -0.030679917, 0.031246305, 0.36761853, -0.34799108, -0.0405689, -0.19182852, 0.015853593) * go_0(1.0, 0.0);
result += mat4(0.1021783, -0.11396049, -0.08733628, -0.017449526, 0.042015605, -0.14808236, 0.10072531, -0.07403295, 0.15276712, -0.07807765, -0.10013386, -0.26110634, -0.04858846, 0.066066965, 0.13598624, 0.21687816) * go_0(1.0, 1.0);
result += mat4(0.07041569, -0.17775945, 0.15697548, -0.15425202, -0.06569677, -0.033233996, 0.22596005, -0.026170855, -0.20729817, 0.1316505, -0.058410037, 0.22166035, 0.09107114, -0.13078825, -0.05639485, -0.02716142) * go_1(-1.0, -1.0);
result += mat4(0.057966787, -0.15311252, 0.095924966, -0.055951685, 0.082777694, -0.08471956, -0.39918202, 0.10599212, 0.102710955, 0.21808124, 0.12083635, -0.38835892, 0.031709857, 0.13955092, 0.12647778, 0.011549966) * go_1(-1.0, 0.0);
result += mat4(0.09810508, -0.119743295, 0.06166254, 0.13595435, 0.036198203, -0.028710455, -0.40789905, -0.034894038, -0.12622337, 0.14379597, 0.039958883, 0.19636424, 0.047094557, -0.07987105, -0.04905092, -0.07875785) * go_1(-1.0, 1.0);
result += mat4(0.34118712, -0.2833933, -0.045028314, -0.40670308, -0.01961924, 0.37131935, 0.29099533, -0.19843055, 0.18604252, -0.0037280058, 0.1091072, -0.40579233, 0.11422739, -0.16490164, -0.0022396361, -0.21486944) * go_1(0.0, -1.0);
result += mat4(0.0010853866, 0.2223109, 0.2416471, -0.33326814, 0.2549397, 0.6442047, 0.18411863, -0.19081281, -0.43552014, -0.1793875, -0.58699155, -0.01900168, -0.26955804, -0.071371995, 0.07599079, 0.27434483) * go_1(0.0, 0.0);
result += mat4(-0.19644544, 0.14383379, -0.2599538, 0.001666124, -0.16369823, 0.009537702, -0.3690974, -0.048157427, -0.2040159, 0.01522431, -0.11007749, -0.07012568, 0.17536888, -0.012183123, -0.17366478, -0.15090804) * go_1(0.0, 1.0);
result += mat4(0.0855136, 0.06863859, -0.17249937, -0.12850079, 0.15325847, 0.22742507, 0.22535504, 0.24032994, -0.109522276, 0.24135293, -0.17784368, 0.08172238, -0.16143093, 0.1358853, -0.09399085, 0.012180792) * go_1(1.0, -1.0);
result += mat4(-0.04346881, 0.13367178, 0.10387612, 0.04705543, -0.10315795, 0.5816371, -0.090529, -0.017955385, -0.09032907, -0.52505773, 0.10958755, -0.26151448, 0.17246644, 0.011886279, 0.3566306, 0.32170597) * go_1(1.0, 0.0);
result += mat4(-0.27853554, 0.1558035, 0.070289604, 0.17052644, -0.31982365, 0.29085326, -0.09494764, 0.2270542, 0.10514691, -0.24606484, -0.02049181, 0.126686, 0.16719124, 0.013080999, -0.08577963, -0.07057233) * go_1(1.0, 1.0);
result += vec4(0.0061747693, -0.029145364, -0.026801255, 0.027419873);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_2_tf
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.07447851, -0.07888509, -0.28236163, 0.2479792, -0.065199964, 0.24733023, 0.099619575, -0.26430824, -0.03523585, -0.03547245, -0.10619345, -0.25326422, -0.116270036, -0.065133184, -0.30401528, 0.01563764) * go_0(-1.0, -1.0);
result += mat4(-0.19106275, -0.26104823, -0.14457102, -0.17298317, 0.24148639, -0.10950928, 0.062851585, 0.042540826, 0.13287601, 0.06975747, 0.15848075, -0.3854902, -0.13132331, -0.16468687, -0.029844414, 0.27754608) * go_0(-1.0, 0.0);
result += mat4(0.015378025, -0.14203559, 0.08058816, 0.32896644, -0.074871175, -0.26611313, -0.18830848, 0.091641426, -0.16522385, -0.23424402, -0.12279703, -0.13343342, -0.2509982, -0.0554576, 0.07286022, -0.028823337) * go_0(-1.0, 1.0);
result += mat4(-0.13543738, 0.049395677, -0.015148539, 0.13301241, -0.12827122, -0.012590744, 0.012936948, 0.008271658, 0.12442749, 0.3497426, -0.16126058, -0.2670464, -0.010479037, 0.07037434, -0.15527055, 0.13205245) * go_0(0.0, -1.0);
result += mat4(-0.09535385, -0.3931354, 0.24716614, -0.21284536, 0.14652656, 0.38149378, -0.09607391, 0.06350967, 0.48615915, 0.32634613, 0.146291, 0.2566475, -0.40927815, -0.05268087, -0.04110691, -0.0068722935) * go_0(0.0, 0.0);
result += mat4(0.089152284, -0.01860622, 0.016856732, 0.31244752, 0.022529159, -0.0071319416, -0.09786801, -0.13005258, 0.1524636, 0.21627748, -0.07395979, -0.087633945, -0.38435504, -0.08842507, -0.0058702417, -0.32936293) * go_0(0.0, 1.0);
result += mat4(0.0816838, 0.0012210817, 0.28217188, 0.36141106, 0.0014665248, -0.0636269, 0.042035818, -0.056671552, -0.032501306, -0.22908778, -0.2067977, -0.004497514, -0.23052917, 0.26728114, 0.15353456, -0.17732324) * go_0(1.0, -1.0);
result += mat4(-0.17229734, 0.0818218, -0.10076918, 0.030027041, -0.14819005, -0.085340135, 0.050100215, 0.05683199, -0.12653661, -0.036583595, -0.32319903, -0.15273796, -0.15346588, 0.20005536, 0.23097478, -0.19834782) * go_0(1.0, 0.0);
result += mat4(0.055430107, -0.2886931, 0.361814, 0.33160287, -0.084407054, 0.06254009, -0.02332793, -0.018134018, -0.014879812, 0.112346604, -0.20686437, -0.23408228, -0.01091196, -0.062669374, 0.085567676, 0.23738655) * go_0(1.0, 1.0);
result += mat4(0.080383554, -0.1172084, 0.19703126, 0.27777427, -0.07559937, -0.25445858, 0.3450109, -0.071967736, 0.2034805, 0.33716002, 0.15314537, -0.22953224, 0.113631405, -0.0058444734, 0.2890972, 0.06557255) * go_1(-1.0, -1.0);
result += mat4(-0.17646056, -0.025448758, -0.14952567, 0.017148364, -0.15238142, 0.1435677, 0.20273875, 0.22255951, -0.011660059, -0.003515217, -0.17305166, -0.13478355, -0.06558679, -0.032662887, -0.20914736, -0.5397283) * go_1(-1.0, 0.0);
result += mat4(0.1679393, -0.109410115, -0.117427185, 0.14982319, -0.06457877, -0.06607065, 0.0018200208, -0.0118605625, 0.046539318, -0.020642165, -0.14413542, -0.09530688, 0.22196163, -0.2187166, -0.10759705, 0.013234591) * go_1(-1.0, 1.0);
result += mat4(-0.13220267, -0.12540027, 0.26163217, 0.12791659, 0.16204996, -0.4023048, -0.13485721, -0.10187536, 0.059764992, 0.048170995, -0.25281772, 0.2090587, -0.06542371, -0.10791867, -0.21286209, -0.309109) * go_1(0.0, -1.0);
result += mat4(0.16233061, 0.120428756, -0.11460241, 0.24531102, -0.2670459, -0.24195078, -0.20964348, -0.12930301, -0.2343609, -0.22543164, -0.28909695, -0.33560297, 0.6009884, 0.39171818, -0.1276308, -0.020736236) * go_1(0.0, 0.0);
result += mat4(0.40162864, 0.045881115, 0.032667033, 0.31454235, -0.17351128, -0.009387306, 0.17341217, 0.30810982, -0.025815086, -0.10390133, 0.012544771, 0.036918722, 0.34386298, 0.23177734, -0.046727546, 0.20098232) * go_1(0.0, 1.0);
result += mat4(0.11541034, -0.11647824, -0.12874861, 0.004921287, -0.13921295, -0.25733355, -0.1112383, -0.033295818, 0.0035326157, 0.3782048, 0.055785846, -0.1547331, 0.17358719, -0.2789715, -0.13400431, 0.1583795) * go_1(1.0, -1.0);
result += mat4(0.4130191, -0.33944547, -0.064674884, 0.39617148, -0.11483455, -0.022601767, 0.1129301, -0.09713594, 0.14681247, 0.34442267, 0.08721343, -0.08309499, 0.088704996, -0.20943391, -0.2891408, 0.1709401) * go_1(1.0, 0.0);
result += mat4(0.19503653, 0.17490312, -0.23491044, -0.028934423, 0.04479765, -0.0334551, 0.0602648, 0.0019939998, 0.23314747, 0.21557438, 0.07273092, 0.15467109, -0.11194509, 0.0736583, -0.17628083, -0.3851578) * go_1(1.0, 1.0);
result += vec4(0.022887055, 0.01521631, 0.17967467, -0.0131908795);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_3_tf
//!SAVE conv2d_4_tf
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.10233342, -0.30233157, 0.24238978, -0.007108631, 0.14248851, 0.08486557, 0.0028373515, 0.122387215, 0.10996857, -0.17286511, 0.19819227, 0.07023527, 0.07579955, -0.16861476, -0.210025, 0.12760942) * go_0(-1.0, -1.0);
result += mat4(0.091181986, -0.41497424, -0.27567792, -0.09938067, -0.12210428, 0.20617811, -0.017644284, -0.22552875, 0.049019493, -0.18990634, 0.11057753, -0.043193225, -0.15278774, -0.18331046, -0.1837594, 0.029758787) * go_0(-1.0, 0.0);
result += mat4(-0.1757096, -0.199691, -0.034743477, -0.15369363, -0.1701244, -0.0459655, 0.10508695, -0.09795581, 0.13464944, 0.37202564, 0.14706515, 0.23416734, 0.08302458, 0.20696343, -0.13935481, 0.03092827) * go_0(-1.0, 1.0);
result += mat4(-0.49887478, 0.24046332, -0.029459715, 0.17374687, -0.15019977, 0.31086043, -0.28297687, -0.22239804, 0.12314376, 0.11594825, 0.17682782, 0.09753434, -0.26263535, -0.12739435, -0.57744014, 0.087381124) * go_0(0.0, -1.0);
result += mat4(0.08101439, -0.16185337, 0.112901986, 0.24439482, -0.44051018, -0.70680356, -0.23015513, 0.63106006, -0.08817581, -0.057614524, 0.15352182, -0.049620207, 0.17742544, -0.49583626, -0.3844133, 0.18385352) * go_0(0.0, 0.0);
result += mat4(0.17149475, 0.31255633, 0.19286609, 0.21052869, -0.11856372, -0.032373343, 0.06503625, -0.31664965, 0.040755365, -0.027614031, -0.33330554, 0.40148625, 0.056921627, -0.27068445, 0.047014963, 0.103712596) * go_0(0.0, 1.0);
result += mat4(-0.09326643, 0.13677256, 0.06390537, 0.08080093, -0.10685094, 0.124757454, 0.14696303, 0.10871933, -0.10971212, 0.01655797, -0.11052674, -0.17361104, 0.015513338, -0.1917502, -0.26384255, -0.022672707) * go_0(1.0, -1.0);
result += mat4(0.032367155, -0.087523445, -0.06951093, -0.08128242, 0.2627859, 0.14933161, 0.3114999, -0.007791172, -0.4146471, -0.2530298, -0.43175155, -0.06878434, 0.5724947, 0.25498095, 0.4838959, 0.15076154) * go_0(1.0, 0.0);
result += mat4(-0.13427481, -0.10134261, 0.087439895, 0.015921364, 0.15421022, 0.20205952, 0.22928835, -0.07339068, -0.33318612, -0.17467582, -0.04758165, 0.11858059, 0.17408857, -0.099393494, -0.06389948, -0.06494366) * go_0(1.0, 1.0);
result += mat4(0.15349221, 0.08508258, -0.09294437, -0.03204993, -0.22561033, -0.15088828, -0.020105945, 0.10041996, -0.024723593, 0.06610271, -0.24423431, -0.050512858, -0.100530736, 0.16394953, 0.16365045, -0.012055956) * go_1(-1.0, -1.0);
result += mat4(0.16342951, 0.23113559, 0.21289586, 0.28391558, 0.052211206, -0.17983536, -0.008415342, 0.08977486, -0.054481823, 0.17506577, -0.14162593, -0.070448756, 0.093877845, 0.05161232, -0.25006327, 0.007014646) * go_1(-1.0, 0.0);
result += mat4(0.104965575, 0.20048036, 0.024134496, 0.5442797, 0.19958296, -0.05165447, 0.076928124, 0.030868227, -0.0563495, -0.19757621, 0.10801544, -0.24202053, 0.0067657093, -0.17784451, -0.03134409, -0.06741009) * go_1(-1.0, 1.0);
result += mat4(0.33347723, -0.12338564, 0.23495969, -0.23091966, 0.059872203, 0.028045453, -0.06781438, 0.111325614, -0.21861015, -0.030451605, -0.04267672, -0.0039260075, 0.0911101, 0.054191053, -0.08498816, 0.04810343) * go_1(0.0, -1.0);
result += mat4(-0.05028896, 0.21515386, 0.16005337, -0.32279232, 0.19178568, 0.779363, -0.12682606, -0.4378189, 0.37980273, 0.063021325, 0.19370794, -0.05618088, -0.00088428083, 0.29736623, 0.24649377, -0.0021625878) * go_1(0.0, 0.0);
result += mat4(-0.45007992, -0.16040307, -0.1714593, -0.16251564, 0.070867635, 0.21317895, -0.070962, 0.17147541, -0.27786884, -0.33259448, -0.022767346, -0.17967366, 0.21208113, 0.19740848, 0.16877973, 0.09630738) * go_1(0.0, 1.0);
result += mat4(0.09235827, -0.35231477, -0.093315996, -0.035850406, -0.08311695, 0.054329164, 0.17788444, -0.020736141, -0.03739786, -0.1678283, 0.12676615, 0.17182353, 0.17408027, 0.07699043, 0.095501214, 0.0069830767) * go_1(1.0, -1.0);
result += mat4(-0.16631392, -0.16925642, -0.17081848, 0.017719474, -0.20530944, 0.19215193, -0.039511178, -0.08296625, 0.2240653, 0.100644305, 0.2901835, 0.32166973, -0.10026419, -0.14864013, -0.19926691, -0.11607018) * go_1(1.0, 0.0);
result += mat4(-0.13750182, 0.07445518, -0.033964884, -0.085812084, -0.03903257, -0.054933593, 0.06765632, 0.064338475, 0.27182797, 0.07721309, -0.0334218, -0.19344835, -0.14405386, 0.046106674, 0.16596143, 0.0879945) * go_1(1.0, 1.0);
result += vec4(0.049844168, 0.02670437, 0.050967637, -0.10779561);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_4_tf
//!SAVE conv2d_5_tf
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.034357008, 0.00082413113, -0.13382089, -0.05066409, 0.26684088, -0.31363875, 0.073608615, 0.20824149, 0.21509308, -0.07118628, 0.11287014, -0.09817389, 0.16107765, 0.17146803, -0.13836654, -0.05962866) * go_0(-1.0, -1.0);
result += mat4(0.029981667, 0.08738892, 0.17735903, 0.15817277, 0.041752994, -0.20031185, 0.064203605, 0.48786053, -0.0033609737, -0.42522693, 0.058846988, 0.22180536, 0.17181319, 0.13097888, -0.059532285, 0.062227458) * go_0(-1.0, 0.0);
result += mat4(0.13188283, 0.07971828, 0.28278515, 0.038570832, -0.12815465, 0.29860008, -0.2785862, -0.07612298, -0.14369671, 0.12457525, 0.11982623, -0.018675303, 0.14936846, 0.1284789, -0.0042489986, 0.042810377) * go_0(-1.0, 1.0);
result += mat4(0.2892425, -0.20834558, 0.07358541, -0.11190968, -0.16300741, 0.15674856, -0.04297203, -0.29218298, -0.036296643, -0.052267153, -0.22889943, -0.21203549, -0.03553075, -0.20343691, -0.07413655, -0.092966415) * go_0(0.0, -1.0);
result += mat4(0.2484468, -0.23412868, -0.070199326, 0.2061922, 0.5047224, -0.48216155, -0.5792768, 0.610787, 0.023935676, -0.040435325, -0.1238493, -0.09576053, -0.26183444, 0.14510648, 0.5365255, 0.5499143) * go_0(0.0, 0.0);
result += mat4(-0.058255754, 0.08133753, -0.18663554, 0.26190025, 0.26006857, -0.007619795, 0.14585225, 0.073580734, -0.0396066, 0.2821596, 0.31778112, -0.029853562, -0.19703479, 0.17809318, 0.21089044, -0.106730856) * go_0(0.0, 1.0);
result += mat4(0.20549655, -0.05962688, 0.1432124, 0.013446325, -0.19064854, 0.061387196, 0.1792527, 0.0010619498, -0.1456842, 0.18950678, -0.13990986, -0.37644413, -0.083257, -0.2937246, 0.032096215, 0.14719158) * go_0(1.0, -1.0);
result += mat4(-0.26601696, 0.4242341, -0.073702715, -0.3221337, 0.026037043, -0.0117916465, -0.024286825, 0.23183465, -0.030869482, -0.045915652, -0.040611852, 0.11372697, -0.25404635, 0.21859063, 0.13869432, 0.19651218) * go_0(1.0, 0.0);
result += mat4(-0.028276298, -0.11217159, 0.27144867, -0.010531775, 0.11032058, -0.09957206, 0.12570262, 0.14724332, 0.08758557, -0.11042305, 0.025948172, -0.010910802, -0.029466914, -0.041135952, -0.017091949, 0.05501236) * go_0(1.0, 1.0);
result += mat4(-0.12688768, -0.19051413, 0.052141912, -0.13618521, -0.16320245, -0.1601866, 0.16207355, -0.023218745, 0.2103894, -0.06212745, -0.07042835, 0.0996637, -0.1763831, 0.13890013, -0.12125462, -0.105104685) * go_1(-1.0, -1.0);
result += mat4(0.10485512, -0.49283037, -0.504295, 0.009089699, -0.17389494, -0.12835866, 0.14188384, -0.22946316, 0.006298799, -0.0348454, -0.0852419, 0.17956656, -0.08088888, 0.35675287, 0.16014415, -0.055372503) * go_1(-1.0, 0.0);
result += mat4(-0.17157564, 0.1557075, -0.17681694, 0.14834762, -0.13708206, 0.101721555, 0.17070566, -0.22522852, 0.08100986, -0.23204406, -0.38926315, -0.13165781, 0.1040296, -0.045591615, 0.15745829, -0.10410621) * go_1(-1.0, 1.0);
result += mat4(-0.20517144, 0.35896194, -0.0010962893, -0.18043008, -0.016253468, 0.035292216, 0.06781499, 0.015984116, -0.20261237, -0.28905126, 0.007414641, 0.008870292, 0.52166605, -0.0996688, -0.23151648, 0.2811893) * go_1(0.0, -1.0);
result += mat4(0.013482173, -0.04891998, -0.06094191, -0.14416319, -0.00087873987, 0.11979091, 0.06457245, -0.2305623, -0.1476981, 0.2634587, -0.058895197, -0.07394766, -0.27173743, 0.7530214, 0.037599873, 0.22086331) * go_1(0.0, 0.0);
result += mat4(-0.10357755, 0.23899554, 0.034912035, -0.14336212, -0.019786308, -0.085470654, -0.03096524, 0.108783185, 0.28971127, 0.24527478, -0.19110362, -0.49510127, -0.15574701, 0.10968643, -0.13727877, 0.04502924) * go_1(0.0, 1.0);
result += mat4(-0.10808282, -0.079148844, -0.3244773, -0.2210664, -0.0062175165, 0.1303082, 0.012592612, -0.38039228, 0.26899642, -0.16624425, -0.04438198, 0.42067865, -0.13381268, 0.03408099, -0.2999706, -0.3817641) * go_1(1.0, -1.0);
result += mat4(0.030872926, -0.26852018, -0.14650428, 0.16869825, -0.19185568, -0.06341456, 0.12261606, -0.26597574, 0.44865233, 0.21416639, 0.40359476, 0.12814924, 0.2542566, -0.23348318, -0.43142912, -0.35113996) * go_1(1.0, 0.0);
result += mat4(-0.03364283, 0.11002299, 0.3311268, -0.14580412, -0.10348537, 0.13331696, -0.0793144, -0.04116661, 0.040704627, -0.14875266, -0.09259674, -0.062087066, 0.063962296, 0.18420577, -0.085616685, -0.16555141) * go_1(1.0, 1.0);
result += vec4(-0.037546165, -0.015675364, 0.13989694, 0.027605768);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_5_tf
//!SAVE conv2d_6_tf
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.35835463, 0.038305778, -0.10198824, -0.021951782, 0.02142098, -0.072417736, -0.2577152, 0.054713376, 0.075116105, -0.21191697, -0.1213158, -0.105036296, 0.12030758, -0.17591658, 0.1726511, 0.17754573) * go_0(-1.0, -1.0);
result += mat4(0.32325825, 0.19869742, 0.333873, 0.39670366, 0.20716824, 0.09557955, 0.120742686, -0.2271023, 0.37509173, -0.031341635, 0.10247365, 0.031520665, -0.092765376, -0.13535516, 0.8333728, 0.05886494) * go_0(-1.0, 0.0);
result += mat4(-0.17573749, 0.16768494, 0.021141645, 0.19668253, 0.21080776, 0.31503728, -0.26834, 0.19103156, 0.21946241, 0.14559007, -0.09761235, -0.23565038, -0.49393657, -0.5332298, 0.09806347, 0.054431103) * go_0(-1.0, 1.0);
result += mat4(-0.042109374, -0.05564321, 0.27586877, 0.010382545, 0.007322007, 0.13193823, -0.18262729, 0.06399193, 0.14174329, 0.3898842, -0.10398105, 0.01846146, -0.24542394, -0.13020967, -0.16491668, -0.03544872) * go_0(0.0, -1.0);
result += mat4(-0.15291597, 0.1566557, 0.14745249, -0.23258151, 0.17843612, 0.15885495, -0.691466, -0.41177312, 0.40330106, -0.07991953, 0.2832403, 0.10656986, -0.19571523, 0.3670614, -0.62296015, -0.5666968) * go_0(0.0, 0.0);
result += mat4(-0.17513512, 0.011393021, -0.44352317, -0.059153114, -0.2227142, -0.033094753, 0.09624524, 0.051315393, 0.2632246, 0.09945105, 0.042561427, -0.1234722, 0.23755905, -0.506999, 0.114180565, 0.27887583) * go_0(0.0, 1.0);
result += mat4(-0.459564, -0.120326266, 0.17507194, 0.06701153, -0.14124362, -0.36653697, -0.2856802, -0.22955593, -0.08515889, 0.18788262, 0.23427077, 0.021544341, 0.31996533, -0.2668834, 0.08469808, -0.01347926) * go_0(1.0, -1.0);
result += mat4(-0.14092083, -0.31244513, -0.044023518, 0.013948701, 0.33119613, -0.011959397, -0.1494438, -0.111066826, -0.11994278, 0.116068155, -0.13032633, -0.037004936, 0.13851176, -0.006655432, -0.39841232, -0.079951204) * go_0(1.0, 0.0);
result += mat4(-0.08959123, 0.18297827, -0.0763483, 0.11364159, -0.04361797, -0.029816678, -0.19314721, -0.03484794, 0.044681285, 0.04669291, -0.30017474, -0.07453036, 0.090825416, -0.27414632, 0.36355078, 0.15742934) * go_0(1.0, 1.0);
result += mat4(0.18470702, 0.113800436, -0.18546791, 0.044184085, 0.12490399, 0.1826781, -0.01313173, -0.19048993, -0.026458051, -0.1693334, 0.21958382, 0.030458853, -0.059242606, 0.039351143, -0.061676584, -0.06904634) * go_1(-1.0, -1.0);
result += mat4(-0.114877924, -0.03781683, -0.19207929, 0.007679428, 0.2409049, 0.2965285, -0.38395065, 0.11604976, -0.22588749, 0.48505852, 0.09866521, -0.2585994, -0.011380872, -0.018334057, -0.047188547, 0.3038583) * go_1(-1.0, 0.0);
result += mat4(-0.2783936, -0.17609318, 0.4904369, -0.31848624, 0.39725313, 0.082951784, -0.15595853, -0.007526218, 0.2355193, -0.30003366, -0.27686292, 0.120900005, -0.1223885, 0.40760317, 0.0013726618, -0.24877374) * go_1(-1.0, 1.0);
result += mat4(0.1580051, -0.044973504, 0.00053594523, -0.057797022, 0.18895927, 0.23527777, -0.18095906, -0.076961614, 0.2544444, -0.05932328, 0.13717431, -0.024487074, 0.33157274, -0.09072586, -0.004386734, -0.05180953) * go_1(0.0, -1.0);
result += mat4(-0.21685815, 0.061656334, -0.066127226, 0.24831405, 0.26001146, 0.046466008, -0.047196623, 0.13538954, -0.06449239, 0.45951647, -0.13132116, -0.7079741, -0.06683439, -0.47628635, 0.42461708, 0.6475073) * go_1(0.0, 0.0);
result += mat4(0.2590011, -0.26020283, 0.0005333198, 0.01555692, 0.37920526, 0.29205114, -0.20281325, -0.1455974, 0.056119893, 0.022032745, -0.30095813, 0.48154855, -0.35761952, 0.07582935, 0.12462687, 0.068093665) * go_1(0.0, 1.0);
result += mat4(0.20434918, 0.26690874, 0.028224666, 0.042565826, 0.037406113, 0.5059272, -0.0047208676, 0.0019095197, 0.16626422, -0.23407575, -0.072687164, 0.00063299487, -0.10172441, -0.11645544, 0.008715937, -0.012423992) * go_1(1.0, -1.0);
result += mat4(0.08269191, 0.116322584, -0.08155921, -0.04790326, 0.09546776, 0.3632936, -0.08139031, -0.10399187, 0.06618616, -0.26862565, 0.25058737, 0.0410593, -0.07191658, -0.20559746, 0.21857823, 0.12776822) * go_1(1.0, 0.0);
result += mat4(0.54989135, 0.38051483, 0.015739547, -0.0068143173, 0.26107135, 0.2585036, -0.12345306, -0.13934542, -0.19018838, 0.2730626, 0.42644337, 0.16693048, -0.15189888, 0.023638237, 0.11272267, 0.039560657) * go_1(1.0, 1.0);
result += vec4(-0.20554838, -0.10647836, -0.02824578, 0.08658529);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(M)-Conv-3x1x1x56
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_tf
//!BIND conv2d_1_tf
//!BIND conv2d_2_tf
//!BIND conv2d_3_tf
//!BIND conv2d_4_tf
//!BIND conv2d_5_tf
//!BIND conv2d_6_tf
//!SAVE MAIN
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_2 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_4 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_5 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_6 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_8 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_9 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_10 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_12 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_13 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(-0.030150581, -0.002168429, 0.014918388, 0.0, 0.020940892, 0.04591048, 0.049137186, 0.0, 0.111167125, 0.05311203, 0.0625381, 0.0, 0.020043287, 0.04785493, 0.040921766, 0.0) * g_0;
result += mat4(0.04158565, -0.008488135, 0.0020472286, 0.0, 0.049123142, -0.055042226, -0.06489915, 0.0, 0.09238876, 0.10387972, 0.09576964, 0.0, -0.054776173, -0.098954335, -0.09018853, 0.0) * g_1;
result += mat4(0.2081418, 0.08273068, 0.040325668, 0.0, -0.09937802, -0.13162258, -0.13989717, 0.0, -0.13983749, 0.01309777, 0.0023888077, 0.0, -0.18937743, -0.07021057, -0.047152344, 0.0) * g_2;
result += mat4(-0.09646629, 0.080605574, 0.10463501, 0.0, 0.22579835, 0.24077554, 0.22600271, 0.0, 0.049726978, 0.015292378, -0.0047161994, 0.0, 0.16281025, 0.048491795, 0.038338162, 0.0) * g_3;
result += mat4(-0.09772107, -0.043998875, -0.054745924, 0.0, -0.1257736, -0.13175423, -0.10889618, 0.0, -0.015900036, 0.07074481, 0.08210496, 0.0, -0.11321135, -0.12526917, -0.105605066, 0.0) * g_4;
result += mat4(0.14187162, 0.14032297, 0.13016908, 0.0, 0.018954534, 0.016011704, 0.010169183, 0.0, 0.04762765, -0.044460997, -0.06499567, 0.0, 0.11133751, 0.09464176, 0.08865274, 0.0) * g_5;
result += mat4(-0.16567162, -0.1744712, -0.1637222, 0.0, -0.02412003, 0.0074480795, 0.007903436, 0.0, -0.06161098, -0.046788957, -0.03971239, 0.0, 0.030736001, 0.036460854, 0.03660504, 0.0) * g_6;
result += mat4(0.084027, 0.10024112, 0.08152756, 0.0, 0.005087354, -0.026047802, -0.027264625, 0.0, 0.10519243, 0.08977278, 0.077558964, 0.0, -0.052826345, -0.06602686, -0.055083472, 0.0) * g_7;
result += mat4(0.007862721, 0.009936555, 0.012004831, 0.0, -0.042322706, -0.061728776, -0.05359773, 0.0, 0.030532641, 0.045623366, 0.04214089, 0.0, 0.030569768, 0.011892851, 0.0074041556, 0.0) * g_8;
result += mat4(0.03948997, 0.043119986, 0.039943404, 0.0, 0.0526772, 0.06820589, 0.058139592, 0.0, -0.062081397, -0.06755701, -0.054816127, 0.0, -0.004076369, 0.0061744447, 0.016273081, 0.0) * g_9;
result += mat4(0.0071622543, 0.004829105, -0.002032197, 0.0, -0.048541367, -0.059043564, -0.05662218, 0.0, 0.0015553127, 0.009178359, 0.009577062, 0.0, 0.114169896, 0.1349016, 0.11432262, 0.0) * g_10;
result += mat4(0.019324556, 0.028323999, 0.027396113, 0.0, 0.016746879, 0.01608199, 0.026891617, 0.0, 0.12068619, 0.13617857, 0.113496214, 0.0, -0.013930715, -0.014250072, -0.00824306, 0.0) * g_11;
result += mat4(-0.0024534757, -0.0064973077, -0.007905654, 0.0, -0.019158727, -0.024820521, -0.020509848, 0.0, -0.09608131, -0.11177871, -0.10503465, 0.0, -0.011210447, -0.010875943, -0.015295865, 0.0) * g_12;
result += mat4(0.09681486, 0.113604136, 0.10416855, 0.0, -0.08199983, -0.09013433, -0.08562243, 0.0, 0.041304465, 0.048315883, 0.042945288, 0.0, -0.09863276, -0.117853515, -0.09870226, 0.0) * g_13;
result += vec4(-0.0039074384, -0.0085585555, -0.0132283475, 0.0);
return result + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Restore_CNN_Soft_S.glsl
+137
View File
@@ -0,0 +1,137 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(S)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.10922428, -0.16249932, 0.15452726, -0.15669551, 0.053448875, -0.16528402, 0.01697721, -0.049275912, 0.20947173, -0.10576949, 0.19738325, -0.025417482, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.3285196, 0.15909512, -0.5273671, 0.23778777, -0.40508887, -0.0609677, -0.4188177, 0.11137456, -0.24131267, 0.10453423, -0.36216277, 0.053446792, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.23072472, -0.082083695, -0.0041477727, -0.09136237, 0.11958912, -0.312698, -0.15842685, -0.013882424, 0.10933724, 0.017880991, -0.022167003, 0.014662608, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.2789985, 0.054727737, 0.22577816, -0.49625716, -0.48472273, -0.011525487, 0.5354349, -0.08814955, -0.27021924, -0.044563178, 0.008232271, -0.13480483, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.18203105, 0.09277001, 0.27071548, -0.17773713, -0.4335171, 1.2275106, -0.07663438, -0.29020032, 0.011992759, 0.060106967, 0.11002492, -0.046098012, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.08363418, 0.063420765, -0.10278259, 0.09357691, 0.38670546, 0.13577081, 0.048631024, -0.024960777, 0.0846784, -0.057097007, 0.06049236, 0.042082917, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.12315548, -0.056513585, -0.09826642, -0.17079762, 0.06479095, -0.36984903, -0.12512982, 0.042867575, 0.08360464, 0.12835538, -0.005067881, 0.02542005, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.18997705, 0.086363226, -0.0007131526, 0.19858918, 0.39745626, -0.0090341605, 0.27864447, 0.20052041, 0.010576528, -0.089242525, -0.025109483, -0.030768145, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.05427315, -0.060894873, 0.06548642, 0.095537595, 0.29116166, -0.16159569, -0.13293959, -0.112566955, 0.0059667625, 0.016041303, 0.03831561, 0.09869594, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(0.0113532655, -0.06449327, 0.035503868, 0.5683031);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_tf
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.027102098, 0.2640691, 0.1169015, 0.030902913, 0.15404584, 0.1361459, -0.38066056, 0.096569136, -0.111836195, -0.0051853824, -0.0996669, -0.23538585, -0.07060754, -0.18889332, -0.10793357, -0.15154232) * go_0(-1.0, -1.0);
result += mat4(0.1378689, 0.21024452, 0.010976513, 0.0179521, -0.05993059, -0.28364083, 0.24486947, 0.21347582, -0.12522404, -0.16091396, 0.15499291, 0.08353191, -0.03342411, -0.08964405, 0.25111282, -0.07550899) * go_0(-1.0, 0.0);
result += mat4(-0.06398718, 0.05763278, 0.021394925, 0.14780094, -0.033050716, 0.03346528, -0.0846797, 0.0125302235, 0.18018652, 0.24586707, 0.050538495, 0.09879243, -0.100035876, 0.043505374, 0.042692907, -0.08768257) * go_0(-1.0, 1.0);
result += mat4(-0.11572878, 0.0545887, 0.16437739, 0.2775331, 0.10323911, -0.18938646, -0.17097469, -0.188723, 0.085762165, 0.14605838, -0.15568069, -0.16947642, 0.09042493, -0.087587915, -0.041969277, 0.27252352) * go_0(0.0, -1.0);
result += mat4(0.21475963, -0.018211678, -0.5711054, -0.09235345, -0.20367791, -0.23041399, 0.16346097, 0.007901888, 0.12542121, 0.16807431, 0.09862575, 0.16968751, 0.28490388, 0.40945014, -0.22364445, 0.14460565) * go_0(0.0, 0.0);
result += mat4(0.27512726, 0.14046481, -0.17684339, 0.102218024, -0.10503195, 0.3080809, 0.03681373, 0.2668656, -0.093752496, -0.07476867, 0.19900662, 0.06028286, -0.19815882, -0.0584525, 0.027984729, -0.02143819) * go_0(0.0, 1.0);
result += mat4(-0.16829525, -0.06818115, 0.0006509334, 0.01163159, 0.18918815, -0.10731989, -0.008126929, -0.47991323, -0.11022971, 0.19150843, 0.05272113, -0.34417602, 0.022882428, 0.1774031, 0.062597334, -0.09915319) * go_0(1.0, -1.0);
result += mat4(0.32131585, 0.05668815, -0.34203658, 0.05542482, -0.008077225, 0.009148517, 0.10953332, -0.050969962, 0.09904077, 0.46938205, -0.5148919, -0.22275375, -0.10536104, -0.23662373, 0.002147416, -0.14256701) * go_0(1.0, 0.0);
result += mat4(-0.19335353, -0.103732094, 0.17156832, 0.0059756916, -0.118641876, 0.14529023, -0.18662338, 0.0447326, 0.026719248, 0.042491894, 0.026437795, 0.05601309, 0.08645617, 0.08365193, -0.039582565, 0.16612953) * go_0(1.0, 1.0);
result += mat4(-0.014315469, 0.012588422, 0.037587024, 0.08707526, -0.08064868, -0.28149533, 0.27326405, 0.21468583, -0.04278333, 0.29369017, 0.18653142, 0.035729136, 0.079363555, 0.30725953, 0.0147137, 0.08527481) * go_1(-1.0, -1.0);
result += mat4(0.06659263, 0.03452449, -0.33752796, 0.0066543026, 0.48697233, 0.019602561, -0.32033685, -0.20538871, 0.3089118, 0.4315903, -0.13524854, -0.10791581, 0.3315688, 0.13135147, -0.26904663, 0.142365) * go_1(-1.0, 0.0);
result += mat4(0.13619833, 0.045271892, -0.029841429, 0.010704955, -0.29257727, -0.10563375, 0.35345638, -0.06734038, -0.043791633, -0.0056891907, -0.078411415, 0.075443126, -0.05746597, -0.19959894, -0.12797245, 0.18837726) * go_1(-1.0, 1.0);
result += mat4(0.25673476, 0.120482095, -0.23827696, -0.13557845, 0.300447, -0.3008584, -0.13834439, 0.5459493, -0.26155484, 0.06905137, 0.16247983, 0.039960653, -0.023218757, 0.07977591, -0.11354706, -0.25831422) * go_1(0.0, -1.0);
result += mat4(0.0842605, 0.282916, 0.14062001, 0.06356874, 0.55912817, 0.1743876, -0.30324093, 0.052068707, -0.20756413, 0.27321506, -0.26560605, -0.27695876, -0.3927334, -0.5439608, 0.39293098, -0.001130203) * go_1(0.0, 0.0);
result += mat4(-0.021890296, -0.12703396, 0.06660714, -0.03164527, 0.0018722567, -0.26552317, 0.06978973, -0.24030049, 0.46008193, 0.5595346, 0.081981994, -0.038414747, -0.010446991, -0.56102365, -0.079274766, -0.01851302) * go_1(0.0, 1.0);
result += mat4(0.052988984, 0.030581746, -0.06868741, 0.21545182, -0.5706256, -0.0034910638, 0.48361364, 0.9020033, -0.02242781, -0.13256042, 0.08997955, 0.21001706, -0.059571438, -0.040119104, -0.05029196, -0.127414) * go_1(1.0, -1.0);
result += mat4(-0.08275339, -0.05999088, 0.11068767, 0.014646892, -0.041986465, 0.1028236, -0.17218924, 0.026559748, -0.17412743, -0.38364175, 0.17410514, 0.13038695, 0.23155633, 0.2655843, 0.045085523, 0.13005458) * go_1(1.0, 0.0);
result += mat4(-0.013383197, -0.064526096, 0.049046878, 0.015992291, 0.123987064, 0.0104690585, 0.07065378, -0.009824511, -0.036109775, 0.13384768, 0.29676288, -0.39475223, -0.009368096, -0.05666906, -0.09132696, -0.082638375) * go_1(1.0, 1.0);
result += vec4(-0.106538564, -0.065693766, -0.03790106, 0.04776706);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_1_tf
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.024004154, -0.26474997, -0.5256586, 0.051624652, -0.16621786, 0.2964122, 0.6044247, -0.14335106, 0.17002718, -0.2679876, -0.30162668, 0.1273794, -0.17601459, -0.1782376, 0.104725115, -0.16351137) * go_0(-1.0, -1.0);
result += mat4(-0.121676154, 0.047741555, -0.06738679, -0.056402843, 0.004424971, -0.35099635, -0.073440626, 0.039784692, 0.15204315, -0.1165704, 0.11231046, -0.27369732, 0.33737272, -0.11880767, 0.09637475, -0.14709689) * go_0(-1.0, 0.0);
result += mat4(-0.017987821, -0.08798823, -0.062515825, -0.046803873, -0.05871703, 0.27013004, 0.19397618, -0.052147817, 0.003271283, -0.0029015478, -0.07390092, -0.09348337, -0.1574738, 0.06750957, -0.07661155, 0.054327156) * go_0(-1.0, 1.0);
result += mat4(-0.15215784, -0.72508365, -0.3202069, 0.20295432, -0.19125701, 0.021401431, -0.051837035, -0.025939213, 0.25565025, -0.12872623, 0.13169816, 0.27377388, -0.008718429, -0.05864064, 0.028844763, 0.1144993) * go_0(0.0, -1.0);
result += mat4(-0.30012092, -0.1322455, -0.11868545, 0.09857058, 0.082795605, -0.075334676, -0.3752773, -0.02918163, -0.67764, -0.38598236, -0.21023573, 0.38274166, -0.07398165, -0.07213789, -0.28427607, 0.1266569) * go_0(0.0, 0.0);
result += mat4(-0.37507388, 0.18809201, -0.21982779, 0.27208912, 0.022066567, -0.27627763, 0.12345216, -0.30041683, 0.017002959, -0.091398515, -0.25207692, -0.29253414, -0.08231422, -0.14665812, -0.07868529, -0.24562219) * go_0(0.0, 1.0);
result += mat4(0.08686712, 0.080837384, 0.20736577, 0.008233064, 0.14957365, 0.21801959, -0.04870689, 0.42149112, 0.27255878, 0.33320278, -0.08467146, 0.10381615, 0.055278245, 0.085710146, 0.009097151, 0.29092705) * go_0(1.0, -1.0);
result += mat4(0.0012207404, -0.023874281, -0.027035477, 0.005157451, 0.19330226, 0.33711615, -0.16495204, 0.549021, 0.44879642, 0.1978837, -0.20492741, 0.28099406, 0.2631811, 0.40786585, -0.055340275, 0.2575511) * go_0(1.0, 0.0);
result += mat4(0.29127392, -0.06287165, 0.12715077, 0.14784902, -0.3183704, 0.42057636, -0.11483724, -0.3019506, 0.010730576, 0.29091576, -0.046116166, -0.23528357, -0.0037143505, 0.1191774, -0.06084074, 0.011641706) * go_0(1.0, 1.0);
result += mat4(-0.2579205, 0.036545023, 0.11691888, 0.04996418, 0.21318026, 0.21370813, -0.14114271, 0.031217605, -0.06979331, -0.0690704, 0.04618086, 0.025164584, -0.10994228, 0.109930746, 0.103678934, 0.12193115) * go_1(-1.0, -1.0);
result += mat4(-0.19843774, -0.11237926, 0.007291354, 0.16480611, -0.15669724, 0.46283355, 0.077065215, 0.112273656, 0.17143534, -0.19934891, -0.25481275, 0.034591813, -0.27032652, -0.2702769, 0.04816228, -0.031614583) * go_1(-1.0, 0.0);
result += mat4(-0.16307239, -0.11295217, 0.05861256, 0.14225823, -0.015648091, 0.11741865, 0.113366075, 0.023935538, 0.19560932, -0.10553561, -0.042583376, -0.048160724, -0.3116519, 0.13957061, -0.0044852323, -0.015472912) * go_1(-1.0, 1.0);
result += mat4(-0.15629178, 0.06463271, -0.13176678, 0.025518289, -0.021733627, 0.22236359, 0.019508492, -0.11629477, 0.10801276, -0.021957984, -0.11272639, -0.03615053, -0.121420704, 0.2520835, 0.043395765, 0.1699031) * go_1(0.0, -1.0);
result += mat4(0.2886654, 0.21755892, 0.21757497, 0.08442575, -0.109903164, -0.67295986, 0.22886126, -0.027185453, 0.3761606, 0.23199768, 0.05908783, -0.1496158, 0.10832971, -0.3530352, 0.20234483, -0.07615918) * go_1(0.0, 0.0);
result += mat4(0.11043024, 0.18943349, 0.42394367, 0.029350199, -0.15085667, 0.020204183, -0.081609115, 0.07907012, 0.33805525, 0.0066280114, 0.0018284445, 0.022983696, 0.004984607, 0.0429299, -0.14568979, -0.29143327) * go_1(0.0, 1.0);
result += mat4(-0.16376027, -0.20387048, 0.06522074, 0.17484841, -0.13885716, -0.04380927, -0.03535832, -0.16978237, -0.004799155, -0.25407305, -0.039976966, -0.011992087, -0.22535577, -0.09583549, 0.0334331, 0.016292758) * go_1(1.0, -1.0);
result += mat4(-0.38688713, -0.20232083, 0.23887886, -0.10438324, -0.24170811, -0.074868314, 0.03977399, -0.22810821, -0.08257971, -0.11902456, 0.106009185, -0.078289054, -0.11932821, 0.024207884, 0.10070917, 0.79348284) * go_1(1.0, 0.0);
result += mat4(-0.4018743, 0.050456528, 0.035341598, -0.03788609, 0.12964934, -0.44461823, 0.029031694, 0.29604837, -0.102386944, -0.13805065, 0.0055692918, 0.14659804, -0.22499937, 0.14680648, -0.3443954, -0.06994176) * go_1(1.0, 1.0);
result += vec4(-0.0063428865, 0.0057986965, -0.12526293, -0.059240736);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(S)-Conv-3x3x3x8
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_2_tf
//!SAVE MAIN
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.08631539, 0.09499331, 0.065609254, 0.0, -0.023760278, -0.027293118, -0.022839671, 0.0, -0.012447854, -0.008565141, -0.012041815, 0.0, -0.033292875, -0.031266093, -0.02874347, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.08709062, 0.09760889, 0.08988583, 0.0, -0.09099671, -0.102120616, -0.098076016, 0.0, 0.057814583, 0.06999608, 0.05961344, 0.0, 0.12246188, 0.1319784, 0.12254915, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.07694916, 0.0822054, 0.07549296, 0.0, -0.046808865, -0.051509347, -0.035890795, 0.0, 0.01599848, 0.014677793, 0.0086143715, 0.0, 0.033142705, 0.0426565, 0.035911378, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.0008269902, 0.0009082343, 0.014101725, 0.0, 0.0006387551, 0.005079344, -0.013034868, 0.0, 0.013909732, 0.011026747, 0.012485332, 0.0, 0.027028518, 0.022164145, 0.03183532, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.33575395, -0.36700967, -0.34140685, 0.0, 0.35850254, 0.37535715, 0.34613726, 0.0, -0.12680013, -0.1256115, -0.112494245, 0.0, -0.061541136, -0.059120018, -0.06552594, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.047570463, -0.050335366, -0.04665491, 0.0, -0.110970475, -0.12363716, -0.11072252, 0.0, 0.041563414, 0.059771337, 0.045290247, 0.0, -0.17999935, -0.19700716, -0.17459513, 0.0) * go_0(0.0, 1.0);
result += mat4(0.078488424, 0.07483357, 0.08347933, 0.0, -0.0063715233, 0.00035415235, -0.010886946, 0.0, 0.031237155, 0.02512343, 0.034399323, 0.0, -0.023146842, -0.026732154, -0.027644241, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.05906883, -0.06784104, -0.04506148, 0.0, -0.003939601, -0.0011749315, -0.006256036, 0.0, -0.1662408, -0.16871658, -0.16598499, 0.0, 0.051277652, 0.04837499, 0.05120855, 0.0) * go_0(1.0, 0.0);
result += mat4(0.08158806, 0.08674548, 0.07437206, 0.0, -0.05765347, -0.06196418, -0.057311118, 0.0, 0.26747537, 0.2668808, 0.2389857, 0.0, -0.010376844, -0.01690028, -0.008414153, 0.0) * go_0(1.0, 1.0);
result += mat4(0.030539425, 0.02415435, 0.039969034, 0.0, 0.006491679, 0.014436586, 0.005435709, 0.0, -0.0058292216, -0.013982021, -0.011243379, 0.0, 0.025942149, 0.015361476, 0.019134998, 0.0) * go_1(-1.0, -1.0);
result += mat4(-0.06322247, -0.07146787, -0.06673042, 0.0, 0.028702464, 0.039047733, 0.039646607, 0.0, -0.072553575, -0.08046175, -0.07027197, 0.0, -0.1447189, -0.1539398, -0.1466465, 0.0) * go_1(-1.0, 0.0);
result += mat4(-0.046430312, -0.054549117, -0.048076343, 0.0, 0.032971155, 0.02980819, 0.029172963, 0.0, -0.017612953, -0.015100736, -0.01202649, 0.0, -0.026717246, -0.028401854, -0.034548033, 0.0) * go_1(-1.0, 1.0);
result += mat4(-0.0020459262, -0.0008748501, -0.012601956, 0.0, 0.0054226154, 0.008867029, 0.018921215, 0.0, -0.0021330053, -0.0036601655, -0.0022091097, 0.0, -0.08636891, -0.10203159, -0.09741449, 0.0) * go_1(0.0, -1.0);
result += mat4(0.07306159, 0.08245483, 0.06548199, 0.0, -0.1933229, -0.20326294, -0.19189309, 0.0, 0.107496604, 0.11584994, 0.10907522, 0.0, 0.30877885, 0.31297725, 0.30890995, 0.0) * go_1(0.0, 0.0);
result += mat4(0.03192904, 0.035112645, 0.033732817, 0.0, 0.074100636, 0.08349646, 0.06659352, 0.0, -0.1136165, -0.12470947, -0.11192198, 0.0, 0.14465587, 0.16328491, 0.13984151, 0.0) * go_1(0.0, 1.0);
result += mat4(-0.05098033, -0.053096622, -0.05533725, 0.0, 0.0045651463, -0.007682458, 0.0026934785, 0.0, -0.021199327, -0.016210148, -0.030939564, 0.0, -0.031621892, -0.046702545, -0.02647333, 0.0) * go_1(1.0, -1.0);
result += mat4(0.055801813, 0.06430485, 0.05052402, 0.0, 0.0241233, 0.013879883, 0.017344628, 0.0, 0.08707151, 0.10031039, 0.095042154, 0.0, -0.109053336, -0.11414017, -0.111838564, 0.0) * go_1(1.0, 0.0);
result += mat4(0.030582374, 0.03604719, 0.040417343, 0.0, 0.038665913, 0.036998056, 0.030004544, 0.0, 0.09209076, 0.10010001, 0.08389406, 0.0, -0.014655714, -0.0074866647, -0.012227013, 0.0) * go_1(1.0, 1.0);
result += vec4(-0.008303841, -0.008251826, -0.0069884053, 0.0);
return result + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Restore_CNN_Soft_UL.glsl
+1704
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shaders/Anime4K_Restore_CNN_Soft_VL.glsl
+873
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@@ -0,0 +1,873 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.14361712, -0.16690509, 0.37253398, -0.45202538, -0.21331833, -0.32675815, -0.33971128, 0.20261937, -0.20606318, -0.215143, -0.079716705, 0.15640882, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.17360486, -0.3435545, 0.08199117, 0.56259036, -0.120246716, 0.24312893, -0.021436244, -0.11864853, 0.19452724, 0.106943935, -0.077393375, -0.3503661, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.072465785, 0.2772823, 0.25493625, 0.3098145, -0.115831695, 0.072458096, -0.014782132, -0.15310249, 0.12178311, -0.015555423, -0.2229811, 0.16469522, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.18652022, -0.30702665, -0.59921896, 0.079824045, 0.4426619, 0.049343713, 0.44902903, -0.2711445, 0.20470268, -0.029203767, 0.29092675, 0.15562426, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.21041247, 0.48450592, -0.110547826, 0.3842122, 0.5303875, -0.26512837, 0.19846216, 0.045673862, 0.12773214, -0.05117536, -0.03510946, -0.30123934, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.3186735, 0.052702922, -0.12499774, 0.055628903, -0.16476867, 0.12642322, -0.18314636, 0.018323101, -0.3609603, 0.25649396, 0.3185421, -0.0057759956, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.16603558, -0.09259665, -0.28760567, -0.14319661, 0.12511417, -0.12551902, -0.00070228375, 0.20914114, -0.22466865, 0.1064727, 0.32598525, -0.08596318, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.03163653, 0.026722813, -0.4361858, -0.21164834, 0.4176763, 0.08203146, 0.35289326, -0.06128859, 0.20506798, -0.07098943, 0.1807802, 0.2658414, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.09821681, 0.058886815, 0.39192092, -0.06791861, -0.15682612, 0.09503328, -0.23400265, 0.026475023, -0.08800713, -0.043749645, -0.18024494, -0.08045564, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.040999945, 0.075765304, -0.0911532, -0.10705836);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf1
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.16406488, -0.2506693, -0.15592022, -0.05529256, -0.3997277, -0.229681, -0.07762124, 0.1843808, 0.07895815, 0.14437248, 0.219114, -0.048090722, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.2150676, 0.09080163, 0.19598733, -0.40578827, -0.33846557, -0.02518622, 0.037079208, 0.20188439, -0.013777575, -0.2369007, -0.30985412, 0.0411912, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.119948365, 0.23014452, -0.14962277, -0.096262485, 0.09625151, 0.2025487, 0.03933539, 0.12268028, -0.24373281, 0.19730613, 0.11634144, 0.12293635, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.08030697, -0.40114692, 0.21532272, 0.20222071, 0.073098, -0.004463858, 0.02820587, -0.18861918, -0.20994501, -0.12444653, -0.23178193, -0.13965288, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(0.14150894, 0.14563078, 0.697704, 0.20918849, 0.26776335, -0.34291518, 0.06394055, 0.17925078, 0.4165139, -0.042595536, 0.105312675, 0.231854, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.024318576, 0.16668217, 0.0729521, -0.7071404, 0.3121693, 0.37295797, -0.015632952, 0.33763757, 0.00706697, 0.10836652, -0.11132417, 0.292844, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(-0.14489831, 0.0027769986, -0.24509215, 0.5557927, -0.1104541, 0.005070684, -0.020032275, -0.5642205, 0.16048644, 0.07248175, 0.20387374, -0.38145426, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.33140838, -0.007438425, 0.26074782, 0.15947102, 0.219755, -0.14690271, -0.07412696, -0.24176367, -0.2230114, 0.027256912, -0.11255796, -0.05882673, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.19712369, 0.003842208, -0.10893768, 0.09047115, -0.10260409, 0.18662766, 0.009733428, 0.0039940844, -0.006444674, -0.15196493, 0.06641555, -0.06169452, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.029148052, -0.03215124, -0.6175828, 0.057135154);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.05195995, 0.15220909, -0.24354807, -0.109075695, 0.020483498, -0.14830725, 0.0018816335, -0.0072673927, 0.0649385, 0.046050787, -0.10789607, -0.046609525, -0.11455093, -0.009358115, 0.11280759, 0.18053898) * go_0(-1.0, -1.0);
result += mat4(-0.08619698, 0.091353096, -0.16379662, 0.07822936, 0.072919995, 0.1482446, 0.17846228, 0.04639898, -0.18998149, 0.1653338, -0.44187957, -0.010017503, -0.069953404, 0.08784785, -0.16391355, 0.35095468) * go_0(-1.0, 0.0);
result += mat4(0.088297926, 0.27259287, 0.013088447, 0.023461785, 0.10037149, -0.017414214, 0.08559885, -0.10822335, 0.10591637, 0.17240539, 0.15749931, 0.026641782, 0.11889612, -0.018095117, -0.08736018, 0.09934933) * go_0(-1.0, 1.0);
result += mat4(0.21426749, 0.0800268, -0.19816414, 0.07693414, 0.026270509, -0.11724047, 0.026078718, 0.13080709, 0.12207936, 0.056103867, -0.323923, -0.111454345, 0.059245165, 0.07257926, 0.032195322, 0.27225617) * go_0(0.0, -1.0);
result += mat4(-0.20130268, 0.026809234, -0.0020803472, -0.04394057, -0.1982125, -0.033678252, -0.12881789, 0.0025656687, 0.14193355, -0.2541802, -0.13239717, -0.05983356, -0.029376393, 0.33187667, 0.14438996, -0.21993925) * go_0(0.0, 0.0);
result += mat4(-0.12772562, 0.022498213, 0.24753313, 0.07440761, -0.17564529, 0.09971503, -0.013372, 0.09459552, -0.21597451, -0.40116546, 0.23446435, 0.1515452, 0.050813515, 0.19662157, -0.10604596, -0.24638489) * go_0(0.0, 1.0);
result += mat4(0.23866327, -0.2706382, -0.07480157, 0.03789501, 0.117716484, -0.095995456, -0.0435066, 0.013025061, -0.029759895, -0.036287807, 0.08570493, 0.030151363, 0.18863682, -0.27228612, 0.020479294, -0.07058746) * go_0(1.0, -1.0);
result += mat4(0.0026758043, -0.20750894, 0.2802277, -0.07761428, -0.012089615, -0.112726666, -0.03867965, -0.085082226, 0.034227375, 0.19662802, 0.26272395, 0.036822405, -0.23040786, -0.20173554, 0.07110236, -0.26939383) * go_0(1.0, 0.0);
result += mat4(-0.14012688, -0.067249745, 0.14726773, -0.0070919944, 0.19275497, 0.04460783, 0.18776374, -0.019941995, -0.076159865, 0.002261728, 0.238768, 0.039375026, 0.13200568, -0.023286859, 0.034387972, -0.01827453) * go_0(1.0, 1.0);
result += mat4(-0.0107542025, -0.13001555, 0.06596806, -0.03370635, -0.024291076, 0.10367739, -0.03396605, 0.041960735, 0.16230568, 0.024845246, -0.016806586, 0.22547007, -0.025378102, 0.064547986, -0.2113137, 0.042272836) * go_1(-1.0, -1.0);
result += mat4(-0.2219356, -0.049535394, 0.10289468, 0.14175911, 0.013058568, -0.15909089, -0.02546921, 0.11721571, 0.13020545, 0.39660174, -0.07601573, -0.16366366, -0.023935124, 0.06681424, -0.26143414, -0.07485668) * go_1(-1.0, 0.0);
result += mat4(0.1405031, -0.0645044, -0.15865614, 0.1829069, -0.22526503, 0.08991175, 0.041972812, -0.012462953, 0.3022753, 0.19457603, 0.022607598, -0.25460255, 0.028327515, 0.14420614, -0.077984214, 0.09278112) * go_1(-1.0, 1.0);
result += mat4(0.13224132, 0.13115089, -0.188987, -0.19428022, -0.080641985, 0.20909777, 0.067079, -0.19832124, 0.13150498, 0.04450851, -0.2770351, -0.010381239, 0.32295567, 0.04445836, 0.030657565, 0.020271502) * go_1(0.0, -1.0);
result += mat4(-0.08188993, 0.039709873, 0.16059989, -0.13279189, 0.11389818, -0.071865685, 0.09312801, -0.08816363, -0.65844774, -0.6854379, 0.21431407, 0.597198, -0.3734657, -0.116027676, 0.015932929, -0.0653176) * go_1(0.0, 0.0);
result += mat4(0.24136105, 0.21444799, -0.14235207, 0.08445492, 0.017335927, -0.49877876, -0.06224622, 0.1571534, 0.035594277, 0.059829034, 0.087631516, -0.17090686, -0.005452869, 0.13786094, 0.27586326, 0.046760406) * go_1(0.0, 1.0);
result += mat4(0.095078, 0.30310658, 0.010268592, 0.18540539, -0.20722823, -0.0005848572, -0.06464327, -0.111019135, -0.07837157, -0.12183798, -0.09187498, -0.3368629, -0.08216629, -0.20095807, 0.009563313, 0.024838416) * go_1(1.0, -1.0);
result += mat4(0.28712475, 0.0641969, -0.034764312, 0.13600683, -0.09211094, 0.009699817, -0.001104855, -0.026146285, 0.33425868, -0.16132632, 0.18051304, -0.104004376, 0.20768233, 0.0888418, 0.050057285, -0.020228952) * go_1(1.0, 0.0);
result += mat4(0.11642946, -0.021900529, -0.08910504, 0.15492517, -0.19726521, 0.1434987, -0.24708387, 0.006737377, 0.11353539, -0.15897587, -0.029491093, 0.06002862, -0.09640613, -0.11342702, 0.21375169, 0.0062719737) * go_1(1.0, 1.0);
result += mat4(-0.15513068, -0.3151456, 0.20799752, -0.07449935, -0.09226967, 0.112302735, -0.16211908, -0.37986508, -0.27418482, -0.10445544, 0.21112369, -0.06780466, -0.062341, 0.07758948, -0.012719117, -0.16481343) * go_2(-1.0, -1.0);
result += mat4(0.16382848, 0.14490448, -0.012869055, 0.1804095, -0.05304844, -0.14624795, -0.14816979, -0.17435774, 0.25356865, 0.11435022, 0.19412366, 0.19499794, -0.10189348, 0.023880519, 0.16822465, -0.17454338) * go_2(-1.0, 0.0);
result += mat4(0.04854064, 0.11944563, 0.022984248, -0.0852543, -0.0077684796, -0.044182744, -0.02888099, 0.27452356, -0.07887827, -0.15155658, -0.12841311, -0.21202831, -0.18533322, -0.05852455, 0.0761054, -0.22115342) * go_2(-1.0, 1.0);
result += mat4(-0.21520375, 0.11415518, 0.18909843, -0.16420493, -0.20909967, -0.3257246, 0.29332343, -0.029541709, -0.1679851, 0.14073059, 0.32720464, 0.13311239, -0.0021121972, -0.08773544, -0.045532625, 0.36960867) * go_2(0.0, -1.0);
result += mat4(0.58407414, -0.23632582, -0.16739567, 0.264173, 0.09584864, 0.18455075, 0.20051196, -0.04616608, 0.13441175, -0.0055764276, -0.08625195, 0.097847305, 0.19565724, -0.12183587, -0.11488796, 0.2520169) * go_2(0.0, 0.0);
result += mat4(0.01584208, -0.31471413, 0.017104283, 0.0682452, 0.18728764, 0.042960413, 0.06437809, -0.14483811, 0.13882554, 0.016576322, -0.029599546, 0.034904055, -0.20939542, -0.10213055, 0.08821727, 0.0030552552) * go_2(0.0, 1.0);
result += mat4(-0.2973797, 0.15791039, 0.10811437, -0.07947077, -0.26328024, -0.061920475, 0.12498813, 0.100570425, -0.018922925, 0.002256239, -0.094379805, -0.032315314, 0.48677605, -0.04879864, 0.028028104, -0.14557233) * go_2(1.0, -1.0);
result += mat4(0.016148027, 0.13884154, -0.19554809, -0.006344376, -0.013450252, 0.2581758, 0.10643088, 0.23465036, -0.078438915, -0.099644944, -0.1442203, -0.2285087, 0.33528957, -0.17052084, -0.26595074, 0.14794162) * go_2(1.0, 0.0);
result += mat4(0.041404825, -0.0813985, -0.19863169, -0.008302881, 0.023570588, -0.043578386, -0.20971186, 0.14654282, 0.048436746, 0.11266723, -0.25812748, -0.03340969, -0.18430679, -0.046258014, -0.007674466, -0.037139155) * go_2(1.0, 1.0);
result += mat4(-0.060693484, -0.08285047, 0.06638212, 0.18479855, 0.11099276, -0.14470962, 0.16915078, 0.32247669, -0.10845523, 0.0027510398, -0.014941873, -0.15779859, 0.051481526, -0.14748912, 0.12125527, -0.059839584) * go_3(-1.0, -1.0);
result += mat4(0.27571446, 0.01663349, -0.057985745, -0.089736536, -0.09541078, 0.18101417, 0.084854685, 0.11060913, 0.05631825, 0.066835634, -0.02837782, -0.049748126, -0.050051138, -0.05126488, 0.27121767, 0.06331115) * go_3(-1.0, 0.0);
result += mat4(-0.13630085, -0.03787764, 0.13351586, -0.024081819, 0.10403757, -0.0034796793, -0.04838045, -0.064052396, -0.34672704, -0.06271465, -0.024577484, -0.13450806, -0.013759927, 0.11706738, 0.07913658, -0.016639082) * go_3(-1.0, 1.0);
result += mat4(-0.023730129, 0.020174952, 0.048988737, -0.013395666, 0.0073305597, 0.059409764, -0.27721968, 0.13349204, -0.022947624, 0.112007216, -0.008175606, -0.14903043, -0.35755506, -0.02145208, -0.021762518, -0.17889674) * go_3(0.0, -1.0);
result += mat4(0.19315337, 0.16287236, -0.07667863, -0.020898499, -0.021058874, -0.20849414, -0.3571716, -0.13001479, 0.44977963, 0.016706442, -0.03471178, 0.35189477, 0.3050666, -0.019236205, 0.16278796, 0.3093703) * go_3(0.0, 0.0);
result += mat4(-0.1507458, -0.13747548, -0.05822537, 0.16035356, -0.08386089, -0.03476887, -0.0022021863, -0.032772254, 0.17572841, 0.004200287, 0.045312192, 0.27265742, -0.037853006, -0.056344658, -0.3095155, 0.15215549) * go_3(0.0, 1.0);
result += mat4(0.11428048, -0.19523771, 0.016499955, -0.03625986, 0.15670861, -0.077859454, -0.059640404, 0.023970904, -0.009806148, 0.0904747, -0.006978744, 0.15938658, 0.030886533, 0.13507655, -0.002613293, -0.1335748) * go_3(1.0, -1.0);
result += mat4(-0.20070468, 0.06281564, -0.026250493, -0.042895693, -0.06574456, 0.10412931, 0.12061968, -0.0750467, -0.10865931, -0.05715226, -0.022071969, 0.02608941, -0.21416737, -0.18582128, -0.091236554, -0.044943426) * go_3(1.0, 0.0);
result += mat4(-0.057988428, 0.21430638, -0.17991407, -0.051662743, 0.060244065, -0.021494022, -0.018070806, -0.09278776, -0.011404125, 0.064091586, 0.12852973, -0.16610947, 0.08740408, 0.045517463, -0.27932477, 0.11050971) * go_3(1.0, 1.0);
result += vec4(0.012687187, -0.11876551, -0.041985378, -0.10110911);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.07579397, 0.008718031, 0.03874428, -0.022123579, 0.064964466, -0.27502275, -0.0053009577, 0.11669645, 0.007708085, 0.009340055, -0.13001843, -0.03758108, -0.07045759, -0.08749642, -0.21329811, 0.13205966) * go_0(-1.0, -1.0);
result += mat4(-0.14087188, -0.12068241, 0.046639618, 0.05115712, 0.108357444, -0.05040456, 0.03280633, 0.09336891, -0.055509757, -0.036777936, 0.043575723, -0.041975956, -0.17782387, -0.12977566, -0.0736514, 0.17304243) * go_0(-1.0, 0.0);
result += mat4(-0.2638534, 0.0385968, 0.14743716, 0.18057759, -0.036564615, 0.107838504, 0.08324167, 0.13403444, -0.41366392, 0.072824344, -0.013165103, 0.06114856, -0.040475495, -0.14222278, 0.10455181, 0.0021660402) * go_0(-1.0, 1.0);
result += mat4(0.30221993, -0.06315301, 0.057081617, -0.020285107, 0.053984016, 0.13086873, -0.30863532, 0.028010197, 0.0070908144, 0.19940577, -0.013766302, -0.039389495, 0.28064504, 0.05970737, 0.074613005, -0.10217121) * go_0(0.0, -1.0);
result += mat4(0.042094592, -0.1725651, 0.3514404, 0.008126955, 0.08739713, 0.081543595, -0.12912413, 0.0854203, 0.28885832, 0.107783586, 0.22996111, 0.13907135, 0.071920335, -0.15172984, 0.07151959, 0.1406894) * go_0(0.0, 0.0);
result += mat4(-0.1072496, 0.03934067, 0.20014063, 0.051399443, -0.29610988, 0.18659018, -0.17761967, 0.08701774, -0.17493258, -0.08035252, 0.03155133, -0.13986085, 0.023490375, 0.083998375, 0.014006612, 0.03860323) * go_0(0.0, 1.0);
result += mat4(0.09324427, 0.10990628, -0.18758917, 0.0054821614, -0.09425237, 0.1192338, -0.063183226, -0.15047066, 0.15664004, 0.037881903, -0.06762073, 0.09622682, 0.028449943, -0.25338468, -0.18897526, -0.18360007) * go_0(1.0, -1.0);
result += mat4(0.030310342, 0.2083269, -0.04938559, -0.009608655, 0.019751158, 0.12257741, 0.090964966, -0.09864261, 0.058817703, -0.053385522, 0.15931179, -0.10585003, 0.06986225, 0.3435001, -0.33307528, -0.14035752) * go_0(1.0, 0.0);
result += mat4(0.13506691, -0.00015406386, -0.15279713, -0.2290177, 0.019568326, 0.41041428, 0.10566904, -0.08350839, 0.19839814, -0.31052053, -0.04471875, 0.07629561, -0.117245845, 0.19819061, 0.1683647, 0.11896638) * go_0(1.0, 1.0);
result += mat4(0.06920538, 0.2656798, -0.06529862, -0.1695985, -0.21614018, 0.17208195, 0.123307765, -0.061470803, 0.07827313, -0.18543327, 0.0937214, 0.098630935, -0.17667519, -0.01978596, -0.09126346, -0.034487445) * go_1(-1.0, -1.0);
result += mat4(0.030779282, -0.24423946, -0.08623178, 0.1490136, 0.029337894, 0.17548573, -0.05990294, -0.29123273, -0.10020608, -0.3527181, -0.105286725, 0.27502912, -0.25686985, 0.18521136, -0.110095225, -0.07999611) * go_1(-1.0, 0.0);
result += mat4(-0.03266192, 0.045139533, -0.03275437, -0.13748369, 0.15633966, 0.089048125, -0.07592367, -0.09013536, -0.18907873, 0.08265683, -0.069233745, 0.27151683, -0.0647864, -0.15308899, 0.021954, 0.05528693) * go_1(-1.0, 1.0);
result += mat4(0.10284642, -0.14667438, 0.18669777, 0.053000864, -0.12383836, -0.037600834, 0.29438737, 0.04739594, 0.07846367, -0.11676573, -0.048153553, -0.34298027, 0.028358897, 0.119508564, 0.08012271, -0.019992562) * go_1(0.0, -1.0);
result += mat4(-0.22123314, -0.2223458, 0.002969434, -0.07143056, 0.027859585, 0.010600199, 0.056626067, 0.15160584, -0.16350581, -0.044484995, -0.1805076, 0.33351076, 0.073631234, 0.0167081, 0.15704727, 0.107799366) * go_1(0.0, 0.0);
result += mat4(-0.006882137, 0.19744347, 0.041128602, 0.17459555, 0.10376277, -0.12519689, 0.0993647, -0.13044195, 0.10485074, 0.1712284, 0.13369127, 0.24649777, -0.038975652, -0.24550107, 0.19567624, -0.09961197) * go_1(0.0, 1.0);
result += mat4(0.24763626, -0.0902329, 0.21201743, 0.078442305, 0.013261817, -0.019013328, -0.07576136, 0.14993069, -0.24216306, -0.05666454, -0.064632, -0.38150248, 0.14649945, -0.020437164, -0.13821694, -0.026110074) * go_1(1.0, -1.0);
result += mat4(0.21790951, -0.08288076, 0.011415891, -0.1446542, -0.15910968, -0.21221179, -0.06154624, -0.028623452, 0.10872824, 0.17089185, 0.26339474, -0.42544034, 0.095593184, 0.20962211, 0.0034138034, 0.024243662) * go_1(1.0, 0.0);
result += mat4(-0.050784085, 0.06333505, 0.041011192, 0.17474842, 0.14517011, -0.4340653, -0.10313813, 0.12524489, 0.18353751, 0.4589042, -0.037463415, 0.07841999, -0.114173576, -0.10669665, 0.029463472, -0.14393249) * go_1(1.0, 1.0);
result += mat4(0.12771326, -0.06622126, 0.08327681, -0.15113758, -0.114005744, 0.059280578, 0.04071302, -0.11074485, -0.23312584, -0.032968838, 0.13736604, -0.15776984, 0.067029156, 0.0580463, 0.20655325, -0.2112593) * go_2(-1.0, -1.0);
result += mat4(0.16148107, 0.02879793, -0.24918973, 0.009605728, -0.102177374, 0.050518002, -0.00015101423, -0.046602443, 0.5081422, -0.044740383, -0.06243097, 0.076031074, 0.1157983, 0.03965003, 0.109161526, -0.36589798) * go_2(-1.0, 0.0);
result += mat4(-0.018941574, 0.000912917, -0.2585099, 0.13668273, 0.062664494, -0.09246434, -0.14594543, -0.11160076, 0.015663203, -0.02447256, -0.070794076, 0.11807077, 0.12931514, 0.14109722, -0.07506544, -0.012781477) * go_2(-1.0, 1.0);
result += mat4(-0.48816162, 0.16294348, 0.011336221, 0.107038386, -0.01978858, 0.039453425, 0.112853855, 0.007536018, -0.005471479, -0.11315905, 0.032013394, 0.11523904, -0.2504089, 0.04803124, -0.09689627, 0.24372064) * go_2(0.0, -1.0);
result += mat4(0.61343086, 0.09531598, -0.24803302, 0.23788263, 0.13495958, 0.24733612, 0.1575427, -0.06863399, 0.2341275, -0.15821049, -0.165848, 0.0290172, -0.010136783, 0.04415787, -0.2619951, 0.09987892) * go_2(0.0, 0.0);
result += mat4(0.19411229, 0.24528526, -0.250216, -0.33602244, 0.17639299, -0.052413136, 0.122578874, 0.028618507, 0.25713214, 0.22033587, -0.19680484, 0.028938502, -0.083384775, -0.06476429, 0.036840588, -0.14297847) * go_2(0.0, 1.0);
result += mat4(-0.2897587, -0.12176407, 0.19259763, -0.106649496, -0.026704982, -0.036201328, -0.06753124, 0.37967134, -0.20092241, 0.006229027, 0.12085137, -0.09810282, -0.1501556, -0.0099991355, 0.25044358, 0.08538966) * go_2(1.0, -1.0);
result += mat4(-0.11304407, -0.24147832, 0.21644448, -0.035938095, -0.036439262, -0.042730987, -0.04384442, 0.10325233, -0.32405272, -0.11873838, -0.15075137, -0.036929503, -0.10808143, 0.25799102, 0.13749036, 0.5451476) * go_2(1.0, 0.0);
result += mat4(-0.24142508, -0.04895773, 0.09022442, 0.2821465, -0.06298706, -0.1807906, 0.02960867, 0.22310257, -0.1915311, 0.2900501, 0.1670845, -0.080343634, 0.25779882, -0.27144584, -0.23575482, -0.14724477) * go_2(1.0, 1.0);
result += mat4(0.020742219, -0.10571064, -0.0010137435, 0.14439318, 0.32805952, -0.027505733, -0.07111945, 0.07043296, -0.09525604, 0.03175366, -0.14633068, -0.15810682, 0.18050082, 0.08191363, 0.07047039, 0.0018573351) * go_3(-1.0, -1.0);
result += mat4(-0.023874652, 0.14996628, 0.11298528, -0.1508891, -0.052415725, -0.02570088, 0.0055150646, 0.16365297, -0.046594325, 0.18095094, 0.09934885, -0.066233225, 0.2404304, -0.112728044, 0.14004207, 0.11369578) * go_3(-1.0, 0.0);
result += mat4(0.14799033, 0.025304591, 0.031008242, 0.03795376, -0.15800071, -0.043169834, 0.10797239, 0.17129694, 0.09674189, -0.11010672, 0.07283912, -0.11063907, 0.108249694, 0.025199141, 0.09162024, -0.1827302) * go_3(-1.0, 1.0);
result += mat4(-0.08983324, 0.07823903, -0.137839, 0.11909572, 0.11996334, -0.05947995, -0.25459376, -0.18159851, 0.044489045, 0.052461334, 0.13674203, 0.12579007, -0.33665392, -0.07313439, -0.013640538, -0.010538632) * go_3(0.0, -1.0);
result += mat4(0.0884388, -0.10034604, 0.047238693, 0.12025125, -0.16648497, -0.20305477, 0.08240087, -0.17453992, 0.19033237, 0.28438845, -0.32885036, 0.14011146, -0.13389368, -0.012868356, -0.15273216, -0.19119217) * go_3(0.0, 0.0);
result += mat4(0.09196779, -0.13800567, 0.08842335, -0.18658079, 0.17512907, 0.021311145, -0.06347847, -0.13827331, -0.10689703, -0.1707886, -0.15724367, -0.167876, 0.22493233, 0.3070637, -0.035266686, -0.0068385694) * go_3(0.0, 1.0);
result += mat4(-0.2739973, 0.07336105, -0.196827, 0.060224827, 0.05752693, -0.014346674, 0.025412507, -0.27530053, 0.27755278, -0.07631679, -0.053861864, 0.113329165, -0.31025892, -0.012681806, 0.06228483, -0.054306302) * go_3(1.0, -1.0);
result += mat4(-0.16827694, 0.16333361, 0.068389125, 0.24560109, 0.11659498, 0.052896734, -0.020310031, -0.17830387, -0.07551057, -0.01822214, -0.037451357, 0.24607496, -0.2033962, -0.11107965, 0.05005381, 0.13685274) * go_3(1.0, 0.0);
result += mat4(0.13665263, -0.24541081, 0.0012457973, -0.012630116, -0.09559698, 0.17756529, -0.039300505, -0.044217475, -0.22984356, -0.2294885, 0.104534455, -0.04131095, 0.084843494, 0.038027752, -0.106351435, 0.18853655) * go_3(1.0, 1.0);
result += vec4(0.010324113, -0.01262194, 0.0762259, -0.014071781);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.06961854, 0.06914646, 0.120440066, -0.04889646, -0.012870159, 0.01994181, 0.052958567, -0.14740478, -0.0027199117, -0.004924673, 0.10131955, -0.11496505, -0.06742836, 0.08287776, 0.11206167, -0.021625644) * go_0(-1.0, -1.0);
result += mat4(-0.025003597, 0.05389498, 0.14938618, 0.12255602, 0.050963886, 0.16300994, 0.17633909, 0.03229484, 0.2092038, 0.13367431, -0.09538967, 0.1636076, -0.022082182, 0.10898033, 0.0422286, -0.062253885) * go_0(-1.0, 0.0);
result += mat4(-0.0018258828, 0.08333001, 0.002765037, -0.022241322, 0.1628206, 0.14671557, 0.3001151, 0.030986495, 0.05225914, -0.04880372, 0.15963705, 0.17972782, 0.055128947, 0.114626616, 0.03460699, -0.07679627) * go_0(-1.0, 1.0);
result += mat4(-0.08866054, 0.0882386, 0.13833097, -0.079257324, -0.03060485, 0.049487974, 0.092268504, -0.17009564, 0.021603461, 0.20750603, 0.18884364, -0.10977116, 0.31758478, 0.053426504, 0.093257, 0.14912026) * go_0(0.0, -1.0);
result += mat4(0.13069148, 0.21368778, -0.4405162, -0.009193694, 0.090230525, -0.15897161, -0.005089127, -0.06011075, -0.27336648, -0.021869129, -0.2084852, -0.0850094, -0.10896211, 0.27229342, -0.044210993, -0.03346366) * go_0(0.0, 0.0);
result += mat4(0.05807779, 0.08506817, 0.23984064, 0.12547795, 0.036945213, 0.039088245, -0.10716132, -0.15966031, 0.13548918, 0.07746645, -0.248966, -0.15717135, -0.059498273, 0.0088413125, -0.02828682, -0.021795277) * go_0(0.0, 1.0);
result += mat4(0.013289853, 0.007272393, 0.06875863, -0.053158432, -0.03578172, 0.20148727, 0.1961931, -0.16910668, 0.03259818, 0.054221123, -0.0326064, 0.06493197, 0.053533003, -0.11878436, 0.14398894, -0.17543368) * go_0(1.0, -1.0);
result += mat4(-0.17906332, 0.1111989, 0.047910325, 0.11560207, 0.09790123, -0.2023765, 0.04265116, 0.0075303926, 0.012974969, -0.0853146, -0.04037416, 0.14489946, -0.0716403, -0.055603035, -0.30376709, -0.011667526) * go_0(1.0, 0.0);
result += mat4(-0.053314358, -0.012657763, 0.0077033425, 0.12168191, 0.016371705, 0.11979062, -0.08494259, -0.009617431, 0.1303907, 0.043279216, -0.17285421, 0.15823162, -0.030746695, 0.121796146, 0.13097613, 0.0024783302) * go_0(1.0, 1.0);
result += mat4(-0.11677548, -0.06592395, -0.022185773, 0.0031006308, -0.00906918, -0.0006412884, -0.00083743286, 0.083697535, -0.060518038, 0.14058606, 0.122444086, 0.17866874, 0.02376487, -0.06369968, -0.026537767, 0.21466877) * go_1(-1.0, -1.0);
result += mat4(0.12340551, -0.015656117, 0.051990572, 0.04361656, -0.05291406, 0.10119005, 0.17603071, 0.10464767, 0.03288951, 0.091776796, -0.17373918, -0.12871055, 0.10205503, -0.17783496, -0.17020486, -0.09781929) * go_1(-1.0, 0.0);
result += mat4(-0.01845568, -0.008877597, 0.14279746, 0.031775143, 0.041680444, 0.08784194, 0.044564564, -0.0011678484, -0.010219994, 0.10472676, 0.046920944, -0.110975444, -0.1197329, -0.11303071, -0.14893234, -0.091113724) * go_1(-1.0, 1.0);
result += mat4(-0.03856561, -0.12173735, 0.040876064, 0.13847597, -0.14995924, -0.13332345, 0.18687452, -0.22562599, 0.08920785, -0.0017916666, 0.019448435, 0.2306492, -0.054546747, -0.1465318, -0.10628867, -0.0073827514) * go_1(0.0, -1.0);
result += mat4(0.12689775, 0.11765595, 0.13039489, 0.06940679, 0.2672624, -0.03880143, -0.11693099, -0.05516293, -0.09665274, -0.2583138, 0.22954193, -0.19324702, -0.39629623, -0.35457405, 0.10052407, -0.19756024) * go_1(0.0, 0.0);
result += mat4(-0.06307673, -0.096393906, -0.0075868783, -0.25133502, 0.03436604, -0.008201423, 0.06386583, 0.106548436, 0.014626536, 0.03485315, -0.043418273, -0.1141408, 0.005102567, -0.11701804, -0.01645601, -0.057083) * go_1(0.0, 1.0);
result += mat4(-0.019062268, 0.020416953, -0.08854219, -0.037497565, 0.09449262, -0.09127615, -0.063330196, 0.08736769, -0.12394077, -0.17950213, -0.11101161, 0.16013645, -0.09370585, 0.0047447495, -0.04288296, 0.00314098) * go_1(1.0, -1.0);
result += mat4(-0.08263743, -0.14441489, -0.14886282, -0.05694989, 0.4254853, 0.10864832, 0.26322174, -0.042006254, 0.24269578, -0.053833783, -0.11558995, -0.066605136, -0.064816564, -0.25914803, -0.017624624, 0.0402331) * go_1(1.0, 0.0);
result += mat4(-0.100058846, -0.030422715, -0.19600148, -0.13322774, 0.1796998, 0.087852575, 0.07324559, -0.0047889417, 0.007248384, 0.08930289, 0.09643387, -0.0060126656, 0.16357517, -0.06628222, 0.030618697, 0.097391844) * go_1(1.0, 1.0);
result += mat4(0.09539377, -0.10802722, -0.014952347, 0.1683223, -0.03919409, 0.041155327, -0.012186347, -0.030456683, -0.015024977, 0.061710294, 0.00049987395, 0.27338788, 0.04845922, -0.014114694, -0.06371904, 0.008664) * go_2(-1.0, -1.0);
result += mat4(0.063082814, -0.02755945, -0.15663072, -0.053271208, 0.070173115, 0.038125586, -0.11840675, -0.016337764, -0.07963128, -0.06404943, 0.23033784, -0.007848355, -0.04434174, -0.092422634, -0.013985954, -0.038096108) * go_2(-1.0, 0.0);
result += mat4(0.037121523, -0.020622304, 0.086708754, 0.045878958, -0.13188364, -0.022858748, -0.22411314, -0.08116162, 0.048863005, 0.039260563, -0.04934298, 0.11015131, 0.028177079, 0.025245499, 0.1067935, 0.15324049) * go_2(-1.0, 1.0);
result += mat4(0.068235874, -0.14401375, -0.032677606, 0.02996807, -0.11290208, 0.114133574, -0.09627152, 0.053930115, 0.14560424, -0.15935057, -0.13495773, 0.29710987, -0.23231608, 0.14334352, 0.070753984, -0.08189047) * go_2(0.0, -1.0);
result += mat4(-0.22378983, -0.09858718, 0.30114698, -0.0048736916, 0.02198528, 0.21444769, -0.11228022, -0.14812283, 0.092372194, 0.1598949, 0.2534843, 0.4932573, -0.16642319, 0.12972073, -0.04147445, -0.09365905) * go_2(0.0, 0.0);
result += mat4(-0.132199, -0.0798279, -0.18289213, -0.15133642, -0.033057958, 0.007495456, 0.070398286, 0.049111973, -0.03361502, 0.032059964, 0.003850814, 0.22922683, 0.20279214, -0.07350396, 0.27681342, 0.11891455) * go_2(0.0, 1.0);
result += mat4(-0.095355205, -0.08533997, -0.043466177, 0.03183743, 0.0048090555, -0.07969942, -0.044769235, 0.15350139, 0.06485437, -0.027922742, 0.0850892, 0.00069019396, 0.035737295, 0.20380683, 0.03413393, 0.025630401) * go_2(1.0, -1.0);
result += mat4(0.26616514, -0.024066277, 0.09220501, 0.09643391, -0.014585791, 0.22894275, -0.053128377, -0.08719867, -0.08819027, 0.01932318, -0.113633566, -0.15435793, 0.10542983, 0.029819246, 0.33675614, -0.059085276) * go_2(1.0, 0.0);
result += mat4(-0.031325538, 0.040770013, -0.049561024, -0.2095101, -0.09537227, -0.075998954, -0.04323478, -0.05470401, -0.110066876, 0.059249427, -0.042351052, -0.047700178, 0.21932366, -0.12850443, 0.035361454, 0.013699006) * go_2(1.0, 1.0);
result += mat4(-0.08417607, 0.113477044, 0.03574209, 0.007835156, 0.2021717, 0.030678429, 0.19313626, -0.03506592, 0.04233059, -0.08540689, -0.07128929, -0.13245375, -0.08918939, -0.042622462, 0.19011301, -0.18228586) * go_3(-1.0, -1.0);
result += mat4(-0.19981891, -0.16255717, 0.042949058, -0.06921157, 0.279451, -0.11536949, -0.13747527, -0.10020231, -0.013784027, -0.06727259, 0.3556115, 0.08460814, -0.15348805, -0.07692103, -0.018658075, 0.0037634284) * go_3(-1.0, 0.0);
result += mat4(-0.09063814, -0.036312047, 0.13528036, 0.0070792423, 0.11834377, 0.02331524, 0.09386154, 0.07144935, 0.033078104, -0.1397121, 0.09283168, 0.2118868, -0.06313442, 0.032146804, 0.0060367053, 0.005822348) * go_3(-1.0, 1.0);
result += mat4(0.035949346, 0.06469895, -0.0051385965, -0.078584194, 0.43195483, 0.0045206803, -0.24012396, 0.21436183, -0.013394304, -0.04198491, 0.06645506, -0.23869638, -0.02311661, 0.06589808, 0.16800866, -0.21120183) * go_3(0.0, -1.0);
result += mat4(-0.24937367, -0.042277586, 0.08117994, 0.3105402, -0.26087892, -0.10325264, -0.08689298, 0.0064907144, 0.031937066, 0.09783758, -0.9514562, -0.104631096, 0.27990052, 0.36389935, 0.057687905, 0.14072314) * go_3(0.0, 0.0);
result += mat4(-0.19865227, 0.09398578, 0.06911146, 0.13077813, 0.024283953, -0.0036808057, -0.036725305, -0.024085987, 0.061556816, 0.0029027078, 0.24621862, 0.112107046, 0.068239614, 0.052718107, 0.20803368, 0.065064415) * go_3(0.0, 1.0);
result += mat4(-0.055511028, -0.08662344, -0.074801624, -0.021917107, 0.18730342, 0.047116343, 0.14872652, 0.10580926, 0.16962165, 0.16628978, 0.17343876, -0.1697205, 0.047853447, -0.22705628, 0.031780355, -0.09273609) * go_3(1.0, -1.0);
result += mat4(-0.17306295, -0.067308225, -0.17174196, -0.13221754, -0.24622467, 0.029901514, -0.12799668, -0.04145667, -0.14546, 0.013308366, 0.028113116, 0.1678875, 0.07922657, -0.015584258, 0.17059629, 0.07330948) * go_3(1.0, 0.0);
result += mat4(-0.09916512, 0.0623665, -0.022458963, 0.061962493, 0.18569344, -0.06590287, 0.111395456, 0.08477448, -0.03609452, 0.024279302, -0.083497405, 0.06459743, -0.22963138, -0.12262581, 0.006980887, -0.06653474) * go_3(1.0, 1.0);
result += vec4(-0.023354841, 0.0019475977, -0.0705355, -0.08216019);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf1
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.13703531, 0.06135254, -0.05032855, 0.0039429665, -0.05997914, 0.03737832, -0.09703001, -0.08112204, -0.096779875, 0.086732335, 0.03021232, -0.14636067, 0.079296306, 0.006656948, 0.08904937, 0.06196539) * go_0(-1.0, -1.0);
result += mat4(-0.26374274, 0.16698441, -0.08554561, 0.03734819, -0.08525629, 0.12257442, 0.015473835, 0.13266069, 0.008439022, -0.05002345, 0.03232084, 0.17349075, 0.014541135, -0.10353582, 0.13339484, -0.13474584) * go_0(-1.0, 0.0);
result += mat4(0.05637785, -0.049726896, 0.06597188, 0.0058668824, -0.10623723, 0.13441847, 0.015975956, -0.07811197, 0.05975957, -0.062021587, -0.06533749, 0.083735935, 0.02666556, 0.029904561, -0.0102926055, -0.10931666) * go_0(-1.0, 1.0);
result += mat4(-0.22616413, 0.042830274, -0.116208926, -0.053796053, -0.1112898, 0.20703097, -0.34109348, -0.065111674, -0.17255561, 0.16784647, 0.00193431, -0.043237597, -0.02353095, -0.1302526, 0.05119598, 0.01403269) * go_0(0.0, -1.0);
result += mat4(0.086109385, -0.053006437, -0.24992542, 0.007938272, -0.0027849772, 0.09198081, -0.17596659, 0.030577915, -0.31807357, -0.29618275, 0.0056317504, 0.3662508, 0.16753437, -0.12481447, -0.057597708, -0.14973637) * go_0(0.0, 0.0);
result += mat4(-0.14585754, 0.027715279, -0.039035518, 0.11505972, 0.0038059987, -0.20368981, -0.014822689, 0.094012834, -0.20693347, -0.37216228, -0.12690443, 0.2727411, -0.15475404, -0.01948714, -0.12414737, 0.10378582) * go_0(0.0, 1.0);
result += mat4(-0.11750072, 0.051394574, -0.011073509, -0.1100907, -0.1389209, -0.10706716, 0.0017484069, -0.059556484, -0.20038931, 0.24976069, -0.011129469, -0.080446415, 0.19259459, -0.14515446, -0.07275811, 0.039244935) * go_0(1.0, -1.0);
result += mat4(-0.101780266, 0.003889027, 0.010705813, 0.011088775, -0.20406786, -0.009807119, 0.23070864, -0.030722639, -0.012015954, 0.025211284, -0.29246482, 0.04907962, -0.10485314, 0.21213223, 0.15788344, -0.014188987) * go_0(1.0, 0.0);
result += mat4(0.1546438, -0.15895118, 0.010730076, 0.034053337, -0.018741185, -0.008467293, 0.13143812, 0.022905342, -0.27543658, 0.3054419, 0.07025048, 0.29454592, -0.0032350307, 0.01671764, 0.081928045, -0.10051137) * go_0(1.0, 1.0);
result += mat4(-0.014834404, 0.07487839, -0.16554666, -0.04127725, 0.15239598, -0.017607473, 0.09927426, 0.15027349, -0.2073968, 0.041613225, -0.10290223, -0.12565911, 0.022021815, -0.07609557, -0.16338238, 0.04468512) * go_1(-1.0, -1.0);
result += mat4(0.01768976, 0.0637369, 0.006542782, -0.0022799321, -0.14728844, -0.058199093, -0.029928437, 0.079634584, 0.095769696, -0.13526416, 0.20718366, -0.10116214, 0.1688786, -0.08906526, 0.020397741, 0.06541649) * go_1(-1.0, 0.0);
result += mat4(-0.033067044, 0.10095467, -0.13792777, 0.022673525, -0.012797848, -0.11222105, 0.11443862, 0.04893716, 0.11389547, -0.07337629, 0.21447009, -0.032212257, 0.23070163, -0.18156143, 0.14542435, -0.10207653) * go_1(-1.0, 1.0);
result += mat4(-0.22985588, 0.012290226, 0.018557416, -0.064000085, 0.012936774, -0.104329854, -0.0719669, 0.24160251, 0.03716294, -0.093069404, -0.12110873, 0.013251573, -0.12731232, -0.1995954, -0.07679729, 0.06823493) * go_1(0.0, -1.0);
result += mat4(-0.23359679, -0.052702624, -0.08710696, 0.19826421, 0.12880315, 0.19875911, -0.20581602, 0.32980308, -0.14479029, 0.099422045, 0.44737315, 0.13044962, 0.12935589, -0.13621494, 0.14902137, 0.09162335) * go_1(0.0, 0.0);
result += mat4(0.10801082, -0.22644557, 0.035719793, -0.12396268, 0.2906566, 0.119107775, -0.15470679, 0.17997102, -0.12866725, -0.12695445, -0.06832712, 0.017622665, 0.08215481, 0.065239124, -0.1256659, -0.06811625) * go_1(0.0, 1.0);
result += mat4(-0.097956754, 0.09383762, -0.19813508, 0.0035260199, -0.14278924, 0.0660843, 0.19110036, 0.11025648, 0.15489757, 0.011157471, -0.16014035, -0.050144047, 0.0032884583, 0.061513808, -0.03385016, -0.08534137) * go_1(1.0, -1.0);
result += mat4(0.09499595, 0.04162155, -0.26091605, -0.18066265, -0.21523187, -0.036668014, 0.09586408, 0.059850723, -0.10890033, 0.28857672, -0.32993382, 0.05107536, 0.012024929, -0.27968574, 0.15081042, -0.07215633) * go_1(1.0, 0.0);
result += mat4(0.15673614, -0.064684846, -0.13838115, 0.1264376, -0.23772664, 0.11594999, 0.0898036, -0.092647165, 0.26081505, 0.05110054, -0.017965768, 0.06740709, -0.24977967, 0.05645255, -0.08204664, 0.0435078) * go_1(1.0, 1.0);
result += mat4(0.02560865, -0.1613835, 0.05876215, 0.101586774, -0.00058163394, 0.0013674656, 0.039857507, -0.002919488, 0.05573127, -0.04311352, 0.05305971, 0.10097247, 0.036392104, -0.025071293, 0.029137935, -0.08593101) * go_2(-1.0, -1.0);
result += mat4(0.12406646, -0.21399136, 0.05611706, 0.021867402, -0.037916705, 0.05941278, 0.11277805, -0.12387807, 0.008577062, -0.045022104, 0.16465645, -0.07607619, 0.035939474, 0.07221297, -0.13557361, 0.07806311) * go_2(-1.0, 0.0);
result += mat4(-0.19589397, 0.011909766, -0.01258029, -0.065313555, 0.07366803, -0.0812486, 0.115863465, 0.019752543, -0.15854625, 0.11246406, 0.007201303, 0.0008530298, -0.0287012, -0.036224626, 0.059641607, 0.09416462) * go_2(-1.0, 1.0);
result += mat4(0.20361906, -0.20671111, -0.1126041, 0.049152024, 0.17586707, 0.10047246, 0.13149028, -0.16302691, -0.08559989, -0.17756243, -0.0061752857, 0.124775924, 0.020011704, 0.17147969, -0.0003063916, -0.015890911) * go_2(0.0, -1.0);
result += mat4(0.11051906, 0.13774526, 0.29333818, -0.029932505, -0.07021508, 0.046212852, 0.11793092, -0.081830084, -0.18609521, -0.108229816, -0.044969153, -0.041069634, -0.13936938, 0.11356429, 0.19260931, 0.093210496) * go_2(0.0, 0.0);
result += mat4(0.010555152, -0.15726428, -0.13187453, -0.12396212, 0.17309372, 0.100884624, 0.11547714, -0.030650318, -0.21877939, -0.0015167049, -0.090150684, 0.029793834, 0.1465573, -0.038805004, -0.033211514, -0.04926991) * go_2(0.0, 1.0);
result += mat4(0.10250675, -0.030922988, -0.008545946, 0.024706079, 0.105154864, -0.06838902, -0.12627976, 0.032457255, 0.21747419, -0.12865087, -0.056018118, 0.07152061, -0.11214344, -0.029831404, 0.044855718, -0.04316971) * go_2(1.0, -1.0);
result += mat4(0.12806997, 0.12385188, -0.06831653, -0.015933594, 0.08645126, 0.013043054, -0.19599608, -0.060719345, -0.23076192, 0.19181651, 0.1292978, 0.036317572, -0.061692618, -0.25434494, -0.10012762, 0.06366783) * go_2(1.0, 0.0);
result += mat4(-0.11098094, 0.034632366, -0.053560194, 0.08499573, 0.20842391, -0.020262053, -0.023394845, 0.048971336, 0.10436084, 0.12614205, 0.035942093, -0.07592917, -0.07455495, -0.012119416, -0.011834865, 0.21032205) * go_2(1.0, 1.0);
result += mat4(-0.00055114913, -0.06662242, -0.009248925, -0.0024843027, -0.22993802, -0.04828541, -0.08667693, -0.093717255, 0.14400347, 0.030130679, -0.01590651, 0.10399553, 0.14478837, -0.11228224, -0.039653912, -0.042144097) * go_3(-1.0, -1.0);
result += mat4(-0.011044514, -0.09870122, -0.24879128, 0.111903004, 0.092567004, 0.06100228, 0.0053522107, 0.065252475, -0.18228072, 0.25602147, -0.2863954, 0.103064165, 0.052214783, -0.017557586, -0.07434391, 0.021111684) * go_3(-1.0, 0.0);
result += mat4(0.04537496, -0.024985183, -0.15247425, -0.0009907635, -0.09677889, 0.09858206, -0.030702371, 0.03539458, -0.029408665, 0.24335481, -0.1918429, 0.08056781, 0.1548214, 0.2850923, -0.15131058, -0.052048493) * go_3(-1.0, 1.0);
result += mat4(0.055409238, -0.13090813, -0.016612396, -0.019183576, -0.18499215, -0.013184845, 0.038750056, 0.10953814, -0.18437819, 0.19183092, -0.09780726, -0.046532292, -0.10841146, -0.17717329, -0.1731886, -0.06741823) * go_3(0.0, -1.0);
result += mat4(0.27919188, -0.14904179, 0.22850563, -0.17785722, -0.32835802, -0.19134615, 0.32093298, 0.24667856, 0.51687604, -0.59745705, 0.23057328, -0.41411245, -0.4234339, -0.03083826, -0.13972719, 0.1729651) * go_3(0.0, 0.0);
result += mat4(0.042352367, -0.109207705, -0.31047532, 0.08896513, -0.2187999, -0.117951825, 0.060705405, -0.10287316, 0.013815159, -0.023699438, -0.053614594, 0.09065406, -0.15286967, -0.101803675, 0.019537682, 0.12476822) * go_3(0.0, 1.0);
result += mat4(0.0016159728, 0.04094818, 0.012745902, -0.051958837, 0.014557628, 0.00061195926, -0.11669799, 0.08763203, -0.27820277, 0.17871988, 0.10634548, 0.05234229, 0.03827577, -0.3117398, 0.027675012, 0.0655132) * go_3(1.0, -1.0);
result += mat4(-0.0025006514, -0.1457415, 0.053443488, -0.0050932285, 0.01582735, 0.18783967, -0.066718, -0.15485887, -0.039741408, -0.21280284, 0.1502977, 0.09507925, 0.17178543, -0.014238171, -0.35757875, 0.026410697) * go_3(1.0, 0.0);
result += mat4(-0.19434428, -0.079038315, -0.017264817, -0.04004242, 0.0063378955, 0.027904915, 0.02571677, 0.09895997, -0.036605608, -0.19889063, 0.015920812, -0.014095519, 0.4363826, -0.14143194, 0.015463533, -0.1656284) * go_3(1.0, 1.0);
result += vec4(0.08523788, 0.052322272, 0.08955637, -0.06945023);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.048841953, -0.010713874, 0.09238948, -0.0789676, -0.093295254, 0.063662216, -0.023454266, -0.06739832, 0.027439933, 0.007399632, -0.03550259, -0.013834889, 0.17168441, 0.06177229, 0.023950668, 0.14574073) * go_0(-1.0, -1.0);
result += mat4(0.117296845, -0.07858486, -0.02099164, -0.024150673, -0.11662526, -0.26440877, -0.05449493, -0.13366842, -0.06870016, 0.12457937, 0.25052628, 0.013982828, 0.15127566, -0.031653196, -0.13851896, 0.04148151) * go_0(-1.0, 0.0);
result += mat4(0.024360385, -0.31051615, 0.012448293, -0.11265428, 0.06123606, -0.0701936, 0.033618104, -0.064061284, -0.06969811, -0.108838804, 0.014163671, 0.02596177, 0.20071186, -0.0028744373, 0.13663651, -0.05592813) * go_0(-1.0, 1.0);
result += mat4(0.13492568, -0.0726796, 0.13431883, -0.085713945, 0.056370113, 0.115660414, -0.14475793, 0.0044200714, 0.027387753, 0.045452334, 0.28178552, 0.017371183, 0.17304336, 0.0582999, 0.14465337, 0.046005037) * go_0(0.0, -1.0);
result += mat4(0.064034574, 0.041531377, 0.08218889, -0.44529077, -0.010563538, -0.14926371, 0.051012456, 0.08209141, 0.24089444, -0.225398, -0.22259372, -0.26353076, -0.1687418, -0.11501685, -0.016655196, -0.09882357) * go_0(0.0, 0.0);
result += mat4(-0.019985389, -0.19189276, -0.104917, -0.11139956, -0.08406414, 0.031484302, -0.082132496, 0.025829919, 0.07512055, 0.31116992, 0.061163265, -0.074850895, -0.091695994, -0.26492774, -0.06617365, 0.06590624) * go_0(0.0, 1.0);
result += mat4(0.1326703, 0.13008863, -0.1659525, -0.058325157, -0.047528613, 0.06777741, 0.06953616, 0.010587038, 0.031675722, -0.08119788, -0.11269768, -0.06225964, -0.26593694, 0.03627298, 0.12866129, 0.17876588) * go_0(1.0, -1.0);
result += mat4(-0.29016155, -0.12549841, -0.050858997, -0.088932805, 0.002237332, 0.01287246, 0.30138868, -0.071756564, -0.061206467, -0.11114371, -0.25731218, -0.11551616, -0.069513, -0.004583348, -0.10647163, 0.01981785) * go_0(1.0, 0.0);
result += mat4(0.16387528, 0.03450354, 0.03422023, -0.014030813, 0.13418834, -0.010909722, -0.00447121, -0.03082622, -0.23983373, -0.020655053, -0.054034587, -0.07133469, 0.21171515, 0.06268651, -0.1738516, -0.15001713) * go_0(1.0, 1.0);
result += mat4(0.040721033, -0.037582736, -0.13819644, -0.123978324, 0.1650318, 0.033942625, 0.17534302, 0.06452234, 0.18384823, 0.0048657497, 0.20220642, -0.0025760103, 0.011163899, 0.027265374, -0.051284578, 0.19202651) * go_1(-1.0, -1.0);
result += mat4(-0.057493486, -0.031516504, 0.10835143, -0.040618125, -0.07762303, -0.06787725, 0.025559613, -0.0055560498, -0.0017830619, 0.020185964, -0.06656476, -0.008523214, 0.32331157, -0.21633361, 0.15338033, -0.104042485) * go_1(-1.0, 0.0);
result += mat4(-0.18544987, -0.090446, -0.26797467, -0.082941435, -0.15003708, -0.11446041, -0.0394892, 1.1379096e-05, 0.04978554, 0.3350256, 0.032780237, 0.034625802, 0.0596261, 0.045886245, 0.009002243, 0.04746998) * go_1(-1.0, 1.0);
result += mat4(-0.17104147, 0.0054165213, 0.09161088, -0.0673989, -0.119282715, -0.09094731, 0.47243354, 0.09914267, -0.13958418, -0.0050379517, 0.14352496, 0.18380567, -0.16128838, 0.08766813, 0.013876981, -0.09808636) * go_1(0.0, -1.0);
result += mat4(0.09617889, 0.045525175, -0.2550057, -0.02874332, 0.2743444, -0.20102581, 0.008461914, 0.16626629, -0.13309516, -0.19307104, 0.15780488, 0.15518525, -0.2790243, 0.056782067, 0.16836968, 0.17771688) * go_1(0.0, 0.0);
result += mat4(-0.10694667, 0.14490083, -0.037976455, 0.013456577, -0.1166783, 0.060722847, 0.07323464, -0.013812333, 0.03234213, 0.50859296, -0.20670377, -0.019631205, -0.022543924, 0.21776745, -0.093769215, 0.12193299) * go_1(0.0, 1.0);
result += mat4(-0.15260598, -0.04798592, -0.02370747, -0.005714705, 0.030857049, -0.16643822, 0.23971851, 0.08117996, -0.069645695, -0.06674784, 0.033509918, 0.06333286, 0.14010383, 0.02218942, -0.036704093, 0.043163314) * go_1(1.0, -1.0);
result += mat4(0.14653306, 0.002759894, 0.10548246, 0.24976018, 0.3212893, -0.07108953, 0.14068738, 0.29437128, -0.020556152, -0.17813908, 0.1989112, 0.12182122, -0.19231579, 0.06547012, -0.032785345, 0.089717634) * go_1(1.0, 0.0);
result += mat4(-0.23632105, -0.027022298, 0.00586518, 0.01836479, -0.2854795, -0.035417695, -0.07586866, 0.0715673, 0.17984483, 0.11210451, 0.032767817, 0.097993985, -0.010899036, 0.15933803, 0.05454052, 0.06768528) * go_1(1.0, 1.0);
result += mat4(-0.017289463, -0.058823984, 0.0807603, 0.32464716, 0.2756627, 0.036061637, -0.034578573, -0.08811335, 0.031841308, 0.11359879, 0.07553143, -0.028648997, 0.057192322, 0.07769366, -0.1998847, -0.06258051) * go_2(-1.0, -1.0);
result += mat4(0.0422091, 0.046305113, 0.028377453, -0.031071126, 0.06866086, 0.1538135, -0.009288249, -0.25543538, 0.07067607, -0.114061736, -0.024740022, -0.11824987, -0.17426041, 0.0028396242, 0.12849464, 0.057790644) * go_2(-1.0, 0.0);
result += mat4(0.057328146, 0.030677445, 0.07496485, 0.07847613, -0.22358766, -0.15659446, -0.18270054, -0.21316889, 0.084770195, 0.013863274, -0.001335942, -0.04027535, -0.15230416, -0.048156176, -0.04614562, 0.089494966) * go_2(-1.0, 1.0);
result += mat4(-0.117369525, 0.026577681, -0.1941765, 0.14904885, -0.16210394, -0.19549404, 0.19999947, 0.37138188, 0.14809363, -0.05078633, -0.092692114, -0.08533522, 0.12769112, 0.017061725, 0.104464866, -0.026744602) * go_2(0.0, -1.0);
result += mat4(0.0880251, -0.005333869, -0.10327546, 0.30419552, 0.107773595, 0.02335926, -0.19014318, 0.19670166, -0.09443473, 0.10621109, 0.36843884, 0.13197622, 0.24537645, 0.4032842, 0.21791221, 0.08400414) * go_2(0.0, 0.0);
result += mat4(0.06408587, 0.15366535, 0.042582024, 0.15629277, 0.028716238, -0.013479061, -0.23052843, -0.2992272, -0.050045617, -0.27255702, -0.038093377, 0.0031149297, -0.05625518, 0.52598304, -0.0845234, -0.09116851) * go_2(0.0, 1.0);
result += mat4(0.02294159, -0.011902539, 0.00079296535, 0.030631313, 0.02114366, 0.082455896, 0.09450867, -0.08027284, 0.042443607, 0.15427661, 0.11882799, -0.040319934, 0.23706424, -0.107808165, -0.1730313, -0.06340064) * go_2(1.0, -1.0);
result += mat4(0.2645207, 0.002157867, -0.095794424, 0.1141035, 0.08255855, -0.06977906, -0.04348005, 0.27864936, -0.1197219, 0.015997604, 0.09500464, -0.0010631803, 0.07198933, -0.053128377, 0.02176274, -0.001298847) * go_2(1.0, 0.0);
result += mat4(-0.045475803, 0.03626341, -0.00891833, 0.17907676, -0.2810277, 0.13725498, -0.02413441, -0.08605496, 0.08306595, -0.012227401, -0.0070282067, -0.019027572, -0.13443586, -0.041331865, 0.029120144, -0.00490357) * go_2(1.0, 1.0);
result += mat4(-0.13398282, 0.06475972, 0.2528711, 0.02553969, -0.13428321, -0.03931247, 0.11360386, -0.18912545, -0.3725821, -0.018747944, -0.20893294, -0.012743096, 0.07444533, -0.15381604, 0.29776138, 0.10601149) * go_3(-1.0, -1.0);
result += mat4(-0.21793252, 0.07817356, -0.109576665, 0.19185133, -0.072846025, 0.04960289, -0.07506936, 0.12839878, -0.0061091883, 0.093669325, 0.009295678, 0.03780657, -0.10901407, 0.1375137, -0.0745914, 0.1468883) * go_3(-1.0, 0.0);
result += mat4(0.10739044, 0.30611086, 0.1585515, 0.07903283, 0.05612715, -0.0061900485, 0.13646163, 0.15230569, 0.036846787, -0.15846778, -0.18765065, 0.06611226, -0.07209187, 0.056037188, 0.04302953, -0.03887873) * go_3(-1.0, 1.0);
result += mat4(0.05618538, -0.072312586, -0.018046018, 0.049542785, -0.033638306, -0.035169322, -0.25882784, -0.036425237, 0.43763217, -0.07049093, 0.08085481, 0.013634128, -0.2701461, -0.13007875, 0.09603447, 0.2479431) * go_3(0.0, -1.0);
result += mat4(-0.02283992, -0.24593964, 0.04616348, 0.023422526, -0.20994014, 0.064769074, -0.07680045, -0.30547765, 0.1518723, 0.31953967, -0.12841515, -0.19525428, -0.0076093865, -0.112106465, -0.04573789, -0.04834478) * go_3(0.0, 0.0);
result += mat4(-0.008045419, -0.20285496, 0.15290824, 0.036240693, 0.11959966, -0.15712506, 0.096806675, 0.008780234, -0.19716795, -0.3824029, 0.1376541, 0.13325086, -0.103316806, -0.31788048, -0.071698256, -0.25901568) * go_3(0.0, 1.0);
result += mat4(0.13714787, 0.020738773, 0.13716534, 0.12359137, -0.038154524, 0.053202964, -0.12023912, 0.09011213, -0.012448548, -0.026505312, -0.11293235, 0.10613704, -0.39916727, 0.041521315, 0.10659441, 0.027749784) * go_3(1.0, -1.0);
result += mat4(-0.26475835, 0.044597875, -0.31229413, -0.17121075, -0.21795374, -0.009583571, -0.13428004, -0.30734754, -0.017038794, 0.113667324, -0.1516075, 0.06525228, -0.13789397, -0.05770066, -0.016166758, -0.29457557) * go_3(1.0, 0.0);
result += mat4(0.054183286, 0.022085225, 0.086794585, 0.10968018, 0.1276148, 0.05739452, 0.08860957, -0.08131373, -0.081570424, -0.107991874, -0.03724999, 0.000843539, 0.20231429, -0.123543546, -0.19073018, -0.28328305) * go_3(1.0, 1.0);
result += vec4(0.013646388, -0.021442367, 0.0045393505, -0.037433166);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf1
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.13948695, 0.016643738, 0.08168136, 0.02315663, 0.017184775, 0.11487715, 0.05770107, 0.010102888, 0.04955321, -0.045132335, -0.05731744, -0.05798246, 0.2245112, 0.17406365, 0.08979801, -0.10607952) * go_0(-1.0, -1.0);
result += mat4(0.2812785, 0.022830509, 0.15164222, 0.13460225, 0.22263442, 0.2558749, -0.122489706, 0.10409658, 0.023308244, -0.19583783, -0.007824269, 0.06256542, 0.11161938, 0.14878923, 0.30865005, 0.08962341) * go_0(-1.0, 0.0);
result += mat4(-0.20843887, 0.012371968, -0.008279775, -0.042467568, -0.13022369, 0.056743186, -0.018389069, 0.13964763, -0.03361555, -0.053087234, 0.012521351, 0.0209293, 0.015771557, 0.11718523, 0.010176676, 0.021708367) * go_0(-1.0, 1.0);
result += mat4(-0.14373007, -0.114338934, -0.09077395, -0.11040866, 0.055298284, 0.022516333, 0.18901019, -0.05640152, -0.1413198, -0.08748339, -0.029985962, 0.00712751, -0.071436934, -0.18909407, 0.173448, 0.053675048) * go_0(0.0, -1.0);
result += mat4(-0.023129769, 0.42883545, -0.18110612, 0.24296297, -0.02441117, 0.18108079, -0.12298153, -0.19192219, -0.14139178, -0.069563635, 0.1524624, -0.17755614, -0.248875, 0.015161957, -0.16541803, -0.17773613) * go_0(0.0, 0.0);
result += mat4(-0.065477535, -0.113195814, -0.08284894, 0.11679537, 0.028445985, -0.026559185, -0.007267581, 0.14052133, 0.14847197, -0.040276285, -0.038166475, -0.030452784, -0.15184602, -0.22223297, 0.113732725, 0.11163395) * go_0(0.0, 1.0);
result += mat4(0.04990171, 0.08493333, 0.08668171, 0.14610586, -0.010766879, -0.05690133, 0.10706113, 0.13667485, 0.044783257, 0.029695645, -0.101674624, -0.02023205, 0.031889528, 0.14293797, 0.08712652, 0.08716896) * go_0(1.0, -1.0);
result += mat4(-0.21387868, -0.21650635, 0.2743992, -0.048781313, -0.027735803, -0.1543507, 0.11343657, -0.18251626, 0.15225998, 0.13158897, -0.41056108, 0.102582805, -0.09181491, -0.0042975787, 0.056065407, -0.16961528) * go_0(1.0, 0.0);
result += mat4(0.08966051, 0.09331515, -0.085415326, -0.022695992, 0.009771476, -0.07143986, 0.0590329, 0.07347928, -0.09033658, -0.06805735, -0.20129825, 0.017873045, 0.16908158, 0.014213783, 0.112663984, 0.10048714) * go_0(1.0, 1.0);
result += mat4(0.115590535, 0.08364541, 0.00864431, -0.094349444, -0.11073411, 0.05337711, 0.055587426, 0.12131219, -0.04710173, -0.046455074, 0.110379905, 0.25445566, 0.15154606, 0.04483541, 0.08708686, 0.113456205) * go_1(-1.0, -1.0);
result += mat4(-0.014296297, 0.24858733, 0.05035193, -0.09225393, 0.034625243, 0.06219943, 0.19825043, 0.04673499, -0.4083363, -0.39954248, -0.08299408, 0.048756655, 0.09862206, 0.01588621, 0.0070629907, 0.04173666) * go_1(-1.0, 0.0);
result += mat4(0.17356622, 0.1484559, -0.10054033, 0.013332302, 0.15200937, 0.08985606, -0.031668343, -0.026007611, -0.16339104, 0.054744486, 0.07386605, -0.033910174, -0.0018002358, -0.02968911, 0.054931052, 0.09970459) * go_1(-1.0, 1.0);
result += mat4(-0.07330346, 0.05938635, 0.01911963, -0.09856661, -0.081916444, -0.046957035, -0.043849826, 0.09572135, -0.13621825, 0.034347896, -0.21189907, 0.10592239, -0.060592845, 0.09957844, 0.050621815, -0.07447668) * go_1(0.0, -1.0);
result += mat4(0.044731334, -0.13406886, -0.04138754, -0.06764551, -0.018899845, 0.35320804, -0.10959127, 0.17435175, -0.17941645, -0.30889434, 0.10573405, 0.0319751, -0.15677677, 0.08164649, 0.16559398, -0.08152387) * go_1(0.0, 0.0);
result += mat4(0.057760764, -0.12145107, 0.06889264, -0.30627275, 0.011501002, -0.080296256, -0.18067095, 0.10592384, 0.12884894, -0.18973115, 0.18740658, 0.28362688, 0.12934786, -0.010292026, 0.0559999, 0.079962276) * go_1(0.0, 1.0);
result += mat4(0.048659086, -0.006250348, -0.041242067, -0.12078197, -0.07152629, 0.05699244, 0.0011704164, -0.023007339, 0.07814492, 0.02546712, -0.08957218, -0.036925297, -0.03383498, 0.12583385, 0.12207602, 0.03910942) * go_1(1.0, -1.0);
result += mat4(0.26151723, 0.23277281, -0.021892069, 0.052827276, 0.18268764, 0.28595275, -0.20529993, 0.19892794, 0.0038986763, 0.114547804, -0.020574905, 0.02405073, 0.11713121, 0.04491106, -0.07557327, 0.014374293) * go_1(1.0, 0.0);
result += mat4(-0.14276731, -0.06600894, -0.029757235, -0.099975966, 0.023050314, -0.07662015, -0.11542214, 0.087981045, 0.070319094, 0.12462511, 0.008152087, 0.12613884, -0.07071591, 0.0063393894, 0.08699723, -0.0242523) * go_1(1.0, 1.0);
result += mat4(0.035586607, -0.26826563, -0.10145326, -0.002177148, 0.022144236, -0.117452875, 0.021346297, 0.051908135, -0.022425706, 0.067299, 0.09406446, 0.078294896, 0.014900606, -0.05468236, 0.07241715, 0.061000507) * go_2(-1.0, -1.0);
result += mat4(-0.184133, 0.06229474, -0.13819578, -0.025011744, -0.01868356, -0.18940887, 0.092631504, -0.092806384, 0.0035951615, 0.11777577, 0.028149817, 0.0049419673, 0.22230826, 0.06337655, -0.20004818, -0.20937593) * go_2(-1.0, 0.0);
result += mat4(0.13852163, -0.094492316, -0.040309057, 0.10771662, 0.18963522, 0.08687606, -0.20030232, -0.082126215, 0.012181411, 0.044306785, -0.036970526, 0.04403363, 0.07911973, 0.0021176056, 0.26944208, -0.06657045) * go_2(-1.0, 1.0);
result += mat4(0.027229607, 0.12410596, 0.04348171, 0.0019921176, 0.088246435, -0.02828269, -0.26499373, -0.12566662, 0.025947344, -0.0078000715, 0.058063716, -0.0032702687, 0.0059978673, -0.04860002, 0.027650384, -0.23394564) * go_2(0.0, -1.0);
result += mat4(0.07892762, -0.13300626, 0.46678603, -0.033239357, -0.12306804, -0.079602, 0.20534003, 0.23873802, -0.035643574, 0.059950788, -0.26559883, 0.12206408, 0.25408483, 0.029933078, 0.32081822, 0.033947676) * go_2(0.0, 0.0);
result += mat4(-0.06847802, -0.017930118, -0.12299636, -0.12987946, 0.09267518, -0.0009083275, -0.035390552, -0.15379669, -0.1132433, -0.036670692, -0.08342377, 0.015636675, 0.022590527, 0.10533322, 0.0389949, -0.059033744) * go_2(0.0, 1.0);
result += mat4(-0.041753534, -0.014428097, 0.06999257, -3.546234e-05, -0.033465035, -0.040709455, 0.13118082, -0.21016484, -0.07846085, -0.030885663, 0.06934681, 0.12725256, -0.023784902, -0.13373604, -0.015261479, 0.05234782) * go_2(1.0, -1.0);
result += mat4(0.13798563, 0.12757827, -0.26978776, 0.102494285, 0.13285922, 0.35432795, -0.11997128, 0.17108068, -0.12235328, -0.24582328, 0.26962712, -0.086760186, 0.010127441, 0.08048835, 0.047505867, 0.19991067) * go_2(1.0, 0.0);
result += mat4(0.03584222, -0.13433793, -0.044629525, -0.0010440781, -0.0033084434, -0.026725832, -0.05386642, -0.13612603, 0.10066015, 0.10499841, 0.031767137, -0.04550841, -0.09391546, 0.1454157, -0.26962402, 0.21015608) * go_2(1.0, 1.0);
result += mat4(-0.21956864, -0.13502425, -0.02126954, 0.059263993, -0.13461533, -0.04001395, -0.0924258, -0.069165014, 0.22019973, 0.003270619, 0.022072528, -0.14173602, 0.0028843523, -0.13784003, -0.061057515, -0.0049253837) * go_3(-1.0, -1.0);
result += mat4(-0.0011410525, -0.16098002, -0.12883134, 0.018262507, 0.001481578, 0.19514659, -0.13703239, 0.096059754, 0.34194204, 0.13983466, 0.14021507, 0.011405113, -0.11303146, -0.17050214, -0.06992079, -0.05566986) * go_3(-1.0, 0.0);
result += mat4(-0.12307941, -0.02192472, 0.13193923, -0.061640862, -0.16841564, -0.0822524, 0.10141759, 0.02139286, 0.1599039, -0.050632223, 0.16702358, 0.111514546, 0.02397393, 0.037606515, 0.017971672, -0.048641708) * go_3(-1.0, 1.0);
result += mat4(-0.02697617, -0.08579184, -0.28045088, 0.05262136, -0.059576314, 0.107535526, -0.06188862, 0.0010509328, -0.18178311, -0.17288832, 0.20703638, 0.083048366, 0.03859681, -0.07548898, 0.011605782, -0.021842534) * go_3(0.0, -1.0);
result += mat4(0.13198483, 0.37200937, -0.0896539, 0.12450637, 0.037202634, 0.035985112, 0.16579124, -0.08967905, -0.24341385, 0.32482424, -0.3037812, -0.007154969, -0.007152382, -0.017435173, 0.12662841, -0.090513505) * go_3(0.0, 0.0);
result += mat4(-0.014726027, 0.08394915, -0.02100581, 0.24882795, -0.023793869, -0.006450114, 0.17093314, -0.06994153, -0.08689907, 0.113542505, -0.053211495, -0.1780173, 0.030043352, 0.2500714, -0.026940798, -0.0069258413) * go_3(0.0, 1.0);
result += mat4(0.037078895, -0.03033529, -0.066851325, 0.14718252, 0.066372745, 0.028897487, -0.036055963, 0.035399746, 0.06733992, 0.21021596, -0.18314466, -0.027192699, 0.020213274, -0.17751546, -0.050674338, -0.09382659) * go_3(1.0, -1.0);
result += mat4(-0.14761917, -0.22166072, 0.033172436, -0.21982265, -0.09172891, -0.20794454, 0.1738752, -0.13685037, 0.10981111, -0.23169234, 0.053787973, 0.12001196, -0.038242023, -0.047124114, 0.22503005, 0.1015142) * go_3(1.0, 0.0);
result += mat4(0.021231879, -0.015423476, 0.058986407, 0.032002006, -0.029305007, 0.008933183, 0.10777483, -0.112574644, -0.023935415, -0.06604598, 0.053859934, -0.08354717, 0.13703763, -0.078382134, 0.12914242, -0.022056468) * go_3(1.0, 1.0);
result += vec4(-0.002022359, -0.007333954, -0.038140967, -0.03819673);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE conv2d_4_tf
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.050738923, 0.15003614, -0.18880141, 0.16791905, 0.16549185, -0.26726744, -0.12813666, -0.021510791, 0.070805945, 0.043350577, 0.0035756908, 0.11776675, -0.01824196, 0.12618026, 0.07424072, 0.032886628) * go_0(-1.0, -1.0);
result += mat4(-0.11678059, 0.0565686, 0.04392921, -0.27621672, 0.2116695, 0.038044345, -0.015018062, -0.028636303, 0.049744565, -0.12935996, 0.027176194, -0.13208814, -0.21195693, 0.08980974, 0.013893243, -0.018403184) * go_0(-1.0, 0.0);
result += mat4(0.3214697, -0.03143518, 0.19927292, 0.12566878, 0.16190828, 0.11784847, 0.09943727, 0.11755882, 0.017959306, -0.064603634, -0.14054321, -0.11917774, 0.0056958874, 0.06461699, 0.104604125, 0.021947173) * go_0(-1.0, 1.0);
result += mat4(-0.24738057, -0.034892898, -0.03364674, 0.017340986, 0.02933764, -0.08090866, -0.034651175, -0.17391174, 0.08536477, -0.17446008, 0.22706915, -0.10555482, 0.0877744, 0.0681237, -0.035909466, -0.10355238) * go_0(0.0, -1.0);
result += mat4(-0.090646185, -0.12971672, -0.14531808, -0.060838025, 0.24902023, 0.1310588, 0.18602785, 0.21283495, -0.32160765, -0.070119165, -0.10350057, 0.19260244, -0.2610542, -0.3030521, 0.08432348, -0.22286619) * go_0(0.0, 0.0);
result += mat4(0.28333843, -0.053968847, 0.08344997, 0.19987041, 0.22163449, 0.22161576, 0.0030572868, 0.10848695, -0.20529847, 0.08406883, -0.07130339, 0.09987656, 0.29774663, -0.08768785, 0.15567012, -0.010313759) * go_0(0.0, 1.0);
result += mat4(-0.1260916, -0.071901485, -0.30566844, 0.19393384, -0.05133266, 0.07868844, -0.24817581, 0.055521224, 0.23277187, 0.16324161, 0.07110341, -0.042626668, 0.052509766, -0.014292625, -0.019677468, 0.041733738) * go_0(1.0, -1.0);
result += mat4(-0.04264262, -0.06528029, 0.0013520801, -0.02140956, 0.27304867, -0.029477939, -0.1859993, 0.01418354, 0.07256604, 0.14302284, 0.03309569, -0.15932149, 0.01500576, -0.053860538, 0.1131707, -0.06272606) * go_0(1.0, 0.0);
result += mat4(-0.0400483, -0.030188695, -0.108427785, 0.057873204, 0.42774406, -0.11353873, 0.110134825, 0.052191462, 0.00087113964, 0.040683694, 0.100507155, -0.16746339, -0.26971558, 0.06506685, -0.20950548, 0.040783025) * go_0(1.0, 1.0);
result += mat4(0.11394146, -0.10693933, 0.2377026, -0.03783948, -0.16496852, 0.046675198, -0.23396324, 0.05696911, -0.02770668, 0.12922443, -0.093586415, 0.102305606, 0.0040032533, -0.038440734, -0.0035825048, -0.22108772) * go_1(-1.0, -1.0);
result += mat4(0.17577791, -0.024538597, -0.19877498, -0.14544973, 0.16614193, -0.3279891, 0.14678721, -0.16355143, -0.012954231, 0.20982395, 0.044255227, 0.087878115, 0.11289659, -0.26981032, -0.10789584, 0.24094439) * go_1(-1.0, 0.0);
result += mat4(0.0041394173, -0.0937936, 0.15251775, 0.1026978, -0.01999847, -0.02865502, 0.16765144, -0.17490439, -0.016996933, 0.03891808, -0.01858217, -0.106255606, 0.027496144, -0.14120618, 0.023483312, -0.08291959) * go_1(-1.0, 1.0);
result += mat4(0.060642462, -0.2957824, 0.33968493, -0.04501478, -0.14999421, -0.0067213452, -0.018236576, 0.01627547, -0.07771579, 0.0124932695, -0.11797959, -0.090979554, 0.0096479915, 0.021336472, -0.07794724, 0.030138575) * go_1(0.0, -1.0);
result += mat4(-0.091704845, -0.20800348, -0.22158638, 0.048748583, 0.15139692, -0.2832814, 0.09610812, 0.41077513, 0.0007106381, -0.14465855, 0.0056652213, 0.031696238, -0.03384328, 0.1940933, 0.19262145, 0.014331562) * go_1(0.0, 0.0);
result += mat4(-0.16637586, -0.22008398, 0.102937706, 0.15260033, 0.039856806, -0.21082906, -0.19694057, 0.0712475, 0.015049883, 0.17320138, 0.06505415, -0.020279367, -0.018576574, 0.201407, -0.08108244, 0.04151909) * go_1(0.0, 1.0);
result += mat4(-0.12496581, 0.107817784, 0.10645319, 0.035113968, 0.0166165, 0.1316661, -0.045253787, -0.03863719, 0.09126881, 0.07553792, -0.029150097, -0.07629157, -0.17978054, -0.27080613, -0.028408276, -0.15366451) * go_1(1.0, -1.0);
result += mat4(0.081859134, -0.11599677, 0.027383117, 0.092724435, 0.059302155, 0.10008954, -0.12217131, 0.07471211, -0.20396213, -0.040741358, 0.118772194, -0.21725504, 0.099645875, 0.09691941, -0.07696025, -0.016445495) * go_1(1.0, 0.0);
result += mat4(-0.18712623, -0.14458412, 0.03693652, 0.014525352, -0.09607279, -0.19400409, 0.032149505, 0.07106094, 0.051436905, -0.07765334, 0.017043818, 0.17777587, 0.05274306, 0.0062209824, -0.080005355, 0.026041988) * go_1(1.0, 1.0);
result += mat4(-0.090594456, -0.041637532, 0.10346829, -0.09393943, 0.027663473, 0.20729685, -0.011156861, 0.021863503, 0.04781304, -0.039483577, -0.092933334, -0.25187445, 0.033062164, 0.010756357, -0.13035728, -0.008321023) * go_2(-1.0, -1.0);
result += mat4(0.07772912, 0.010776647, -0.018709056, 0.25634038, 0.00906326, 0.21411708, 0.122652486, 0.07725616, 0.15266491, 0.1274286, 0.10400329, 0.20354506, 0.013765407, -0.039089683, 0.25870228, -0.08919069) * go_2(-1.0, 0.0);
result += mat4(-0.14971368, 0.06935879, -0.089983195, 0.01406992, 0.16989979, -0.037809014, 0.07157283, -0.050660506, -0.032826405, 0.033794664, -0.0051332368, 0.089349195, 0.06263488, -0.07048108, 0.07263597, -0.11618368) * go_2(-1.0, 1.0);
result += mat4(0.013391823, -0.07888697, -0.13984044, -0.01241464, -0.06475807, 0.06978077, -0.20329754, 0.16602662, 0.013664227, 0.12317301, -0.10240692, -0.0657491, -0.31402445, -0.14472555, 0.1739024, 0.0005437834) * go_2(0.0, -1.0);
result += mat4(0.16330495, 0.02644609, 0.23837087, -0.07734767, 0.12377497, -0.18478604, 0.35040903, -0.05262452, 0.049074646, -0.0077528385, 0.15370984, -0.22888668, 0.3603141, 0.29372314, -0.4432887, 0.20702155) * go_2(0.0, 0.0);
result += mat4(-0.18785694, 0.21085343, -0.111042105, 0.0478716, -0.08214944, -0.0922987, 0.29570273, 0.025100114, 0.25403878, 0.01271447, 0.21851794, -0.1434596, -0.21153769, 0.023305666, -0.10386609, 0.043919638) * go_2(0.0, 1.0);
result += mat4(-0.117247805, 0.013329102, 0.0313911, -0.08055777, -0.0053445757, -0.2886372, 0.07938673, -0.06659165, 0.20798062, 0.030106818, -0.04811631, 0.036332276, -0.057687126, 0.03813657, 0.035860628, -0.11273985) * go_2(1.0, -1.0);
result += mat4(-0.0031557097, 0.027456097, -0.14444692, 0.08411739, 0.13466308, -0.13212901, -0.0034804344, 0.1464661, -0.21033211, 0.05913627, 0.10233881, 0.009844489, -0.15369488, -0.018978333, -0.07518442, -0.010549853) * go_2(1.0, 0.0);
result += mat4(0.112989105, -0.011166866, -0.08277204, 0.046827227, -0.08067428, 0.13465053, -0.1656419, 0.07280515, 0.037523627, -0.050147127, -0.17731906, 0.1067486, 0.119732924, -0.102017604, 0.31421226, -0.14060387) * go_2(1.0, 1.0);
result += mat4(-0.1106223, 0.09229271, -0.09355422, -0.02413533, -0.096457504, -0.13282233, 0.022983741, -0.13534859, -0.0056585902, -0.07214356, 0.14617127, -0.13723095, 0.058078192, -0.1038417, -0.10452195, -0.18855028) * go_3(-1.0, -1.0);
result += mat4(0.16357008, 0.080841675, 0.1663936, 0.20815827, 0.03813903, 0.34158087, -0.012987109, 0.39152008, -0.027927356, -0.14332302, -0.012866622, -0.016149148, -0.08733816, 0.1960951, 0.19572765, -0.2710826) * go_3(-1.0, 0.0);
result += mat4(0.024827998, 0.24175219, 0.030659903, -0.22227505, 0.026898654, 0.009930298, 0.088392995, 0.32644793, -0.10351868, -0.08717382, 0.22931585, 0.05197704, 0.06534648, 0.13636068, 0.062107667, 0.024806283) * go_3(-1.0, 1.0);
result += mat4(-0.18550465, 0.062058095, -0.08620093, 0.20158216, -0.1460996, 0.14275469, -0.28057688, -0.11685651, -0.09627509, 0.09029933, 0.03669734, 0.1257313, -0.07974307, 0.020742215, -0.0039170664, 0.11340528) * go_3(0.0, -1.0);
result += mat4(0.15225565, 0.171972, 0.13573253, 0.0056740018, -0.1667786, 0.06028638, -0.1255049, -0.23327217, -0.139949, 0.029957669, -0.16713464, 0.046236664, -0.05070503, 0.18714412, -0.20076098, 0.1672637) * go_3(0.0, 0.0);
result += mat4(0.18468563, 0.07733334, 0.14463845, -0.10712052, 0.36213547, 0.29404843, 0.2110929, 0.14646721, -0.059985258, -0.2709805, 0.073061034, -0.039072156, 0.015898943, -0.17166951, 0.20194982, -0.04723745) * go_3(0.0, 1.0);
result += mat4(-0.26353067, 0.050225407, -0.42643914, 0.06601958, -0.10513071, -0.1654714, 0.0593609, 0.027410276, -0.19465327, -0.13865606, 0.05579213, 0.07982532, -0.20893136, -0.008150932, 0.053529713, -0.0317475) * go_3(1.0, -1.0);
result += mat4(-0.012075693, -0.27574313, 0.22184552, -0.117393926, -0.49310133, -0.13997443, -0.079180904, -0.053438634, -0.07552426, -0.045796394, -0.037434675, 0.24076645, -0.04395852, 0.10325762, -0.19867313, -0.070216134) * go_3(1.0, 0.0);
result += mat4(-0.026107877, -0.030023552, -0.047810435, 0.20572239, 0.061861858, 0.1776161, -0.306099, 0.16332485, -0.1843373, 0.06758581, -0.23902373, -0.10575018, 0.03990962, -0.046113137, 0.14876197, -0.21280771) * go_3(1.0, 1.0);
result += vec4(-0.009669773, 0.036289547, -0.050454646, 0.051479716);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE conv2d_4_tf1
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.14542116, -0.15827142, -0.20811677, -0.103433, 0.19787271, 0.33990738, 0.17085013, -0.059132278, 0.013047369, -0.1687924, 0.06732661, -0.050968684, 0.09197164, -0.041265316, -0.108277336, -0.014430892) * go_0(-1.0, -1.0);
result += mat4(-0.022837132, 0.20440012, -0.14266612, 0.019944299, 0.069084294, 0.3171199, -0.1521742, -0.35806596, 0.13581008, -0.13811131, 0.12219503, 0.17329764, -0.15100783, 0.0862648, 0.118227705, 0.18736814) * go_0(-1.0, 0.0);
result += mat4(0.013604392, 0.11496102, -0.18734755, -0.047555517, 0.05297245, 0.006461213, 0.06247472, -0.0202791, 0.02329791, 0.11530998, -0.148774, 0.0965498, 0.1487269, 0.061629567, -0.22488646, -0.005393787) * go_0(-1.0, 1.0);
result += mat4(-0.29286116, 0.11958281, -0.11193505, -0.17139061, -0.035151243, -0.2635945, 0.0002499315, -0.16346519, 0.23779829, 0.04454211, 0.21293561, 0.25617847, 0.12194803, -0.0017443774, -0.009216221, -0.034387548) * go_0(0.0, -1.0);
result += mat4(0.28791443, -0.25421545, -0.058626153, -0.1520494, -0.16808414, -0.39723453, -0.13199537, 0.056999452, -0.048155293, 0.38699663, -0.114719056, 0.001293743, -0.0959443, -0.08189709, 0.26921842, 0.061219636) * go_0(0.0, 0.0);
result += mat4(0.00781977, -0.07103863, -0.21942843, 0.2419546, 0.20016691, -0.28697264, -0.034715973, -0.03381459, -0.028126812, 0.046806023, -0.14423183, -0.13472253, 0.009225362, -0.086190686, 0.0041205613, 0.08953202) * go_0(0.0, 1.0);
result += mat4(-0.04926224, -0.099740155, -0.088695474, 0.09950333, -0.06495916, 0.20126842, -0.0062843356, -0.034764495, -0.10808971, -0.19946553, 0.075991094, 0.14746219, 0.08247818, 0.07382381, -0.056908615, -0.026823666) * go_0(1.0, -1.0);
result += mat4(-0.04837408, 0.12605472, -0.23957102, -0.14252385, -0.046534102, -0.07511751, -0.21040416, 0.2064639, -0.006026243, -0.25005546, -0.063780144, 0.076840036, -0.07484346, 0.017368162, 0.04657373, -0.022188455) * go_0(1.0, 0.0);
result += mat4(0.04545079, -0.002226373, -0.11695467, 0.12954631, 0.054903183, 0.15162702, -0.19222596, 0.05351421, -0.079599276, -0.036238387, 0.1362261, 0.037431743, -0.0015106505, 0.18739921, 0.122365154, -0.05871144) * go_0(1.0, 1.0);
result += mat4(-0.005558987, -0.13553315, -0.006372213, 0.06633917, -0.22141413, -0.15780807, 0.057122614, -0.057320844, -0.06306763, 0.19112623, -0.041758966, 0.03555483, -0.005718873, 0.009167371, 0.050909385, -0.14599234) * go_1(-1.0, -1.0);
result += mat4(0.18175003, 0.10442485, 0.052994236, -0.4001252, -0.08328538, 0.06380226, -0.055015627, 0.010929493, -0.22888647, -0.033181675, -0.07570874, 0.07933599, -0.07894686, 0.12202901, 0.13679314, -0.054344065) * go_1(-1.0, 0.0);
result += mat4(0.030145945, -0.06121175, -0.08550973, 0.10082535, 0.07198805, 0.21414264, -0.25636044, 0.028803539, 0.043738026, -0.0367658, 0.27998537, -0.06274612, -0.22862338, 0.002624325, 0.28519824, 0.18540645) * go_1(-1.0, 1.0);
result += mat4(-0.012136538, -0.07059324, 0.018098673, 0.12078888, -0.087637, 0.041642863, 0.034997553, -0.16741107, 0.04701011, -0.004160269, 0.122639626, 0.0043271836, 0.011551197, -0.16421974, -0.102481335, 0.014233497) * go_1(0.0, -1.0);
result += mat4(-0.37945676, 0.25232047, -0.03707734, -0.1985225, -0.11536396, 0.22039749, -0.21809638, -0.10596801, -0.17211124, -0.2035486, 0.011822896, 0.27510995, -0.105182275, 0.022503568, -0.0063389307, -0.071560584) * go_1(0.0, 0.0);
result += mat4(-0.16101715, -0.034247126, 0.16626042, 0.031131435, 0.03048031, -0.105447404, -0.05728527, -0.14518815, -0.019103229, -0.15152888, -0.119154684, 0.028724093, 0.05836196, -0.35943082, -0.016481897, -0.0437348) * go_1(0.0, 1.0);
result += mat4(-0.07719413, -0.33214888, -0.0541927, 0.16506542, -0.032792456, 0.016834807, 0.1724155, 0.073768586, 0.002303886, -0.001382793, -0.0562648, -0.10167158, -0.19101655, 0.052783452, -0.1422853, 0.09653729) * go_1(1.0, -1.0);
result += mat4(-0.30030164, 0.11637444, -0.23238538, -0.27238008, -0.077208534, -0.027645003, 0.10369907, 0.20162316, -0.14428844, 0.1766293, 0.024419712, 0.11301171, 0.07772854, 0.18613201, 0.20721672, -0.1751799) * go_1(1.0, 0.0);
result += mat4(-0.1026615, -0.12484944, 0.15386428, 0.038676128, -0.119472496, -0.032417197, -0.14208497, -0.05254358, -0.0035079278, -0.011276316, 0.043117497, -0.010022288, 0.031624593, 0.014969992, -0.031410277, 0.15284787) * go_1(1.0, 1.0);
result += mat4(0.018149922, -0.05906194, 0.054767277, 0.008161979, -0.076949194, 0.040888708, -0.006419542, -0.12897012, -0.0028229658, 0.20937827, 0.02741711, -0.04013348, -0.12731804, 0.008064522, 0.002870103, 0.027690327) * go_2(-1.0, -1.0);
result += mat4(0.023197446, -0.08888926, 0.15531142, 0.13745947, 0.054352283, -0.121785395, 0.16237587, 0.023567237, -0.36160588, 0.30499592, -0.033180915, -0.1515843, 0.04251452, -0.17903805, 0.03235283, -0.08062386) * go_2(-1.0, 0.0);
result += mat4(-0.0072868476, -0.2010616, 0.13061914, 0.12846659, 0.11725315, 0.14589547, -0.05373261, -0.081606135, -0.07010131, -0.025378224, 0.10265872, 0.18658938, -0.12165338, 0.036297683, 0.03925332, 0.16576236) * go_2(-1.0, 1.0);
result += mat4(0.10300252, -0.11548347, -0.08691649, -0.014866044, -0.3213804, 0.47206497, -0.16032113, 0.026284516, 0.046302956, -0.052474245, -0.025335522, -0.10957576, -0.16872157, 0.19049212, -0.023881195, 0.061396897) * go_2(0.0, -1.0);
result += mat4(-0.16202278, 0.52128345, -0.2601511, 0.06116799, -0.21123995, 0.39389637, -0.350544, -0.16157438, -0.02823116, -0.39056876, -0.14267299, 0.03262984, 0.342303, -0.20556125, -0.0019219286, -0.1824844) * go_2(0.0, 0.0);
result += mat4(0.23399737, -0.0912646, 0.11152403, -0.20945886, -0.053451832, -0.09786892, -0.059099484, 0.18103573, -0.117154315, -0.18342866, 0.12650815, 0.0067340015, -0.037984423, 0.17667364, 0.071636364, -0.011689163) * go_2(0.0, 1.0);
result += mat4(-0.099510275, -0.0925438, -0.009136904, -0.03774997, -0.13348748, 0.3605135, -0.078298144, -0.14712195, 0.22566219, 0.18659295, 0.05614545, 0.10792911, -0.12477693, -0.03587624, 0.08050775, -0.054740936) * go_2(1.0, -1.0);
result += mat4(0.10312337, -0.063681684, 0.16496794, 0.09038492, -0.08903926, 0.41163155, -0.013669214, -0.21472235, -0.054991595, 0.0033639956, 0.18160143, 0.17240305, -0.039428882, 0.17087695, -0.1729076, 0.09871825) * go_2(1.0, 0.0);
result += mat4(-0.13123736, 0.0802573, 0.077981554, -0.101768315, 0.089998, -0.13781744, 0.122858986, 0.054121554, -0.02640825, 0.13577555, -0.037485655, -0.04179625, 0.000106130996, -0.100183845, 0.00046665114, 0.21791616) * go_2(1.0, 1.0);
result += mat4(0.011894387, -0.030088445, 0.025817253, 0.08193235, 0.109322436, 0.10855583, -0.19661167, -0.09405307, 0.2073779, -0.33972177, 0.048635002, -0.14883177, 0.056954246, 0.3953476, 0.18765114, -0.014010224) * go_3(-1.0, -1.0);
result += mat4(-0.22594279, -0.014942035, -0.1519647, 0.25367293, 0.16330296, 0.03317176, -0.32148597, -0.46503916, 0.19944623, -0.26229686, 0.019909514, -0.059794176, 0.12912126, 0.044948537, -0.08649492, 0.08024645) * go_3(-1.0, 0.0);
result += mat4(-0.022943841, -0.068013534, 0.11032515, 0.011685601, 0.020096298, -0.3285243, 0.08196111, -0.089537136, -0.03976742, -0.1315977, -0.36306036, 0.24678081, 0.22115967, -0.017472323, -0.19451386, -0.035218123) * go_3(-1.0, 1.0);
result += mat4(-0.020891193, -0.12721714, -0.15030408, 0.026523203, -0.12413139, -0.11235275, -0.21476477, -0.11326953, 0.028815055, -0.18552732, -0.0076828003, -0.14679903, 0.020509586, -0.18695217, 0.06696879, 0.103938386) * go_3(0.0, -1.0);
result += mat4(0.057521313, 0.28509304, -0.2525733, 0.16745082, -0.26614547, 0.18545172, -0.27140215, 0.018639714, 0.19730581, 0.1659491, -0.058363054, -0.4048628, 0.024913948, -0.44124457, 0.13872208, -0.0371103) * go_3(0.0, 0.0);
result += mat4(0.100904405, 0.06700356, -0.035322092, 0.21781014, 0.018047005, -0.21737386, -0.3734802, 0.13506944, 0.012760691, 0.06620756, -0.0253398, 0.0030280363, -0.044015452, -0.055860534, -0.3547194, -0.04230283) * go_3(0.0, 1.0);
result += mat4(-0.19012743, -0.34408915, 0.18940191, 0.13152952, 0.107553795, -0.00694412, -0.07930157, -0.30964044, 0.034710668, -0.031806916, 0.019838978, 0.017044948, 0.110688254, -0.0029772928, 0.09414367, -0.10760175) * go_3(1.0, -1.0);
result += mat4(-0.05745392, 0.29022983, 0.014998233, 0.27365527, 0.08169933, 0.0734232, -0.09404464, -0.26870936, 0.21171738, -0.19529793, -0.064401075, -0.18972695, -0.08024953, -0.027122354, -0.11661348, 0.010131282) * go_3(1.0, 0.0);
result += mat4(0.07599435, -0.06851123, 0.06258365, 0.10296892, 0.15556085, -0.041609086, -0.11303363, 0.07082365, 0.013949174, -0.087201476, -0.0855705, -0.12979257, 0.04048528, 0.4211556, 0.04118289, -0.22093314) * go_3(1.0, 1.0);
result += vec4(0.07789114, 0.0024746545, 0.1891165, -0.0023716448);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!SAVE conv2d_5_tf
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.10883355, -0.14958352, 0.026701333, 0.090302855, 0.033934478, 0.120340124, 0.027125617, -0.16792692, -0.075757094, 0.28692973, 0.013230067, -0.040618937, 0.087148145, -0.05985753, -0.06352023, -0.05775848) * go_0(-1.0, -1.0);
result += mat4(-0.18206549, -0.10363482, 0.097648725, -0.08801144, 0.31633568, 0.058347676, -0.009121898, 0.02594872, 0.14757825, 0.4730546, -0.008518203, -0.3090668, -0.004052835, -0.14166127, -0.010156037, 0.21191326) * go_0(-1.0, 0.0);
result += mat4(0.05735183, 0.039180398, -0.12357178, 0.04830351, 0.120369986, -0.052775342, 0.005902798, 0.07695394, 0.00602021, 0.16758691, 0.10287989, -0.1718468, -0.1319741, 0.16932078, -0.2055026, -0.31820264) * go_0(-1.0, 1.0);
result += mat4(0.05427556, -0.28392607, 0.08579091, -0.0015861926, 0.062348455, -0.27778792, -0.07450379, 0.01616914, -0.012357131, -0.056992117, -0.1896176, 0.018156245, 0.06499259, -0.076558664, 0.10341699, -0.08993959) * go_0(0.0, -1.0);
result += mat4(-0.05741742, -0.05414434, 0.18006511, 0.09840777, -0.11849741, 0.40419933, 0.21349974, 0.40268886, 0.23218039, -0.0680356, -0.3130592, -0.21271054, 0.13776754, 0.19114101, 0.17373541, 0.43457666) * go_0(0.0, 0.0);
result += mat4(-0.060757063, 0.11339545, -0.042958036, -0.06483378, -0.06681766, -0.056395415, 0.037868995, 0.033861663, -0.1041215, 0.0046828864, 0.14360638, 0.087886184, -0.26808187, 0.19876598, -0.05276215, -0.07073776) * go_0(0.0, 1.0);
result += mat4(-0.24029991, -0.14217372, -0.011767948, 0.011623913, 0.33820602, -0.24501325, -0.11444902, 0.14536968, 0.16780593, 0.0065867775, -0.074971735, 0.021472024, -0.10853042, 0.09527126, 0.009436061, -0.09688826) * go_0(1.0, -1.0);
result += mat4(-0.31893802, -0.0016892607, -0.105592966, -0.116694786, -0.007851739, 0.1429722, 0.0741952, 0.050125953, 0.07185179, 0.1900389, 0.030889044, 0.15422693, 0.12550323, 0.3556344, 0.108276874, -0.099125646) * go_0(1.0, 0.0);
result += mat4(-0.33620578, -0.11113713, -0.15881014, 0.028243937, -0.12028756, -0.028566968, -0.002682634, -0.15635195, -0.06869284, -0.03309234, 0.03086361, 0.050773233, -0.08939835, 0.15237434, -0.024076303, -0.13092752) * go_0(1.0, 1.0);
result += mat4(-0.31200737, 0.32207087, -0.068700634, -0.39202076, 0.0676771, 0.083766654, -0.05696634, 0.03088338, 0.046761762, 0.09732023, 0.030844063, -0.03369749, -0.12664944, -0.029924957, 0.10551989, 0.086157694) * go_1(-1.0, -1.0);
result += mat4(-0.1919761, 0.17179352, -0.025805056, -0.05570367, -0.16736336, 0.07430868, -0.13228212, 0.10702857, -0.09723214, 0.1884809, 0.09422538, -0.16902041, -0.1964137, 0.17877853, 0.17453954, -0.11339361) * go_1(-1.0, 0.0);
result += mat4(0.11865004, 0.013131073, 0.17317963, -0.2077911, -0.1116894, 0.09672745, -0.023348883, -0.1176519, 0.15893579, 0.22941695, 0.18798698, 0.059098385, 0.09498779, 0.10118143, 0.08737761, -0.016268898) * go_1(-1.0, 1.0);
result += mat4(-0.025380889, 0.17163627, -0.014800655, 0.12669696, 0.050048903, -0.06513837, 0.020915661, 0.2144372, -0.17799327, 0.0068409992, 0.06751171, -0.16618991, 0.14637277, 0.010591964, -0.15909241, 0.02660789) * go_1(0.0, -1.0);
result += mat4(0.3178319, 0.15036377, -0.03386948, 0.13883169, -0.33842105, 0.061425313, -0.04195804, 0.22558802, 0.2250625, 0.060225345, -0.08467863, 0.0014776831, 0.080328, 0.03221249, 0.20838667, 0.11489719) * go_1(0.0, 0.0);
result += mat4(-0.0013924981, 0.28233197, -0.17997956, -0.10959627, -0.16253087, 0.016549526, -0.1571556, 0.017017027, -0.14697123, 0.0869202, 0.2104898, -0.15658243, 0.13424201, -0.022636503, -0.09512045, 0.0927298) * go_1(0.0, 1.0);
result += mat4(-0.038486905, -0.19215351, -0.2446516, -0.02958912, 0.06899297, 0.028667469, -0.05537665, 0.066711955, -0.0017354499, -0.07466053, 0.028587297, -0.042017035, 0.023596823, 0.0067433366, -0.14685915, 0.13400853) * go_1(1.0, -1.0);
result += mat4(0.0573442, 0.1424536, 0.19606829, 0.07141616, -0.032276712, 0.20030099, 0.16644277, 0.10393295, 0.27240822, 0.0071844175, -0.023368603, -0.14067268, -0.20310283, 0.039528254, 0.103837095, 0.08236034) * go_1(1.0, 0.0);
result += mat4(0.15616669, 0.3495403, -0.05678421, -0.069600284, -0.07361787, 0.079501756, 0.009530261, -0.032385882, 0.029831208, -0.095407076, 0.010261287, 0.15250465, -0.04868275, 0.058579214, 0.03779718, -0.10810775) * go_1(1.0, 1.0);
result += mat4(0.06492073, 0.018667994, -0.004712761, -0.032692235, 0.04027288, -0.114499666, -0.04327484, 0.13778907, -0.09373396, -0.08822919, 0.04796151, -0.057756703, -0.26161298, 0.07182931, 0.12998815, -0.14389744) * go_2(-1.0, -1.0);
result += mat4(0.19001032, 0.13091461, -0.2551175, 0.013365716, -0.031779066, 0.002531366, -0.13807543, -0.14165778, -0.2701911, -0.0890182, 0.34704998, -0.008494185, 0.16179956, -0.060182545, 0.060827415, -0.17249492) * go_2(-1.0, 0.0);
result += mat4(0.10665868, 0.15999752, -0.042796712, -0.14010513, -0.014244899, 0.017433831, 0.053657144, -0.0965679, 0.23623326, 0.0690172, 0.1290121, -0.025523739, 0.122357905, -0.18172716, 0.02829383, 0.10042929) * go_2(-1.0, 1.0);
result += mat4(-0.09273112, 0.09466892, -0.009225705, 0.16772579, 0.0813042, -0.16461512, 0.038097944, 0.19834967, -0.033650465, -0.12888893, 0.1414859, -0.021587005, -0.0047441716, 0.08880282, 0.020621201, 0.065779164) * go_2(0.0, -1.0);
result += mat4(0.0051817205, 0.20322648, -0.077459775, 0.07461627, 0.1817634, -0.5371515, -0.29336745, -0.57652086, 0.035826538, 0.41058993, 0.21512514, -0.041881148, -0.2490056, -0.07172767, 0.20821427, -0.69866294) * go_2(0.0, 0.0);
result += mat4(0.18961228, 0.027452804, -0.0075194626, -0.029665018, 0.28770384, -0.099777386, -0.12160496, 0.07690297, 0.30273837, 0.026466522, 0.18100439, -0.09078488, 0.2035407, -0.062081084, 0.06744994, -0.07512911) * go_2(0.0, 1.0);
result += mat4(0.008473044, 0.07501521, -0.11242355, -0.039451122, -0.21818535, -0.07779562, 0.13194147, 0.084983595, 0.0770609, -0.034488454, 0.08823556, -0.07168295, 0.041894365, 0.0789253, 0.06191209, 0.013991105) * go_2(1.0, -1.0);
result += mat4(0.10582237, 0.1514222, 0.10751824, 0.08231926, 0.23913008, -0.2673503, 0.036170945, 0.31463087, 0.026397424, -0.26629624, -0.07428361, -0.077513516, 0.0768238, -0.026638538, 0.12589583, -0.11521212) * go_2(1.0, 0.0);
result += mat4(0.30389515, 0.18963532, 0.023015842, -0.10240883, 0.045651495, -0.036785256, -0.13346411, 0.16431254, -0.030950911, -0.03381929, 0.09413111, 0.03924852, 0.11044091, -0.10149653, 0.14114548, 0.07801978) * go_2(1.0, 1.0);
result += mat4(0.029622428, 0.14528686, -0.034057826, 0.010664312, 0.059213262, -0.29354423, -0.08448559, 0.10569036, -0.02988314, -0.016480735, 0.042203777, -0.028342744, 0.36807576, 0.09301971, 0.123721026, 0.07806503) * go_3(-1.0, -1.0);
result += mat4(0.04849538, -0.09201287, 0.10069803, -0.031749677, 0.18774022, -0.27789372, 0.05288653, 0.08097265, 0.006918896, -0.060978457, -0.113319606, 0.008844536, 0.021804892, -0.0011744015, -0.35720357, -0.24996938) * go_3(-1.0, 0.0);
result += mat4(-0.07147501, -0.09339197, 0.16154395, 0.3372506, -0.0004858638, -0.056553435, -0.12463908, -0.0047342298, -0.009141984, -0.13796125, -0.14035304, -0.104403175, -0.07054226, 0.12142519, -0.24971877, -0.1914648) * go_3(-1.0, 1.0);
result += mat4(-0.008194284, -0.027617034, 0.004994261, -0.07672895, 0.25697777, -0.18313397, 0.03266311, -0.029157834, 0.010476624, 0.12394092, -0.059660904, 0.08561672, -0.0008583816, -0.044442356, 0.28336492, 0.065344445) * go_3(0.0, -1.0);
result += mat4(-0.3570137, -0.06802815, -0.10298613, -0.21256869, 0.3025278, -0.263425, 0.13547331, 0.038517762, 0.14951234, -0.16869017, 0.03293678, 0.21897063, -0.14688788, 0.21619378, -0.27550143, 0.048003722) * go_3(0.0, 0.0);
result += mat4(0.15607022, -0.111073844, 0.2733694, 0.05423378, 0.25116092, -0.17350473, 0.13460433, 0.09602139, 0.17372625, -0.0024815476, -0.30154657, 0.0062206364, -0.0051755225, 0.04985103, -0.06310478, -0.30450678) * go_3(0.0, 1.0);
result += mat4(0.057571005, -0.019051064, 0.054884393, 0.03993782, 2.6782007e-05, -0.05726912, 0.067192145, -0.08955987, -0.11937056, 0.15837386, -0.011670469, -0.06299701, -0.014917928, 0.23921679, 0.0054613873, -0.23099245) * go_3(1.0, -1.0);
result += mat4(-0.035849575, -0.06785954, -0.15053692, 0.011964653, 0.1975448, -0.1633047, -0.024539666, 0.03170174, -0.12585635, -0.021171011, 0.15862562, 0.10296358, 0.3114039, 0.10010659, -0.09519227, -0.12945092) * go_3(1.0, 0.0);
result += mat4(0.044433746, -0.058466546, -0.13258536, -0.033972915, 0.0037206819, -0.057343487, 0.13798106, 0.044445634, -0.22623023, 0.2408462, 0.048287082, -0.30717465, -0.13402344, 0.20024839, -0.026932377, -0.034217034) * go_3(1.0, 1.0);
result += vec4(-0.05988374, -0.23198523, -0.058251306, -0.038808554);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!SAVE conv2d_5_tf1
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.045249436, -0.040327657, -0.2667367, 0.0913868, 0.14961123, 0.07253207, 0.29162952, -0.11320944, 0.017569833, 0.012350104, 0.22532712, 0.025312115, -0.12193993, 0.037391737, 0.03220835, 0.12102545) * go_0(-1.0, -1.0);
result += mat4(-0.020587588, -0.07043244, -0.28093454, 0.18336722, 0.08153308, -0.05914772, -0.15255487, 0.079236075, -0.4269835, -0.11470208, -0.19043571, 0.2723162, 0.0066251885, -0.17115718, 0.022036036, 0.07349558) * go_0(-1.0, 0.0);
result += mat4(-0.09441315, 0.042170826, 0.071251415, -0.13891962, 0.10236482, 0.05356262, 0.0291025, 0.063867815, -0.14530063, -0.08727925, -0.0048300857, 0.06766869, -0.3481536, -0.10943503, 0.014951926, 0.11993114) * go_0(-1.0, 1.0);
result += mat4(0.13420522, 0.095721036, -0.1756104, -0.09906728, 0.09808904, -0.27402034, -0.102161326, 0.40162942, 0.13465238, 0.20237032, 0.3192343, -0.061512157, -0.20711629, -0.09659007, 0.06838548, 0.30256763) * go_0(0.0, -1.0);
result += mat4(0.025805298, -0.0322599, 0.23653145, -0.2760735, 0.11291006, -0.10836205, 0.20742846, 0.06974535, -0.4191803, -0.10882523, 0.038603242, 0.22662747, -0.08845715, -0.26151156, -0.16670766, 0.008536192) * go_0(0.0, 0.0);
result += mat4(-0.085842185, -0.21239999, -0.032774646, 0.088163696, 0.038300447, -0.09510875, 0.10113864, -0.14712982, 0.14264707, -0.10895432, 0.03051617, -0.06791873, -0.35589013, -0.12884575, -0.09460007, -0.0879575) * go_0(0.0, 1.0);
result += mat4(0.19235751, -0.109611385, -0.037397474, -0.26632717, 0.07878826, 0.19749992, 0.0035685285, 0.11793927, 0.019899402, 0.085741036, 0.08433813, -0.018344546, -0.0901484, 0.08221562, 0.12735383, 0.12801875) * go_0(1.0, -1.0);
result += mat4(0.19123435, 0.007882246, -0.018564796, -0.09904253, 0.28052533, 0.6360808, 0.25001726, -0.30590564, 0.07646281, -0.34298185, -0.33293694, -0.036753535, 0.18719083, 0.22131144, -0.1420962, -0.0014709529) * go_0(1.0, 0.0);
result += mat4(0.23060241, -0.14145076, -0.113213465, 0.037221998, 0.22163334, 0.18520229, 0.2961799, -0.063605964, 0.022606356, 0.043340076, -0.3233993, -0.075055614, -0.0038865958, 0.19558622, -0.018503085, -0.22932632) * go_0(1.0, 1.0);
result += mat4(0.11712158, -0.03590364, 0.38039652, -0.019910801, 0.13338004, -0.07078425, 0.09404417, -0.27607328, -0.02205519, -0.013522961, 0.2924021, -0.16088538, -0.034280356, -0.063614614, -0.061583273, -0.22479968) * go_1(-1.0, -1.0);
result += mat4(-0.05624079, 0.32659104, 0.47335497, -0.14091404, 0.14739423, -0.07122778, -0.009384643, -0.058900848, 0.06260307, -0.17574102, 0.3538743, 0.2842822, -0.18150197, 0.26806462, 0.24673693, 0.19710627) * go_1(-1.0, 0.0);
result += mat4(-0.24837571, -0.01663848, -0.13093965, 0.30109972, -0.09680959, 0.074526474, 0.024111765, -0.012781737, -0.08591349, -0.100348584, 0.02363011, -0.02687084, -0.27630556, 0.14074354, -0.016993485, 0.084373675) * go_1(-1.0, 1.0);
result += mat4(0.1543391, -0.2008408, -0.21885285, 0.2320177, 0.06669948, -0.05171086, -0.25833863, -0.14085051, -0.035878573, -0.1632403, 0.09782713, 0.22973235, -0.14022017, -0.018347954, -0.29652777, 0.10912002) * go_1(0.0, -1.0);
result += mat4(-0.050962634, -0.040519282, -0.04381614, 0.084133334, 0.21222316, -0.091010064, 0.13157965, -0.21375372, -0.021148674, -0.044127557, -0.11400533, 0.097688414, 0.31571037, -0.05167655, 0.27606225, 0.12169133) * go_1(0.0, 0.0);
result += mat4(-0.1329087, 0.14291021, 0.043337896, -0.25970098, -0.11379552, -0.040157612, 0.08379851, -0.24104865, 0.1593102, -0.031879216, -0.004603848, -0.019003935, -0.24769545, -0.17577063, 0.16019398, 0.04640235) * go_1(0.0, 1.0);
result += mat4(-0.11615644, 0.12189521, 0.12919527, -0.104224406, -0.10143574, 0.14024515, -0.02759362, -0.1467619, 0.09028311, -0.06510291, 0.061612967, 0.10227729, -0.08785846, 0.06464871, -0.05048917, 0.09055746) * go_1(1.0, -1.0);
result += mat4(0.34443164, 0.013906371, -0.0595573, 0.09354196, 0.12184454, -0.02698316, -0.06208632, -0.11266858, 0.004904335, -0.33987018, -0.2494041, 0.127125, 0.040493876, 0.0280356, -0.037431944, 0.05823802) * go_1(1.0, 0.0);
result += mat4(-0.1762869, -0.20683959, -0.37788594, -0.1244979, -0.17202286, -0.038234763, 0.015924744, -0.014006752, 0.07097758, -0.25219876, -0.3164728, 0.022413896, -0.41423917, -0.03191542, 0.009464804, 0.0770316) * go_1(1.0, 1.0);
result += mat4(0.12442388, 0.031095076, 0.18799834, -0.18449762, -0.11995044, 0.11634828, -0.0055850362, 0.08558657, -0.025694892, -0.2854381, -0.32876188, 0.14690274, -0.1835963, -0.1786755, -0.44678628, 0.1678422) * go_2(-1.0, -1.0);
result += mat4(0.031241562, -0.1265462, 0.081369035, -0.1184643, 0.0010021052, -0.10810683, -0.039572187, 0.13850863, -0.010703417, -0.057981443, 0.30309856, 0.13869847, -0.16935349, 0.16969836, 0.045642667, 0.26460654) * go_2(-1.0, 0.0);
result += mat4(0.28779998, 0.04767888, -0.011856489, 0.114210494, 0.034624737, 0.19084676, -0.02740287, 0.035041407, -0.049002927, 0.10928203, 0.17362499, -0.1280889, 0.00077811617, -0.17594084, -0.18379052, 0.22303762) * go_2(-1.0, 1.0);
result += mat4(0.0008487252, -0.060438234, 0.109334275, -0.18768874, 0.13844973, 0.09226474, 0.18361697, -0.19385563, -0.29241335, -0.1033556, -0.3289991, 0.10027422, -0.09454755, -0.22817631, -0.2964217, -0.19499257) * go_2(0.0, -1.0);
result += mat4(-0.057920385, 0.06342629, -0.048577324, 0.15952215, -0.061343953, 0.16471362, 0.1501856, 0.027373426, 0.01837245, -0.0732048, 0.09776471, 0.14817989, -0.112215854, 0.109101914, 0.058316242, 0.29969788) * go_2(0.0, 0.0);
result += mat4(-0.12411656, -0.033170763, -0.08715826, 0.110862456, 0.1871076, 0.14550175, 0.23373431, 0.19281025, -0.37016305, -0.11924462, 0.026793748, 0.092801645, 0.04318573, 0.20969667, -0.39267823, 0.1938874) * go_2(0.0, 1.0);
result += mat4(-0.15932916, 0.22217506, 0.007901788, -0.04037383, 0.09095982, -0.043115042, 0.098845564, -0.073432215, -0.14535685, 0.11504512, -0.07950504, -0.010718905, -0.050012022, -0.13089752, -0.3323894, -0.005423676) * go_2(1.0, -1.0);
result += mat4(0.007320675, 0.21108273, 0.20758918, -0.04005568, -0.13234317, -0.15708306, 0.41804615, -0.09720499, -0.09623786, 0.2441289, 0.33276868, 0.17716111, -0.45670444, -0.026252905, -0.01958701, 0.24028622) * go_2(1.0, 0.0);
result += mat4(-0.14936383, -0.023504466, -0.028479185, -0.053541556, -0.060263615, -0.087681144, 0.2435555, 0.08470686, -0.17713271, -0.2303349, 0.09337386, 0.039068084, -0.16263027, 0.034289114, 0.16604292, 0.10550447) * go_2(1.0, 1.0);
result += mat4(-0.16556105, 0.12211341, -0.0036831333, 0.13802956, 0.065256506, 0.03395266, -0.2296282, 0.21284704, 0.017770419, -0.1722762, -0.1741687, 0.10708671, 0.331979, 0.11924846, -0.09410989, -0.123036265) * go_3(-1.0, -1.0);
result += mat4(-0.096586555, -0.30475244, -0.24065268, 0.053860847, 0.19413544, 0.05542323, -0.06327867, 0.012265184, -0.08913778, 0.13779551, -0.099127166, 0.007493773, -0.07125554, -0.0011684593, -0.003005287, -0.094847135) * go_3(-1.0, 0.0);
result += mat4(0.21711998, -0.13086027, 0.07825239, -0.21121782, 0.055840425, -0.0019166623, -0.05480048, 0.019817038, 0.007626905, 0.14126389, 0.04515749, -0.029315706, 0.18555732, -0.114861906, -0.21993469, 0.031716693) * go_3(-1.0, 1.0);
result += mat4(-0.06716353, -0.11964145, 0.09711908, -0.061763637, -0.0948045, 0.14189975, 0.2810092, 0.2505306, 0.08872909, 0.086749084, -0.17528322, -0.048835423, 0.124959685, -0.12602286, 0.065660164, -0.06783225) * go_3(0.0, -1.0);
result += mat4(-0.23066516, -0.0068310793, -0.0021060852, 0.09136854, 0.09919007, 0.2259628, -0.026603302, 0.1367709, -0.07940821, 0.14962214, 0.00652088, -0.3114987, -0.18900892, -0.20450105, 0.09329685, -0.19482759) * go_3(0.0, 0.0);
result += mat4(0.095197074, 0.06346413, -0.05207484, -0.086378016, 0.19733003, 0.1448027, -0.02410627, 0.024829205, -0.20296144, -0.09551166, 0.022987023, 0.09035918, -0.15824226, 0.1350293, -0.06641893, 0.11739518) * go_3(0.0, 1.0);
result += mat4(0.08381447, -0.13171835, -0.030271608, 0.14649504, 0.0007350431, 0.15303299, -0.001797464, 0.30294403, -0.07635094, -0.102541, -0.12176348, 0.053775523, 0.08070882, -0.035387367, -0.09521456, 0.22530125) * go_3(1.0, -1.0);
result += mat4(-0.04650126, 0.12029137, 0.009236626, -0.1371486, -0.119391896, 0.20490645, 0.17123316, -0.015455403, 0.05842872, 0.14354227, 0.37586045, 0.054906923, 0.062954046, 0.07285954, 0.12260665, -0.08675996) * go_3(1.0, 0.0);
result += mat4(0.22510684, -0.010087092, 0.005660375, 0.05069907, 0.10297958, 0.1411009, 0.09538159, 0.00922383, -0.31313825, -0.06449414, 0.109746836, 0.30148697, 0.35861742, -0.045380104, 0.09908991, -0.1933117) * go_3(1.0, 1.0);
result += vec4(0.012253057, 0.13434875, -0.10318777, -0.074252345);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!SAVE conv2d_6_tf
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.04279202, -0.01698567, 0.18318103, -0.18172316, 0.04757184, 0.07232096, -0.054900512, 0.11956132, 0.048900753, 0.0006714882, -0.09200336, 0.16104606, 0.38940707, 0.2754208, -0.12735553, -0.30017206) * go_0(-1.0, -1.0);
result += mat4(0.2469705, 0.103162065, 0.10321547, -0.1292231, 0.3013039, -0.018333653, -0.19897339, 0.122247696, 0.14719778, 0.003909129, -0.19585025, 0.03670547, -0.2132921, 0.33642963, 0.17569672, 0.07414473) * go_0(-1.0, 0.0);
result += mat4(0.015335451, 0.15161209, 0.0447609, -0.042884503, 0.14257035, 0.07775234, -0.2064044, 0.03842874, -0.1660166, -0.19817057, -0.10740875, -0.123968095, 0.14156081, -0.2197906, -0.08622206, 0.4185408) * go_0(-1.0, 1.0);
result += mat4(-0.33392438, -0.12483512, -0.062084857, 0.16336447, 0.09862199, 0.1659862, 0.034751434, -0.11968266, -0.017155796, 0.21001562, -0.053017724, 0.10386376, 0.07066254, 0.50014263, 0.31065208, -0.026068505) * go_0(0.0, -1.0);
result += mat4(-0.34320992, -0.030056434, -0.24118581, -0.024320357, 0.327435, -0.036838267, -0.19433706, 0.24561343, -0.1489437, 0.225435, 0.18421564, 0.021147838, 0.264245, 0.16846146, -0.51724315, 0.039252095) * go_0(0.0, 0.0);
result += mat4(-0.25945047, 0.12058094, 0.2889452, -0.061687145, -0.10309796, -0.19476385, -0.10393912, 0.16837607, -0.05198191, -0.036113493, -0.11847194, 0.16367626, 0.018113747, 0.059499823, 0.0062132217, 0.15846115) * go_0(0.0, 1.0);
result += mat4(0.094601326, 0.053219795, 0.027610637, 0.12041253, 0.21425363, 0.15754686, 0.08518286, -0.00661778, -0.021661628, -0.17554528, -0.014842315, 0.22240937, 0.15908821, -0.20964032, 0.21754523, 0.30307937) * go_0(1.0, -1.0);
result += mat4(0.13757955, 0.06684095, -0.03616685, -0.014618309, 0.04168136, -0.17148526, -0.16317028, 0.14210777, 0.102521434, -0.19108291, -0.14441934, 0.14435884, 0.24228935, -0.10589834, 0.24029285, 0.27317202) * go_0(1.0, 0.0);
result += mat4(-0.16239886, -0.073841535, 0.067964345, -0.11332664, 0.07695667, -0.047180675, -0.08260769, 0.09427637, 0.09471068, 0.012713836, 0.14605078, -0.062490974, -0.11498225, 0.04150893, 0.37402585, 0.21953487) * go_0(1.0, 1.0);
result += mat4(-0.07445113, -0.14220217, 0.09271495, -0.014715529, -0.37606132, -0.14938155, -0.024809113, 0.22279873, -0.011379667, -0.04545505, -0.033382278, 0.08971831, 0.016359061, -0.016230864, 0.052939463, -0.07754285) * go_1(-1.0, -1.0);
result += mat4(0.10961948, 0.09230085, 0.061259165, 0.0015837378, 0.053883027, -0.22557226, 0.018400123, 0.43234614, 0.08967873, 0.06687854, -0.4389578, -0.01658211, -0.040707946, 0.0048945122, 0.1433802, 0.049759727) * go_1(-1.0, 0.0);
result += mat4(-0.027641231, 0.026085567, 0.109188825, -0.19011945, 0.19309571, 0.0084956605, 0.05034047, -0.08674781, -0.008124587, 0.031490494, -0.0744263, 0.084508896, -0.007835403, 0.13120581, 0.0021786217, -0.025225073) * go_1(-1.0, 1.0);
result += mat4(0.020191731, 0.24703082, -0.36845222, 0.0032569442, -0.1497622, 0.05968502, 0.09595371, 0.008410154, 0.119981945, -0.09983294, -0.19541258, -0.111814305, -0.25664008, 0.31031236, -0.23063917, -0.13823026) * go_1(0.0, -1.0);
result += mat4(-0.092747286, 0.23009373, -0.29804415, 0.05036082, 0.031480987, 0.18805481, 0.3676576, 0.06004687, 0.19841099, -0.058367446, -0.44229323, -0.19645047, 0.037667975, 0.12398346, -0.25753063, -0.26919344) * go_1(0.0, 0.0);
result += mat4(-0.019061154, 0.03841801, -0.28433323, 0.38128456, -0.059526864, 0.29960185, 0.014484517, -0.10234412, 0.05444907, -0.12615138, 0.14936689, -0.079120934, 0.028092088, 0.096715964, 0.0037780635, -0.12791039) * go_1(0.0, 1.0);
result += mat4(0.26949528, 0.015951393, 0.15355164, -0.030336212, -0.100286454, -0.052609976, 0.03197625, -0.092190474, 0.06131517, 0.18291938, -0.15216532, -0.026021928, 0.18581273, -0.10659101, 0.14806952, 0.20509768) * go_1(1.0, -1.0);
result += mat4(-0.2205839, 0.11654808, 0.43800604, 0.03188946, 0.13840868, 0.020377772, 0.038510147, 0.03779825, -0.23494276, 0.08624197, 0.036650848, -0.115041405, -0.03776705, -0.32108167, 0.0094707385, 0.37881464) * go_1(1.0, 0.0);
result += mat4(-0.031778246, -0.38020673, 0.16956653, 0.33444092, -0.042172886, -0.03465591, -0.17585713, 0.025507452, 0.07595919, -0.06807453, -0.100295454, -0.019174794, 0.07763043, -0.09321411, -0.05212223, 0.112239085) * go_1(1.0, 1.0);
result += mat4(-0.048172995, -0.012284629, 0.12846173, -0.13459995, 0.25443402, -0.013064909, 0.15480834, 0.14016332, 0.036635883, -0.049085367, 0.0506487, 0.26623604, -0.023176057, 0.012088936, -0.1844897, 0.040488705) * go_2(-1.0, -1.0);
result += mat4(0.2147455, 0.17323543, -0.2943051, -0.053386763, -0.023367947, 0.090753146, -0.011997397, -0.0626111, -0.13558747, -0.035944186, -0.014752113, 0.25506687, 0.055502877, 0.31465453, -0.16283247, -0.08967175) * go_2(-1.0, 0.0);
result += mat4(0.033773236, -0.09510872, -0.09313707, 0.046486538, -0.1699796, -0.11685979, 0.22197925, -0.013884658, 0.12514, -0.12129843, -0.09695589, -0.075202964, -0.12321221, 0.18949097, -0.03694664, -0.2306249) * go_2(-1.0, 1.0);
result += mat4(0.08668444, -0.22983012, -0.30873656, 0.07371376, 0.082137264, -0.014844924, 0.2283955, 0.24782042, 0.31113505, 0.14810014, 0.32804835, -0.12014127, -0.17742543, -0.15872951, -0.080107674, -0.16898526) * go_2(0.0, -1.0);
result += mat4(0.29746926, 0.19479977, 0.13996765, -0.4268552, -0.16478531, 0.0835479, 0.45685142, -0.05510062, -0.1282004, 0.12359051, 0.34026766, -0.26152933, -0.13128015, 0.329812, 0.27172327, -0.06600192) * go_2(0.0, 0.0);
result += mat4(-0.06552484, 0.19600633, 0.12407863, -0.13815112, 0.17426166, 0.040930413, 0.06495108, 0.034157254, -0.029772963, 0.015127817, 0.10718436, -0.13752984, -0.0205358, 0.1884735, 0.104591034, -0.020779913) * go_2(0.0, 1.0);
result += mat4(-0.053475305, -0.13616458, 0.05487909, 0.13256747, -0.10030239, -0.12376705, 0.062755466, 0.03264356, 0.068466686, 0.05019395, -0.034875803, -0.17806669, -0.21720818, 0.25592342, -0.2685692, -0.27576914) * go_2(1.0, -1.0);
result += mat4(-0.04562929, 0.04225299, -0.22311088, -0.09517893, -0.19886662, -0.11944208, 0.11044239, -0.10464355, 0.037634842, 0.124069214, 0.0927385, 0.108838566, -0.088783056, 0.17008123, -0.1007014, -0.23137446) * go_2(1.0, 0.0);
result += mat4(0.10306672, 0.027472405, -0.069015354, -0.14412996, 0.24068132, -0.10624665, -0.25597134, 0.05208812, -0.10230778, 0.006520562, -0.11931577, 0.26738268, -0.09168354, 0.13557245, -0.008878644, -0.22292739) * go_2(1.0, 1.0);
result += mat4(-0.09403718, 0.11993688, -0.036254726, -0.053109076, 0.18422048, 0.25203657, 0.10025996, -0.11272799, -0.22040273, -0.05758331, -0.07059054, -0.054108664, -0.20009018, -0.22061199, 0.057880517, -0.26669186) * go_3(-1.0, -1.0);
result += mat4(-0.08534496, 0.0027822452, -0.01112169, -0.13484463, -0.09446875, -0.057457812, -0.03910888, -0.2816038, -0.096015625, -0.03636662, 0.12532772, 0.092033, 0.038156748, -0.101240925, 0.024886698, -0.086328045) * go_3(-1.0, 0.0);
result += mat4(0.2349796, 0.19884427, -0.0734711, 0.08422328, -0.07201622, 0.020658491, 0.1331021, 0.039766714, 0.19280422, 0.13086005, -0.11339721, -0.14782044, 0.19341573, 0.16767374, -0.03593828, 0.18139753) * go_3(-1.0, 1.0);
result += mat4(-0.040663462, -0.15233721, 0.524604, 0.26603413, 0.07202415, 0.053382196, 0.030758869, -0.06144292, -0.010495834, 0.13868876, -0.020688854, -0.15551737, -0.2958513, -0.32805985, -0.25359175, -0.036683984) * go_3(0.0, -1.0);
result += mat4(-0.06644081, -0.145321, 0.24945419, 0.031560224, 0.17245345, 0.23418438, 0.20341763, -0.2619872, 0.038787205, 0.16488725, 0.0019107185, 0.03820528, 0.04169643, -0.34155026, -0.11183654, 0.028614044) * go_3(0.0, 0.0);
result += mat4(-0.028469078, 0.010781976, 0.05263661, -0.15337946, -0.20491667, -0.13879907, 0.13934538, 0.061196275, 0.056804053, 0.063193604, -0.2389496, 0.037072126, -0.058510017, 0.036215063, 0.3074709, 0.10517675) * go_3(0.0, 1.0);
result += mat4(0.028534278, 0.0022668538, 0.04492863, -0.060705435, 0.06349762, -0.016823182, -0.09148226, 0.03930522, -0.083295114, 0.14799853, -0.08089152, -0.21993661, -0.23298621, 0.05106244, -0.013708201, -0.16311577) * go_3(1.0, -1.0);
result += mat4(0.05885827, 0.122300275, -0.16086812, -0.21892425, -0.07548077, 0.09286181, -0.027564062, -0.028723463, -0.0056181233, 0.23472206, -0.0049285595, -0.45054138, 0.07592325, -0.044704806, 0.019616256, -0.06956836) * go_3(1.0, 0.0);
result += mat4(0.036423888, 0.20839189, -0.16420732, -0.15954947, -0.11311323, -0.24191359, 0.19845375, 0.084540576, -0.20946553, 0.09259613, 0.03234368, -0.056766506, -0.11992363, -0.06882079, -0.020428827, -0.093375795) * go_3(1.0, 1.0);
result += vec4(0.013113342, -0.2905848, -0.029724011, 0.1769613);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!SAVE conv2d_6_tf1
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.093678355, -0.08574688, 0.007699401, -0.038818456, -0.10667588, 0.043627866, 0.23127791, 0.061317544, -0.32790044, 0.08618836, 0.009400048, -0.17129329, 0.23541448, -0.015561885, -0.11172365, -0.1190039) * go_0(-1.0, -1.0);
result += mat4(-0.0052874424, 0.08136584, -0.12633958, -0.016064916, 0.14033778, 0.07755252, -0.26242834, 0.063312635, 0.06861756, 0.14867078, -0.2561066, 0.33325562, -0.106489345, -0.10068009, -0.039633382, -0.016305668) * go_0(-1.0, 0.0);
result += mat4(-0.27784392, -0.14990395, -0.35981888, -0.2564094, -0.07480205, -0.026457628, 0.1027643, 0.19381845, -0.07160986, -0.15616457, -0.032070953, 0.32998616, 0.15383582, 0.16622585, -0.1435993, -0.02287804) * go_0(-1.0, 1.0);
result += mat4(-0.09360053, 0.58019537, 0.02028909, 0.413114, 0.025173154, -0.030326266, -0.028177274, -0.12964654, -0.25432733, -0.06556034, 0.023097439, -0.09458851, -0.21772051, -0.10324596, -0.36674342, -0.14803977) * go_0(0.0, -1.0);
result += mat4(-0.1227467, 0.20252965, 0.2559927, 0.08719227, 0.030749539, -0.2526622, -0.25694713, -0.2960799, -0.34960067, -0.25393236, -0.28439638, 0.086787805, -0.34202877, 0.21933395, 0.23473133, 0.079260886) * go_0(0.0, 0.0);
result += mat4(-0.00147522, -0.16591258, -0.030617915, 0.10052425, -0.1822102, 0.038774874, -0.04285007, 0.07312042, 0.052175622, -0.33510515, 0.027545406, 0.2995306, -0.08535316, 0.11144203, 0.27999434, -0.09770663) * go_0(0.0, 1.0);
result += mat4(-0.04394928, -0.26842886, -0.08354109, 0.04077001, -0.009221606, 0.0328837, 0.006459338, 0.08984004, -0.13035133, 0.20004508, 0.21950854, -0.12742348, 0.32386312, 0.085903555, -0.29273173, -0.056370437) * go_0(1.0, -1.0);
result += mat4(0.019171638, -0.1824711, -0.10899421, -0.16201603, 0.054712642, -0.020315547, -0.048609916, -0.068621606, -0.055706583, -0.25671515, -0.019494208, 0.08366393, 0.09531471, -0.05988052, -0.024995802, 0.019303525) * go_0(1.0, 0.0);
result += mat4(-0.08694609, 0.26762635, 0.10477892, -0.15392998, -0.059596587, -0.047562487, -0.25932398, -0.054960977, -0.00015596532, 0.07196634, -0.017385524, -0.18826845, -0.017969077, -0.27291682, -0.153906, -0.107691295) * go_0(1.0, 1.0);
result += mat4(0.17340474, -0.1285696, -0.04484238, 0.15782213, -0.06190358, 0.27896214, 0.28475145, -0.042519942, -0.19862229, -0.1354097, 0.14344497, 0.015599392, 0.18698554, 0.035121564, -0.018465763, 0.0010143917) * go_1(-1.0, -1.0);
result += mat4(-0.13428356, -0.06612225, 0.19397905, 0.14209093, 0.1526626, 0.2617573, -0.15316434, 0.35452205, 0.05003259, 0.07679617, -0.008399171, -0.0062716682, 0.11833864, 0.1331285, -0.006803729, 0.22615404) * go_1(-1.0, 0.0);
result += mat4(0.0020632436, -0.173174, -0.15404437, 0.05430569, 0.21100305, 0.39063898, -0.019479724, 0.17396629, -0.061121427, -0.13424753, -0.008459669, -0.04975768, 0.20599939, -0.11374013, -0.21116278, 0.063624285) * go_1(-1.0, 1.0);
result += mat4(-0.0073831948, -0.12009769, -0.16402034, 0.054093774, 0.061061747, -0.009054565, -0.02815144, -0.17071937, -0.22791979, 0.073427565, 0.25161973, 0.1011713, -0.23804636, 0.13810354, 0.09063126, -0.23065178) * go_1(0.0, -1.0);
result += mat4(-0.31885087, 0.21730177, -0.20516786, 0.04075695, -0.2736768, -0.38779113, -0.19445951, -0.14024325, -0.11824961, -0.102919355, -0.17858729, -0.013441498, 0.16320607, -0.27105078, -0.00019549616, 0.024509901) * go_1(0.0, 0.0);
result += mat4(-0.16024838, -0.3132909, -0.15461555, 0.34874174, -0.0051668375, 0.1811257, 0.3384939, 0.16381103, 0.047184363, -0.20424844, -0.1330078, -0.13795874, 0.21890834, -0.08242861, 0.22677775, 0.031102268) * go_1(0.0, 1.0);
result += mat4(0.19408257, 0.016361775, -0.202373, 0.2245766, -0.008954751, -0.047279913, -0.09170596, 0.01567793, -0.0019059096, -0.07785436, 0.0756357, 0.09683383, 0.034215495, -0.030802004, -0.077977195, -0.1101297) * go_1(1.0, -1.0);
result += mat4(-0.1060503, -0.0044663083, -0.14942732, -0.11696249, -0.04550482, 0.11463188, 0.17801443, 0.07229662, -0.14176941, 0.02773344, -0.10770335, -0.08745911, -0.023052111, -0.17474785, 0.016645849, -0.059080444) * go_1(1.0, 0.0);
result += mat4(-0.050500304, -0.14716387, 0.04525464, 0.23543595, 0.08411192, 0.16031684, 0.1659825, -0.03595111, -0.012943453, 0.13354135, -0.051425032, -0.0075654723, 0.11174184, 0.1266808, -0.18799087, 0.10571744) * go_1(1.0, 1.0);
result += mat4(-0.15583408, 0.09837484, 0.19239932, -0.03557196, -0.05406335, 0.096456856, -0.13921897, -0.2212671, 0.28973594, 0.04017474, -0.25423512, 0.1522156, -0.10563249, -0.033190794, 0.101713456, -0.08922746) * go_2(-1.0, -1.0);
result += mat4(-0.0787607, -0.14545321, 0.099762656, -0.2824299, 0.10130184, 0.019948835, -0.1013831, 0.06604923, 0.089561954, 0.28344154, 0.05757009, 0.04981809, -0.15927236, 0.008129835, -0.04280382, 0.10653281) * go_2(-1.0, 0.0);
result += mat4(0.28149363, 0.019583186, 0.25983065, 0.30190885, 0.055435803, -0.01970755, 0.04546505, -0.027456624, 0.43886992, -0.032305803, -0.23557569, 0.12753153, -0.18509789, -0.073295385, 0.0083466545, -0.08271229) * go_2(-1.0, 1.0);
result += mat4(0.016040009, -0.20475672, -0.015803276, 0.18247975, 0.21178837, -0.041543446, -0.24716362, 0.10105528, 0.19479224, -0.06583694, -0.09192672, -0.037776746, 0.09636229, -0.12086331, 0.13989103, 0.014564729) * go_2(0.0, -1.0);
result += mat4(0.19923596, -0.4132588, -0.4254784, -0.33433357, -0.16956097, -0.25086832, 0.23311833, -0.08976422, 0.06432824, -0.0071802614, 0.0033370545, -0.11073493, -0.46609998, -0.09332235, -0.27287352, 0.052513942) * go_2(0.0, 0.0);
result += mat4(-0.06954148, -0.06908355, -0.01875471, -0.35067585, 0.038715206, 0.08843527, 0.28899097, -0.024983376, 0.05879495, 0.110363334, 0.055481512, -0.0046147215, -0.035302363, -0.2722019, -0.0829261, 0.21088009) * go_2(0.0, 1.0);
result += mat4(-0.101971015, -0.18584369, 0.1469676, 0.025965, 0.07205807, 0.08838771, 0.08537094, 0.023344917, -0.106373414, -0.09254277, -0.25996596, 0.24570447, 0.00590166, -0.20074098, -0.05443169, -0.10562662) * go_2(1.0, -1.0);
result += mat4(0.12980327, -0.16834956, -0.1635997, 0.23437372, -0.07374834, 0.0062907683, 0.17292136, 0.0018093853, 0.04122969, -0.025285576, 0.29646805, 0.13402736, -0.040267725, 0.0011441729, -0.18658921, 0.12006417) * go_2(1.0, 0.0);
result += mat4(0.13221453, 0.15109141, 0.07707579, 0.05148666, -0.039716493, 0.12869143, -0.012840577, 0.10953536, -0.05721115, -0.120122276, -0.07632444, 0.32949027, 0.00022400127, 0.22217369, 0.2180494, -0.028773604) * go_2(1.0, 1.0);
result += mat4(-0.08405412, 0.11332542, 0.120847605, 0.00520135, -0.13689686, -0.1459117, -0.029643068, 0.16147274, 0.21844815, -0.036921967, -0.12862785, -0.15930249, -0.11265427, -0.17471205, 0.0026749703, 0.2048758) * go_3(-1.0, -1.0);
result += mat4(-0.03768306, -0.07585988, 0.046583172, -0.35557657, 0.012359812, -0.05498573, 0.19581361, -0.08186999, -0.008727976, -0.16623624, -0.03647879, 0.22760212, 0.048297524, -0.12502927, 0.08636729, -0.26437047) * go_3(-1.0, 0.0);
result += mat4(-0.19518375, 0.17423135, 0.19473018, -0.22721744, -0.25087392, -0.17043075, -0.021999557, -0.27388734, -0.096786864, -0.012226921, 0.16101876, 0.030362492, -0.017619403, -0.2494354, -0.07336028, 0.06842719) * go_3(-1.0, 1.0);
result += mat4(0.13816363, 0.14551367, -0.08497621, 0.15563537, -0.01600614, -0.010629245, 0.007773828, 0.2733634, 0.13066974, -0.2223056, -0.12664202, -0.19242655, -0.13211249, 0.065143794, 0.23912583, 0.19819915) * go_3(0.0, -1.0);
result += mat4(0.001870705, -0.0028601827, 0.14014813, 0.14659253, -0.037523735, 0.3726274, 0.13139205, 0.0112125, -0.16308945, -0.17571904, 0.12799808, -0.032106552, 0.013872656, 0.432307, -0.14197885, 0.24013121) * go_3(0.0, 0.0);
result += mat4(0.117900506, -0.08039036, -0.17504077, -0.08337764, -0.0068703834, -0.07430392, -0.17125578, -0.3470726, -0.20989974, -0.019394008, -0.027336912, 0.18668686, 0.052886557, -0.023217537, 0.004054446, 0.055974416) * go_3(0.0, 1.0);
result += mat4(-0.055653654, 0.08726097, 0.01206228, -0.25783783, -0.08736529, 0.19947968, -0.010166337, 0.36168414, 0.20298903, -0.15769973, -0.21389212, -0.19638214, -0.093130395, -0.067289785, 0.10245741, -0.14167903) * go_3(1.0, -1.0);
result += mat4(0.04559992, -0.102125205, 0.21949212, -0.07308472, -0.15511832, 0.23785073, 0.04275021, 0.085007004, 0.079402514, 0.10851189, -0.151969, -0.29738536, -0.0776658, 0.1113102, -0.18987878, -0.045522977) * go_3(1.0, 0.0);
result += mat4(0.073690206, -0.016468357, 0.122353435, -0.023995928, 0.095143944, 0.23051415, 0.17702249, 0.030164838, -0.09111423, -0.14219609, -0.19734482, -0.24854833, -0.0067356345, -0.1760497, 0.22637916, 0.119141534) * go_3(1.0, 1.0);
result += vec4(0.22705397, -0.029518934, -0.026397338, -0.08183741);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_7_tf
//!WIDTH conv2d_6_tf.w
//!HEIGHT conv2d_6_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_6_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_6_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_6_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_6_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.16737834, 0.35369134, 0.14049083, 0.017871622, 0.0058661173, -0.035960242, -0.039154284, -0.01920433, 0.0729212, -0.03617972, -0.42717552, -0.019914677, -0.30816802, -0.07726792, 0.2088459, -0.09198307) * go_0(-1.0, -1.0);
result += mat4(-0.0991125, 0.11411345, 0.15300295, -0.09510225, 0.014268626, -0.42914182, -0.13365223, -0.19440699, -0.27214321, 0.085696176, 0.1527733, -0.21056797, -0.062475704, -0.023041902, -0.29080424, -0.54386055) * go_0(-1.0, 0.0);
result += mat4(-0.30736786, -0.16801229, 0.07400606, -0.31128535, -0.11047924, 0.16556956, -0.33445996, -0.09190697, -0.06132585, -0.11021996, 0.014628762, -0.45183894, 0.08186993, 0.19378273, 0.113438204, 0.038364496) * go_0(-1.0, 1.0);
result += mat4(0.24129803, 0.29174972, -0.1250327, 0.14254767, 0.0026774528, 0.1742466, -0.021835174, 0.01668921, 0.13646975, 0.313305, -0.23293279, -0.16737306, -0.059818722, 0.06404477, 0.108172625, 0.22065729) * go_0(0.0, -1.0);
result += mat4(-0.3504013, 0.20759478, 0.28683922, 0.2771802, 0.13761812, -0.21180478, -0.17020214, -0.21419087, -0.031916566, -0.040439468, 0.39206958, 0.715565, 0.46198523, 0.05055317, -0.07409331, -0.050633535) * go_0(0.0, 0.0);
result += mat4(0.122958206, 0.0071205017, -0.21314384, -0.22197853, 0.016202174, -0.15960938, -0.14601983, -0.023609173, -0.07586023, 0.099936776, -0.0480375, -0.08681468, -0.14976887, -0.38979456, 0.16078879, -0.12263952) * go_0(0.0, 1.0);
result += mat4(0.1687149, 0.108331114, 0.10112296, 0.01738403, -0.06773097, -0.19410455, -0.09728116, 0.0013846151, -0.038603816, -0.05495021, 0.2453317, -0.40052003, -0.022453755, 0.045039784, 0.0474246, -0.2665161) * go_0(1.0, -1.0);
result += mat4(0.06805519, -0.052276067, 0.052459523, -0.0033053474, 0.13439268, -0.06845637, -0.20462433, -0.09088968, -0.00096404477, -0.35103628, 0.15096465, 0.3285226, 0.018747555, -0.06623108, 0.1754265, 0.3211156) * go_0(1.0, 0.0);
result += mat4(-0.04583627, 0.122267574, -0.44002235, -0.20039988, 0.039372742, -0.16505809, -0.26659602, 0.12207268, 0.03337428, 0.23131758, -0.009866899, 0.010381569, 0.29676, -0.020599596, 0.17816995, 0.32852224) * go_0(1.0, 1.0);
result += mat4(0.09469788, -0.12531966, -0.11786524, -0.3115985, -0.2213199, -0.012536277, -0.13176842, 0.14986996, 0.12069894, 0.2744789, 0.21674646, 0.46060535, -0.4101697, -0.55295914, 0.29993954, 0.114459395) * go_1(-1.0, -1.0);
result += mat4(0.18347421, -0.29010707, 0.29127017, 0.087738656, 0.17509815, 0.03982794, 0.1731455, 0.38041735, 0.110374, -0.25045586, 0.36446962, 0.016104888, -0.012112869, 0.10154983, -0.45384112, -0.11416608) * go_1(-1.0, 0.0);
result += mat4(-0.033837743, -0.020894403, -0.287127, -0.21196121, -0.03255823, 0.2599821, -0.38386443, 0.30563655, 0.39044768, -0.112917066, -0.021323297, 0.12623324, 0.06885038, -0.20750642, 0.07642818, -0.103580445) * go_1(-1.0, 1.0);
result += mat4(0.1723114, -0.3726216, -0.21184283, 0.1761503, -0.24993578, -0.31068864, 0.19998416, -0.23127908, -0.052656204, -0.04243976, 0.4397144, 0.01863219, -0.04796025, -0.11009142, -0.0073631364, 0.2716381) * go_1(0.0, -1.0);
result += mat4(0.04202001, 0.27142277, -0.027491128, 0.27428457, -0.11009916, 0.39839938, -0.7223327, -0.124673314, 0.08123618, -0.11884722, -0.20375855, -0.7179687, 0.30648115, -0.28195357, -0.3350774, -0.29778734) * go_1(0.0, 0.0);
result += mat4(0.071278594, -0.09155223, 0.06417857, 0.08250104, -0.45117077, -0.023316784, 0.38917172, -0.19110887, -0.09265943, -0.2643835, -0.09707039, -0.33238646, -0.0818088, 0.17623149, -0.28457013, 0.13986786) * go_1(0.0, 1.0);
result += mat4(0.019971045, -0.046649583, -0.03036858, 0.07944429, 0.26344573, 0.054998036, 0.07139812, 0.21139374, 0.08021858, -0.025791258, -0.0423707, 0.25174072, -0.021300986, 0.13209766, 0.19120613, 0.3840775) * go_1(1.0, -1.0);
result += mat4(-0.11456406, -0.33503455, 0.21409267, -0.056933913, -0.12204284, -0.37379473, 0.33474764, 0.38634798, 0.12618992, 0.1353635, -0.22651522, -0.3160159, 0.18621005, 0.024818055, -0.11935204, 0.014005666) * go_1(1.0, 0.0);
result += mat4(0.1501391, 0.0014716414, -0.22049955, -0.10928345, -0.07085164, -0.08778668, 0.19251469, -0.4932493, 0.071784936, -0.06903646, -0.060333923, 0.020552203, -0.33637995, -0.22848415, 0.21518159, 0.23815839) * go_1(1.0, 1.0);
result += mat4(-0.04230713, -0.19312756, -0.0613665, 0.058912925, -0.17639293, -0.029920885, -0.027867602, -0.16602923, 0.10262268, -0.0743682, 0.15286638, 0.08042581, -0.042299524, 0.0022034592, 0.15304253, 0.049871147) * go_2(-1.0, -1.0);
result += mat4(0.004346093, -0.07895582, 0.02089975, 0.13429636, -0.1020282, 0.5270822, 0.017983409, 0.1531299, -0.02891241, -0.07050933, -0.18729019, 0.13855362, -0.11538968, 0.20733222, 0.1546878, 0.11550679) * go_2(-1.0, 0.0);
result += mat4(0.21800312, 0.20944421, -0.1817274, 0.022868395, -0.019241469, 0.038916696, 0.088702604, 0.1467791, 0.0048542274, 0.10344671, -0.0107803065, 0.23302868, 0.049728952, -0.016042534, -0.08694045, -0.0028224774) * go_2(-1.0, 1.0);
result += mat4(-0.1570157, 0.08688841, 0.03926086, -0.040503077, -0.052700017, -0.1432353, -0.04516745, -0.09649034, -0.053716175, 0.07059194, -0.07360609, 0.26307717, 0.121471435, -0.13640986, -0.1113535, -0.38560814) * go_2(0.0, -1.0);
result += mat4(-0.014722592, -0.39773384, 0.28259715, -0.10905738, 0.07889424, 0.1415529, -0.15419348, -0.2064834, -0.15126482, -0.28288555, -0.0014232624, -0.26178944, -0.025823193, 0.008017357, -0.08547297, 0.26373458) * go_2(0.0, 0.0);
result += mat4(0.2978961, -0.020236012, -0.101216674, 0.15498216, -0.0069343713, -0.088363856, 0.20511419, 0.23958007, 0.045810107, -0.19189738, -0.14137349, 0.04177724, -0.1394684, 0.0071990825, 0.06991723, -0.21052721) * go_2(0.0, 1.0);
result += mat4(-0.05615232, 0.22506002, -0.12479586, -0.0070057763, 0.092545755, 0.096306436, 0.041890718, 0.1226944, -0.07541768, -0.08369033, -0.15144373, 0.09310172, 0.28388003, 0.09935607, 0.11299509, 0.0014283776) * go_2(1.0, -1.0);
result += mat4(-0.005848455, 0.117699094, 0.23539856, 0.11006195, 0.10962903, 0.28139547, 0.18785141, -0.11635996, 0.057289902, 0.2370178, -0.29825503, -0.13706475, -0.3869794, 0.024066223, 0.36742347, 0.35919484) * go_2(1.0, 0.0);
result += mat4(0.13744523, 0.09239356, 0.01173183, 0.119055405, -0.07841836, 0.0668925, 0.22598477, -0.016510552, 0.07971727, -0.17154713, 0.03333588, -0.13790733, 0.15421963, 0.2895701, -0.28440917, 0.015132756) * go_2(1.0, 1.0);
result += mat4(-0.054354303, 0.36663428, 0.02634933, 0.18688667, 0.0607547, 0.17321853, 0.086784445, -0.023283, 0.0027200899, 0.026914112, -0.07438439, 0.27042162, 0.09985293, 0.012430832, -0.20694605, -0.20363812) * go_3(-1.0, -1.0);
result += mat4(-0.42759168, 0.15540305, -0.18979609, 0.0073875943, 0.034251947, -0.34551802, 0.53327596, 0.17446762, -0.25879666, 0.2780996, 0.11094055, 0.17597, 0.13790102, 0.2615357, 0.09666047, 0.36155468) * go_3(-1.0, 0.0);
result += mat4(0.052614138, -0.1880028, 0.361331, 0.07957976, 0.12552904, -0.0042941784, 0.096562445, -0.041199915, 0.07412456, 0.16379668, 0.05464284, 0.050022952, -0.028281605, 0.09332573, 0.21379845, 0.21396561) * go_3(-1.0, 1.0);
result += mat4(-0.07546953, 0.16393837, -0.3060623, -0.64610606, -0.013715101, 0.18005042, 0.045286633, -0.21057944, -0.12779316, -0.10310629, 0.14360385, 0.011625261, 0.05597252, 0.023864657, -0.00018915108, -0.24224915) * go_3(0.0, -1.0);
result += mat4(-0.08550672, 0.2438917, -0.30383766, -0.2463794, 0.13835424, -0.079946786, -0.060197506, 0.051599402, -0.24983203, -0.06691107, -0.0041784844, 0.07539119, -0.030340329, -0.23565106, -0.17968354, -0.10262371) * go_3(0.0, 0.0);
result += mat4(0.19315718, -0.045718513, 0.120446794, -0.225136, 0.22922774, -0.046026126, 0.11448238, 0.114267804, -0.22327735, -0.03368635, 0.29763463, 0.03673529, -0.0583939, -0.092253424, 0.045279544, 0.04475646) * go_3(0.0, 1.0);
result += mat4(-0.062286656, -0.06241419, -0.23600577, -0.24818502, -0.058666106, 0.17710151, -0.1751668, 0.05758226, 0.18278669, 0.033297777, 0.046349872, 0.09178792, -0.0745512, 0.20019765, 0.037281513, 0.22204825) * go_3(1.0, -1.0);
result += mat4(-0.24708512, -0.1318695, -0.24966322, -0.31206796, 0.079176836, 0.11837155, -0.12882641, -0.01013533, -0.009065797, 0.0789075, 0.016151598, 0.00020127615, 0.1450729, 0.10825556, 0.09322918, 0.07283566) * go_3(1.0, 0.0);
result += mat4(0.2604332, 0.25550258, 0.07709474, 0.28426003, 0.10387355, 0.09152259, 0.18742633, -0.0073229484, -0.20327723, -0.26013616, 0.055792782, -0.1713302, 0.14862068, 0.06698207, 0.17608787, -0.11622757) * go_3(1.0, 1.0);
result += vec4(-0.20551574, 0.073114716, -0.21843387, -0.28057778);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_7_tf1
//!WIDTH conv2d_6_tf.w
//!HEIGHT conv2d_6_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_6_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_6_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_6_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_6_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.18413043, -0.12355504, 0.2708789, 0.17259507, -0.069752574, 0.12640886, 0.01075919, -0.028221423, -0.020598855, -0.17259665, 0.16907778, -0.10040477, 0.017177016, 0.0176426, 0.23724149, 0.14657862) * go_0(-1.0, -1.0);
result += mat4(0.16921899, -0.33950835, 0.37508205, 0.09996622, 0.13377811, -0.036743056, -0.11633877, -0.23046862, -0.009307903, 0.027441062, 0.054166224, 0.011627087, -0.22831611, 0.043198805, -0.12695734, 0.0062862337) * go_0(-1.0, 0.0);
result += mat4(0.17216596, -0.15588646, -0.14179194, 0.12487524, 0.10507964, 0.124544986, -0.0046104924, -0.116668865, -0.006100901, -0.022074439, 0.03376759, 0.10498887, 0.109659016, -0.03567928, 0.29972833, -0.045950003) * go_0(-1.0, 1.0);
result += mat4(-0.29127, 0.21912472, 0.16494286, 0.027708547, 0.043136686, 0.04409876, -0.07686145, -0.13180132, -0.16630307, 0.15650205, -0.005864527, 0.03916553, 0.15750135, 0.1705246, 0.21626697, 0.06906506) * go_0(0.0, -1.0);
result += mat4(0.055395894, 0.28228188, 0.114794776, 0.020619212, -0.031812593, 0.11964309, -0.24317431, -0.36277202, 0.54564184, -0.032843567, -0.118973784, -0.40999004, -0.118530475, 0.09256661, 0.06583871, -0.36627474) * go_0(0.0, 0.0);
result += mat4(0.17914769, 0.33976436, -0.11220768, 0.1325754, 0.40586957, 0.3064959, -0.19086123, 0.014164092, -0.17376979, -0.0037554938, 0.11771888, 0.44933778, -0.15937245, -0.10635065, 0.084963776, 0.14630255) * go_0(0.0, 1.0);
result += mat4(-0.3723194, 0.21509883, 0.020062352, 0.094394304, 0.030794155, -0.11394617, -0.09103134, -0.0042343247, -0.28981096, -0.061873477, -0.17772584, 0.36440176, 0.007828069, -0.012121627, 0.25862312, 0.24646287) * go_0(1.0, -1.0);
result += mat4(0.10368119, -0.06185447, -0.022830853, 0.10918094, 0.18888599, -0.09235343, -0.055134308, -0.2210923, 0.15334128, -0.3084707, 0.31606838, 0.39931116, 0.29489174, -0.24794856, -0.4799932, -0.2617589) * go_0(1.0, 0.0);
result += mat4(0.32550937, -0.17103608, 0.3257806, -0.23358762, 0.20370598, 0.13325407, -0.020303056, -0.105462655, -0.22264756, -0.034177396, 0.36885822, 0.20504399, 0.36375418, -0.26149705, 0.022433946, 0.15646128) * go_0(1.0, 1.0);
result += mat4(0.007481421, 0.005642636, -0.170087, -0.08915849, 0.6329519, 0.06880098, -0.20856442, -0.1801066, -0.1342754, 0.13643123, 0.26994216, -0.27503812, 0.018052012, 0.058687408, -0.19784917, 0.021157453) * go_1(-1.0, -1.0);
result += mat4(-0.1486918, 0.12212738, -0.03104796, 0.08664756, 0.3464865, 0.27309546, -0.022896903, -0.32080007, -0.28113958, 0.74847424, -0.33735126, -0.04616876, -0.23119605, 0.4214322, -0.16457441, 0.09162191) * go_1(-1.0, 0.0);
result += mat4(0.15863913, 0.1303683, -0.06339421, 0.06328312, -0.3100047, -0.33906308, 0.13805804, -0.14923394, 0.4997829, -0.14977637, 0.02265068, -0.04585939, 0.29802153, 0.3767994, -0.031849556, -0.051892217) * go_1(-1.0, 1.0);
result += mat4(-0.04541847, -0.13645087, 0.14119779, 0.06409465, -0.29877988, -0.0009743694, 0.028256422, 0.14978185, -0.13014801, -0.24171488, -0.10782599, 0.010709664, 0.21880737, -0.34132662, 0.22972895, -0.07159475) * go_1(0.0, -1.0);
result += mat4(-0.1510528, 0.115773134, 0.036761034, -0.284284, -0.35684052, 0.16348189, -0.105475456, 0.08259931, -0.6489164, -0.033928663, -0.04243186, 0.25324553, -0.31829014, 0.066608824, -0.11131264, 0.51919967) * go_1(0.0, 0.0);
result += mat4(-0.06517726, 0.1933327, 0.044391852, -0.013346896, -0.3033368, 0.106350735, -0.1351003, -0.13414839, 0.11720078, -0.24844061, -0.2900742, -0.047861837, 0.42789885, -0.47915378, -0.09643217, -0.22915216) * go_1(0.0, 1.0);
result += mat4(0.109821886, 0.31451595, 0.13300805, -0.08792569, -0.023928089, -0.038061168, 0.17821129, 0.003772247, 0.14684688, -0.12646271, 0.16072205, 0.011095222, 0.09209181, 0.005167038, -0.08823252, 0.079890974) * go_1(1.0, -1.0);
result += mat4(-0.20074554, 0.39979288, -0.007316405, -0.047838025, 0.10849111, -0.22469573, -0.059183244, -0.13663793, 0.07881898, 0.105663374, -0.3152222, 0.08104766, -0.22965154, 0.118780024, -0.07886757, 0.073527716) * go_1(1.0, 0.0);
result += mat4(0.1304303, 0.023158893, -0.081089824, -0.15955788, 0.42183343, -0.12898655, -0.14028409, 0.011985, 0.3977131, -0.313598, -0.148818, -0.048350018, -0.13534498, -0.12760727, -0.014968193, 0.06646305) * go_1(1.0, 1.0);
result += mat4(0.18085147, -0.11859402, 0.117530234, -0.10420847, 0.1848264, -0.12192718, -0.18729533, -0.10098887, 0.011134682, -0.23658146, 0.12963286, 0.117404245, 0.054487415, -0.030003065, -0.32175776, -0.08044254) * go_2(-1.0, -1.0);
result += mat4(-0.07251758, 0.073430285, -0.22191651, 0.030512359, -0.029650904, -0.15816379, 0.0418705, 0.04776615, -0.014070836, -0.14669086, -0.009874937, -0.015444495, -0.2747725, -0.061624944, -0.11261252, 0.14757589) * go_2(-1.0, 0.0);
result += mat4(-0.09274913, 0.046194065, 0.05642919, -0.07803342, 0.23578037, 0.01224276, 0.015608659, 0.05847865, -0.091819406, -0.14424564, -0.034869857, 0.019276984, -0.031180726, -0.21905676, 0.100375675, -0.13659117) * go_2(-1.0, 1.0);
result += mat4(-0.072157644, -0.13294607, 0.24301524, 0.048643183, -0.04338094, -0.0021709928, -0.06530963, -0.22672611, 0.07479903, 0.08388352, -0.07460508, -0.14517406, -0.072923675, -0.26912874, -0.2769797, 0.054033212) * go_2(0.0, -1.0);
result += mat4(-0.5648679, -0.28059873, -0.039906785, -0.39112374, -0.3841447, -0.20383365, 0.12607281, 0.16049421, -0.34394273, -0.022326993, 0.16646549, -0.23433913, 0.071224056, 0.048073303, 0.122035526, 0.14941359) * go_2(0.0, 0.0);
result += mat4(-0.11803124, 0.114169255, 0.018188128, 0.0053847185, -0.07537228, -0.048262373, 0.073838905, -0.041833423, 0.044405136, -0.03813592, 0.076818384, -0.06015139, -0.085042655, -0.14306667, -0.21477652, 0.31548396) * go_2(0.0, 1.0);
result += mat4(0.19307283, -0.014985916, -0.14332882, -0.05549754, 0.14551677, 0.11406769, 0.2744144, -0.031179624, 0.17578745, -0.11309805, 0.010072839, -0.07453384, -0.23163621, 0.19061968, 0.11016298, 0.108093746) * go_2(1.0, -1.0);
result += mat4(0.23180474, -0.12522835, -0.03218773, -0.0031955864, -0.14057393, 0.07269213, -0.20883523, 0.09332164, -0.16037942, 0.25845763, -0.002303125, -0.014625506, 0.17063208, -0.11648214, 0.13988028, -0.024688654) * go_2(1.0, 0.0);
result += mat4(0.043369994, 0.12473897, 0.108142346, 0.10268199, 0.16159926, -0.17804666, -0.007889351, 0.07232418, 0.26326916, 0.0474316, -0.41637155, -0.11879895, 0.14051722, 0.08747377, 0.1162202, -0.06443569) * go_2(1.0, 1.0);
result += mat4(0.0041097966, 0.109841965, 0.097240336, 0.08123332, -0.081065506, 0.12650634, 0.23450434, 0.09631333, 0.21942414, -0.108897425, -0.033703003, 0.047280088, -0.017764917, -0.058596086, -0.15305139, 0.09055131) * go_3(-1.0, -1.0);
result += mat4(0.26824722, 0.014116421, 0.11844865, -0.156046, 0.057152968, 0.21287468, -0.3243975, -0.18181354, -0.07131152, -0.17860547, 0.18918999, 0.15399154, 0.20270234, 0.11524436, 0.05146645, -0.18196748) * go_3(-1.0, 0.0);
result += mat4(-0.2745638, -0.026905773, 0.045458756, 0.22942849, -0.21052304, 0.20649272, -0.03713028, 0.33655703, -0.12467089, -0.015030098, 0.15504798, -0.05647672, 0.18751477, 0.08505986, 0.04756538, -0.058810517) * go_3(-1.0, 1.0);
result += mat4(0.1737789, 0.06552432, -0.34797582, -0.05370679, -0.036056817, 0.085242435, -0.12802805, 0.03710984, -0.09883285, 0.08946925, -0.0446528, 0.07734006, -0.10973603, 0.262812, 0.14010249, -0.1543792) * go_3(0.0, -1.0);
result += mat4(0.316673, -0.16414417, -0.23147403, -0.3080756, -0.056620106, -0.11389848, 0.0948114, 0.13236332, -0.40048537, -0.090742044, 0.12090404, 0.024549136, -0.19124876, -0.3007761, 0.16159211, -0.28620452) * go_3(0.0, 0.0);
result += mat4(0.032962102, -0.05481415, -0.1185786, 0.18153866, -0.2105442, -0.03802839, 0.14060515, 0.072460145, -0.1523761, -0.11426362, 0.02610123, -0.053477813, -0.20768824, 0.04533907, 0.14381588, -0.041578818) * go_3(0.0, 1.0);
result += mat4(-0.021694858, -0.028784249, -0.09928565, 0.07335764, 0.1315628, 0.11288982, 0.078681685, -0.1229723, -0.09618894, -0.07387309, 0.04340066, -0.036534667, 0.37295115, -0.08176548, -0.16579813, -0.13485877) * go_3(1.0, -1.0);
result += mat4(0.45979, -0.289226, -0.15456465, 0.0117592, 0.22803205, 0.15497394, -0.38995707, 0.005227681, -0.20515667, 0.17184737, -0.069968715, -0.24724679, -0.048521046, 0.013277072, 0.049562644, -0.05522196) * go_3(1.0, 0.0);
result += mat4(0.14561136, -0.18995416, 0.18104567, 0.063063085, -0.09728072, 0.018328888, -0.17258182, 0.069259025, 0.15187183, 0.16760696, -0.14086077, 0.013297849, -0.07579904, -0.09294852, -0.24227127, -0.048749007) * go_3(1.0, 1.0);
result += vec4(0.31939298, 0.03303962, -0.010749771, 0.084496394);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-Soft-(VL)-Conv-3x1x1x112
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!BIND conv2d_7_tf
//!BIND conv2d_7_tf1
//!SAVE MAIN
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
#define g_0 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_1 (max((conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_2 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_4 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_5 (max((conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_6 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_8 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_9 (max((conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_10 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_12 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_13 (max((conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_14 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_15 (max(-(conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_16 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_17 (max((conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_18 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_19 (max(-(conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_20 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_21 (max((conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_22 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_23 (max(-(conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_24 (max((conv2d_7_tf_tex(conv2d_7_tf_pos)), 0.0))
#define g_25 (max((conv2d_7_tf1_tex(conv2d_7_tf1_pos)), 0.0))
#define g_26 (max(-(conv2d_7_tf_tex(conv2d_7_tf_pos)), 0.0))
#define g_27 (max(-(conv2d_7_tf1_tex(conv2d_7_tf1_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(0.121882804, 0.055417646, 0.037575886, 0.0, 0.040015355, 0.10440659, 0.120197006, 0.0, 0.008896276, 0.07269119, 0.09253319, 0.0, 0.009000448, -0.033739295, -0.059260685, 0.0) * g_0;
result += mat4(-0.048027042, 0.09210703, 0.123745404, 0.0, -0.007914943, 0.05483587, 0.054822505, 0.0, -0.005998682, 0.005822986, 0.009868176, 0.0, -0.05866792, -0.04236153, -0.022935968, 0.0) * g_1;
result += mat4(-0.091270015, -0.033997003, -0.012321896, 0.0, -0.037983265, -0.078790314, -0.085029654, 0.0, 0.10656225, 0.0008334142, -0.0041227583, 0.0, 0.077364065, 0.033960085, 0.029391684, 0.0) * g_2;
result += mat4(0.15057671, -0.037442014, -0.037083894, 0.0, 0.015493511, -0.016119987, -0.027061606, 0.0, -0.012329675, 0.0060544596, -0.019787522, 0.0, 0.12182345, 0.11346318, 0.08640806, 0.0) * g_3;
result += mat4(0.19254518, 0.009179287, 0.023821035, 0.0, 0.020269603, 0.025629226, 0.040180814, 0.0, -0.025135614, -0.07785793, -0.099851295, 0.0, -0.122886, 0.03322616, 0.0509256, 0.0) * g_4;
result += mat4(0.060054794, 0.053996198, 0.047226787, 0.0, 0.038959846, -0.025839888, -0.030583512, 0.0, -0.034999896, 0.011966571, -0.011057454, 0.0, 0.05765179, -0.041760337, -0.0694113, 0.0) * g_5;
result += mat4(-0.20393562, -0.0055942894, -0.02089636, 0.0, 0.14781304, -0.01954523, -0.0746086, 0.0, 0.071556985, 0.07512172, 0.067927115, 0.0, 0.084076844, -0.0561336, -0.06856403, 0.0) * g_6;
result += mat4(-0.039552618, -0.04448951, -0.04170605, 0.0, -0.00886809, 0.06708884, 0.07120977, 0.0, 0.04834384, -0.10599933, -0.11024835, 0.0, -0.015948117, 0.084044695, 0.10778199, 0.0) * g_7;
result += mat4(0.050153337, 0.012563414, 0.014994658, 0.0, 0.10498867, 0.07151875, 0.06761489, 0.0, 0.061650798, -0.035183728, -0.050987806, 0.0, 0.0017240314, 0.041055307, 0.020366805, 0.0) * g_8;
result += mat4(0.110105395, -0.044468552, -0.072567016, 0.0, -0.049364448, -0.015713394, -0.021540897, 0.0, -0.01636263, -0.084110685, -0.08281401, 0.0, -0.08940374, 0.047863875, 0.051104594, 0.0) * g_9;
result += mat4(-0.081597924, 0.002422661, 0.01143175, 0.0, -0.07504751, -0.09938017, -0.1063178, 0.0, -0.10390281, 0.0262197, 0.060155805, 0.0, -0.24289346, -0.0054961476, 0.045964316, 0.0) * g_10;
result += mat4(-0.1829316, 0.047622137, 0.07963877, 0.0, 0.048703995, -0.0026299425, -0.003712008, 0.0, 0.029338706, 0.096882835, 0.102083966, 0.0, 0.078538164, -0.07247937, -0.06820231, 0.0) * g_11;
result += mat4(-0.02302231, -0.035528302, -0.030674051, 0.0, 0.029780716, 0.031591274, 0.045867007, 0.0, 0.01335752, 0.037001595, 0.04351411, 0.0, -0.11126892, 0.038589563, 0.06444906, 0.0) * g_12;
result += mat4(0.0047764573, -0.063372664, -0.065609895, 0.0, 0.0478139, 0.025694113, 0.025097322, 0.0, -0.1019169, 0.029989049, 0.050038517, 0.0, 0.07504127, -0.017047737, -0.026222635, 0.0) * g_13;
result += mat4(0.0024485083, 0.00640911, 0.008171829, 0.0, -0.014622121, -0.06078096, -0.0800138, 0.0, -0.0062360805, -0.014344496, -0.021332184, 0.0, 0.117842786, -0.103745885, -0.13756834, 0.0) * g_14;
result += mat4(-0.01942775, 0.08720701, 0.104858086, 0.0, -0.05545872, -0.041375194, -0.035368554, 0.0, 0.080331706, -0.021207837, -0.043905254, 0.0, -0.12515299, 3.445463e-05, 0.018742712, 0.0) * g_15;
result += mat4(0.013106969, 0.010379314, 0.012753471, 0.0, 0.07086715, -0.020893, -0.03968904, 0.0, -0.06114372, 0.029510446, 0.035070244, 0.0, 0.11180839, -0.087067656, -0.124039896, 0.0) * g_16;
result += mat4(-0.056521703, -0.001166792, -2.3704073e-05, 0.0, 0.011961608, 0.01848977, 0.019861937, 0.0, 0.012167056, 0.018613879, 0.020505793, 0.0, 0.009734187, -0.0308419, -0.035206888, 0.0) * g_17;
result += mat4(0.0048758825, 0.018046578, 0.014597015, 0.0, -0.061724614, 0.040989272, 0.05644141, 0.0, 0.070315465, 0.008318584, 0.0028647361, 0.0, -0.11316492, 0.043919202, 0.07653594, 0.0) * g_18;
result += mat4(0.031487904, -0.010548384, -0.009984509, 0.0, -0.0022647562, 0.0043304027, 0.0029451603, 0.0, -0.0063251094, -0.013420807, -0.011919729, 0.0, -0.022760967, 0.019141173, 0.01782793, 0.0) * g_19;
result += mat4(0.023055293, 0.028219413, 0.024810018, 0.0, 0.031653803, 0.050207954, 0.04504577, 0.0, 0.03877294, 0.0280465, 0.025589157, 0.0, 0.0019387804, 0.023891818, 0.016049948, 0.0) * g_20;
result += mat4(0.006562233, 0.03880659, 0.037682824, 0.0, -0.021441424, -0.011277022, -0.012471097, 0.0, -0.030526241, -0.013880651, -0.014213582, 0.0, 0.0075785257, -0.0017350517, -0.0024610942, 0.0) * g_21;
result += mat4(0.015097556, 0.020325955, 0.015611413, 0.0, -0.014755199, -0.034323387, -0.032325987, 0.0, -0.008603291, 0.010346807, 0.011044969, 0.0, -0.004739154, -0.026397636, -0.01995132, 0.0) * g_22;
result += mat4(0.0097906375, -0.015094543, -0.016887931, 0.0, -0.0007786067, -0.0069163437, -0.008449091, 0.0, 0.025534432, 0.018064791, 0.017047096, 0.0, 0.00055667467, 0.001493328, 0.003636564, 0.0) * g_23;
result += mat4(-0.042251963, -0.042396102, -0.040224236, 0.0, -0.004492444, -0.0069470624, -0.0065821502, 0.0, 0.062203273, 0.06213223, 0.053592753, 0.0, 0.06424337, 0.07964681, 0.07316769, 0.0) * g_24;
result += mat4(0.026366957, 0.02789826, 0.027239393, 0.0, -0.006712127, -0.0035723334, -0.0032348586, 0.0, -0.04960562, -0.062758155, -0.058574595, 0.0, -0.02896146, -0.020999067, -0.021301663, 0.0) * g_25;
result += mat4(-0.013106142, -0.017057793, -0.014653614, 0.0, -0.04254173, -0.043040022, -0.041918345, 0.0, -0.011146975, -0.0043820064, -0.003768677, 0.0, -0.0027743059, -0.0114479, -0.0082087545, 0.0) * g_26;
result += mat4(-0.10087762, -0.10447133, -0.1005168, 0.0, -0.04165659, -0.04558967, -0.040086865, 0.0, 0.0016493691, 0.0055392827, 0.0070476984, 0.0, -0.018665023, -0.035552308, -0.03375731, 0.0) * g_27;
result += vec4(0.018580848, -0.022256816, -0.0266178, 0.0);
return result + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Restore_CNN_UL.glsl
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shaders/Anime4K_Restore_CNN_VL.glsl
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@@ -0,0 +1,873 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.1690102, -0.2560719, 0.39658326, -0.3679659, -0.27616683, -0.35619372, -0.3748396, 0.08430813, -0.29574734, -0.31511316, -0.09773105, 0.13616018, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.1326393, -0.259433, 0.025070239, 0.58914864, -0.036478516, 0.30723435, 0.007458902, 0.012962684, 0.2493056, 0.13007334, -0.08448256, -0.38414413, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.11539356, 0.35253766, 0.26143202, 0.2760807, -0.09371543, -0.028165473, -0.028452158, -0.27050856, 0.06718067, -0.0056619495, -0.17654495, 0.17288211, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.16145481, -0.3204927, -0.54317135, 0.11830119, 0.49315026, 0.12008072, 0.50857407, -0.30382085, 0.25807253, 0.020755528, 0.29388228, 0.106109895, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.22728722, 0.50484747, -0.07904469, 0.33114597, 0.50306976, -0.22760947, 0.14773269, 0.17628263, 0.14788547, -0.08223464, -0.10880935, -0.3151985, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.3414351, 0.057279214, -0.14419858, 0.09761111, -0.11794496, 0.021717256, -0.22750235, 0.13986664, -0.38932344, 0.28996095, 0.3773904, 0.13175532, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.1376552, -0.19587159, -0.35147396, -0.097646296, 0.1686707, -0.14385861, 0.031198, 0.12383533, -0.23089902, 0.08707301, 0.3362293, -0.100579016, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.056774966, 0.047585852, -0.36395878, -0.20211312, 0.4077735, 0.12631284, 0.39813092, -0.033365678, 0.2307249, -0.09131807, 0.20823865, 0.31084216, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.12456089, 0.09755632, 0.31490886, -0.06579996, -0.13386595, 0.07564795, -0.26605195, -0.075180635, -0.11182657, 0.06757017, -0.14351276, -0.16828312, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.046043985, 0.055581126, -0.08791638, -0.13022089);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf1
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.15485518, -0.29363206, -0.22610365, -0.14291525, -0.45240572, -0.18319772, -0.12209436, 0.15031648, 0.09878383, 0.06711082, 0.25763842, -0.084633484, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.10204406, 0.16167697, 0.22371867, -0.37947702, -0.24476196, -0.038824454, 0.060157117, 0.15764871, -0.08072927, -0.2210841, -0.31835055, 0.009979876, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.20506924, 0.21132155, -0.0922578, -0.07430473, 0.14529926, 0.20549752, 0.0077948375, 0.13246094, -0.32353187, 0.21074104, 0.092629515, 0.17590871, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.04125819, -0.44050243, 0.23729716, 0.3218237, 0.12943116, -0.011674174, 0.10390632, 0.027775545, -0.20308031, -0.16904089, -0.2121676, -0.022515794, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(0.09664124, 0.20127031, 0.60345304, 0.16697013, 0.23093723, -0.38116834, 0.109695725, 0.0007595324, 0.4092646, 0.009624758, 0.11229678, 0.25326383, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.014879592, 0.19204311, 0.07102085, -0.7312604, 0.34860876, 0.3429918, -0.027331594, 0.27636307, 0.1342437, 0.107820466, -0.12645108, 0.21081445, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(-0.12687613, -0.09247973, -0.25973785, 0.4350873, -0.18987224, 0.028678741, -0.0903819, -0.63974863, 0.205591, 0.11308998, 0.18458389, -0.4149041, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.34691808, -0.025498383, 0.3428986, 0.21663484, 0.23404741, -0.1725327, -0.0036315925, -0.13299675, -0.1873967, 0.031331502, -0.08785591, -0.0013278709, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.35846514, 0.048703704, -0.104165934, 0.16529736, -0.15378916, 0.26030356, -0.07134151, 0.03692383, -0.15807101, -0.18885155, 0.044707954, -0.11444462, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.0022791293, -0.024132347, -0.57621074, 0.028573977);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.010346764, 0.07230188, -0.24734616, -0.09937907, 0.02228549, -0.19550583, -0.019540425, -0.1037373, 0.033996485, -0.075554, -0.20228972, 0.07090153, -0.09194035, -0.058972966, 0.1768268, 0.27517542) * go_0(-1.0, -1.0);
result += mat4(0.020078976, 0.12433655, -0.1620775, 0.036401592, 0.079748705, 0.11660013, 0.17917652, -0.017513236, -0.18936846, 0.24478136, -0.45726213, -0.045004416, -0.08295188, 0.067733586, -0.080548316, 0.2744211) * go_0(-1.0, 0.0);
result += mat4(0.024916803, 0.27562472, 0.043771956, -0.012240604, 0.0786355, 0.042651594, 0.16049327, -0.14577515, -0.032735053, 0.17658092, 0.16382934, -0.02337374, 0.11551492, 0.056343183, -0.17930213, 0.14259394) * go_0(-1.0, 1.0);
result += mat4(0.20010485, 0.06747722, -0.19026905, 0.11013709, 0.13062745, -0.044626113, -0.0062261797, 0.2189639, 0.1403497, -0.022713251, -0.19452858, -0.010305412, -0.06407589, 0.09836748, 0.025805516, 0.23430973) * go_0(0.0, -1.0);
result += mat4(-0.14664203, 0.034910418, 0.024714258, -0.066872925, -0.15717538, -0.14179383, -0.14091893, 0.05859166, 0.18919097, -0.18544437, -0.09068573, -0.08615929, -0.051434122, 0.2170678, 0.18409058, -0.17461225) * go_0(0.0, 0.0);
result += mat4(-0.11354446, 0.10745854, 0.2682663, 0.05949201, -0.10695986, 0.1407851, -0.03551388, 0.10691649, -0.17148238, -0.38287184, 0.2074456, 0.11828914, 0.048535194, 0.1464864, -0.18169662, -0.14074169) * go_0(0.0, 1.0);
result += mat4(0.22160622, -0.1513045, -0.053284165, 0.033202525, 0.15574448, -0.043640967, -0.0093824165, -0.0019965349, -0.097964935, -0.08289824, 0.08239996, 0.07868361, 0.05731752, -0.20441617, -0.013016076, -0.253108) * go_0(1.0, -1.0);
result += mat4(-0.031249097, -0.2272863, 0.23573665, 0.03357689, 0.011395065, -0.10885564, -0.06287508, -0.031719524, 0.10331069, 0.17560169, 0.18303394, 0.022961004, -0.17011635, -0.24371737, 0.10678694, -0.3222825) * go_0(1.0, 0.0);
result += mat4(-0.1275465, -0.08844758, 0.10994917, -0.00910273, 0.09393154, 0.03894992, 0.14367905, -0.11811715, -0.09077633, -0.015776094, 0.27427456, -0.13283503, 0.18724327, -0.08139094, 0.04933602, -0.051852766) * go_0(1.0, 1.0);
result += mat4(-0.06764611, -0.27426586, 0.12045272, 0.09410856, -0.14258035, 0.11802992, -0.09093882, 0.0022018093, 0.4590643, 0.046258576, -0.07827223, 0.448011, -0.103631735, -0.016930219, -0.15421398, 0.11045997) * go_1(-1.0, -1.0);
result += mat4(-0.17295076, 0.00151352, 0.14938255, 0.08336512, -0.07496541, -0.07561223, -0.0846474, 0.14979269, -0.09142163, 0.23925088, -0.015199518, -0.37749895, -0.20636298, -0.022585187, -0.20371509, 0.0745308) * go_1(-1.0, 0.0);
result += mat4(0.06458832, -0.009722021, -0.123604394, 0.06548835, -0.3039139, -0.022024399, 0.05297587, -0.0626883, 0.23556642, 0.1516464, -0.07004877, -0.1845364, -0.05918428, 0.19158973, -0.14983447, 0.030489758) * go_1(-1.0, 1.0);
result += mat4(0.36604697, 0.17516142, -0.10853731, -0.22694224, -0.107650936, 0.23013335, 0.094055794, -0.17047717, -0.3006048, -0.08621717, -0.18815655, -0.03570218, 0.09676118, -0.017718751, 0.059138596, 0.073388465) * go_1(0.0, -1.0);
result += mat4(-0.12791575, 0.101956226, 0.13091874, -0.046373338, 0.04955811, -0.04030444, 0.13869923, -0.046699073, -0.42611042, -0.7173929, 0.052184317, 0.6178025, -0.02929954, -0.07638965, -0.15000828, 0.030710017) * go_1(0.0, 0.0);
result += mat4(0.057806686, 0.20842272, -0.20148766, 0.006666912, 0.13356528, -0.45265228, -0.07354092, 0.21447696, 0.019552143, -0.13645506, 0.14643854, -0.0071413796, -0.15487236, -0.002250615, 0.30622452, 0.0033902125) * go_1(0.0, 1.0);
result += mat4(0.06896002, 0.24397352, -0.06479052, 0.20676947, -0.24259068, 0.055320013, -0.09032122, -0.11222854, -0.08982342, -0.114818625, -0.06399291, -0.3024516, -0.06302166, -0.1925528, 0.03458982, 0.028828239) * go_1(1.0, -1.0);
result += mat4(0.09764086, 0.09599894, -0.0073313303, 0.14418933, -0.045712367, 0.12657364, 0.04620374, -0.069778584, 0.30047333, -0.012418192, 0.15516461, -0.18087754, 0.08178273, 0.14262857, -0.01741533, -0.12509112) * go_1(1.0, 0.0);
result += mat4(0.04697884, -0.1506804, 0.031823065, 0.13397239, -0.18396698, 0.10681781, -0.29586303, -0.0039136545, 0.17560847, -0.12486726, -0.018646788, -0.20688744, -0.030614454, -0.0527634, 0.23593572, -0.10542146) * go_1(1.0, 1.0);
result += mat4(-0.19182229, -0.32615846, 0.26283535, -0.1371942, -0.071202695, 0.12056063, -0.11450658, -0.27711076, -0.42096004, 0.0014352369, 0.1559669, -0.14464542, -0.17973948, 0.079166576, -0.12501791, -0.20623216) * go_2(-1.0, -1.0);
result += mat4(0.12469872, 0.32190827, -0.059510354, 0.1393449, -0.12845798, -0.019571869, -0.22630808, -0.14031963, 0.36072046, 0.05858427, 0.19278921, 0.121090546, -0.067538865, -0.018770566, 0.14318037, -0.15561756) * go_2(-1.0, 0.0);
result += mat4(0.024663208, 0.21110268, -0.016415706, 0.060093414, -0.03739678, -0.107412934, -0.077527136, 0.30331334, 0.17196326, -0.15512557, -0.09499732, -0.15748607, -0.16680105, -0.015185634, 0.16114107, -0.21288376) * go_2(-1.0, 1.0);
result += mat4(-0.17739037, -0.1190967, 0.13191372, -0.2527187, -0.14992718, -0.30511454, 0.19145966, 0.002194003, -0.12888977, 0.19152176, 0.27528167, 0.099714965, 0.12865707, -0.12051514, -0.055013947, 0.26231763) * go_2(0.0, -1.0);
result += mat4(0.46433613, -0.11708138, -0.20157282, 0.32022122, 0.079468675, 0.029407484, 0.2559102, -0.15651533, 0.08644574, -0.09747344, -0.07528584, 0.17354868, 0.19167562, -0.17698488, -0.09896657, 0.17093097) * go_2(0.0, 0.0);
result += mat4(0.20283653, -0.33680332, 0.2282385, 0.18832158, 0.20866042, 0.00076752366, 0.16471444, -0.21548858, 0.16193539, 0.17141372, 0.03140222, 0.03913644, -0.030161971, 0.00014570929, 0.08993654, -0.064823024) * go_2(0.0, 1.0);
result += mat4(-0.3075755, 0.19942546, 0.015526995, -0.120868504, -0.254515, -0.07791228, 0.03271691, 0.11794217, 0.11258601, 0.045204375, -0.061196107, -0.115958795, 0.3861869, 0.048215542, 0.07016682, -0.009975758) * go_2(1.0, -1.0);
result += mat4(-0.07623697, 0.16094944, -0.02283455, 0.14112763, -0.051149167, 0.20429814, 0.011314802, 0.18914083, -0.24240434, -0.08784008, -0.16763984, -0.08492233, 0.31062725, -0.11925119, -0.33195966, 0.2060798) * go_2(1.0, 0.0);
result += mat4(-0.016709225, -0.14472668, -0.3677625, -0.09832719, 0.030297454, -0.05775362, -0.1401375, 0.08119674, -0.01795042, 0.05183797, -0.24320887, 0.066842034, -0.22245285, -0.02740993, 0.06316751, 0.053399116) * go_2(1.0, 1.0);
result += mat4(-0.039214406, -0.08876633, 0.045552462, 0.19226661, 0.1355001, -0.13942362, 0.17398876, 0.2914014, -0.191809, 0.037143208, 0.013333581, -0.16632195, 0.113767646, -0.106692605, 0.1589787, 0.030107044) * go_3(-1.0, -1.0);
result += mat4(0.21997562, 0.13855208, -0.05783191, -0.033682413, -0.010961168, 0.10524961, 0.02177416, 0.18289444, 0.043692037, 0.07853899, -0.039936125, -0.1004449, 0.04494073, -0.020680292, 0.17578089, -0.106598996) * go_3(-1.0, 0.0);
result += mat4(0.026852835, -0.16037546, 0.11278316, 0.12656097, -0.006857894, -0.03400118, -0.051564034, 0.00085412664, -0.37556714, -0.05279987, 0.029383834, -0.14246808, -0.056380164, -0.002399925, 0.16025752, 0.036324855) * go_3(-1.0, 1.0);
result += mat4(0.022709966, 0.046350412, 0.03390721, 0.02810572, -0.14394265, 0.04215361, -0.3206118, 0.15034916, -0.0028448137, 0.1682989, -0.042686664, 0.020543462, -0.2786501, -0.007482015, -0.040313292, -0.20745736) * go_3(0.0, -1.0);
result += mat4(0.05417556, 0.18728684, -0.046121832, -0.27939513, 0.05907976, -0.09191223, -0.16625418, -0.26038164, 0.39956605, -0.052594025, -0.0596556, 0.29517552, -0.015181923, -0.0763375, 0.25131205, 0.13038464) * go_3(0.0, 0.0);
result += mat4(-0.036903054, -0.0066989153, -0.062650286, 0.05614359, -0.0064960583, 0.028512698, -0.10906273, -0.010047654, 0.23030473, 0.049983572, 0.10439064, 0.26643834, 0.05041243, 0.09185424, -0.32352915, 0.11295159) * go_3(0.0, 1.0);
result += mat4(0.09724027, -0.34962535, 0.06586686, 0.016635379, 0.13831381, 0.01707076, -0.04690347, 0.022350075, 0.018352794, 0.022000022, 0.070613205, 0.117735535, -0.025971051, 0.18832101, -0.09643588, -0.08512127) * go_3(1.0, -1.0);
result += mat4(-0.17324433, 0.06810613, -0.057295907, -0.05115964, -0.101570815, 0.12491774, 0.08762367, -0.005862404, -0.05342927, -0.031942457, -0.039624047, -0.04298937, -0.1303138, -0.11869282, -0.024832053, 0.070463404) * go_3(1.0, 0.0);
result += mat4(-0.010514842, 0.1376259, -0.11750346, -0.03786737, 0.03459249, 0.015408171, -0.031430878, -0.060825355, -0.072958425, -0.0037895301, 0.041686177, -0.12352204, -0.06261361, 0.054514423, -0.34072715, 0.13860728) * go_3(1.0, 1.0);
result += vec4(0.018166734, -0.11002478, -0.05554318, -0.0988193);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.040142782, 0.0288423, 0.07569487, -0.01490842, 0.14402796, -0.13682005, 0.027765118, 0.03907358, 0.07117706, 0.058157545, -0.23862502, -0.057674367, -0.19220531, 0.0147159435, -0.18028538, 0.0963821) * go_0(-1.0, -1.0);
result += mat4(-0.1676744, -0.11937339, 0.12137117, 0.07119485, 0.14148116, -0.043578617, -0.029261118, -0.0016938087, -0.057269357, -0.080076694, 0.12193026, 0.07326153, -0.056278303, -0.01630716, -0.03792076, 0.1483611) * go_0(-1.0, 0.0);
result += mat4(-0.3021578, 0.011601693, 0.11266048, 0.19086999, -0.0122412145, 0.08431291, 0.11615175, -0.008039614, -0.39987534, 0.07820729, 0.03509667, 0.1963505, -0.08839513, -0.21571854, 0.059425723, -0.06830175) * go_0(-1.0, 1.0);
result += mat4(0.23135209, -0.12452708, 0.0943565, 0.0028859286, -0.09836373, 0.10681712, -0.3535964, 0.08457615, 0.045332734, 0.16579892, -0.03809797, -0.021596594, 0.2937497, -0.028294371, 0.046484597, -0.037604347) * go_0(0.0, -1.0);
result += mat4(0.072675414, -0.16431206, 0.28952035, 0.0076831076, -0.020242939, 0.029483542, -0.092415355, 0.08673106, 0.12109694, 0.14307201, 0.23134442, 0.11731775, 0.09981601, -0.16968462, 0.037470713, 0.14948717) * go_0(0.0, 0.0);
result += mat4(0.0029752052, 0.06526503, 0.1866458, 0.07451277, -0.31836876, 0.17115082, -0.13969697, 0.23844297, -0.03244903, -0.08832665, 0.023691226, -0.18230624, -0.074933805, -0.00044301842, 0.050572682, 0.081511915) * go_0(0.0, 1.0);
result += mat4(0.039502528, 0.051221415, -0.13968123, -0.091212444, -0.016925618, 0.15409444, -0.017455677, -0.11653652, 0.03539446, -0.00087720866, -0.12839639, 0.037198763, 0.03674469, -0.26444665, 0.019721227, -0.13013805) * go_0(1.0, -1.0);
result += mat4(0.039229527, 0.25667152, 0.0032586441, -0.00718359, 0.1617932, 0.10409968, 0.07182867, -0.09810605, 0.07789241, -0.02014911, 0.025767172, -0.14604759, 0.07175764, 0.32513744, -0.20473222, -0.16266066) * go_0(1.0, 0.0);
result += mat4(0.13418433, 0.061813723, -0.13927278, -0.2498272, 0.03468218, 0.29483125, 0.063289374, -0.04726235, 0.1898295, -0.33132064, 0.032045014, 0.02159535, -0.1148363, 0.31306976, 0.06456038, 0.048988886) * go_0(1.0, 1.0);
result += mat4(0.07151646, 0.2799246, -0.107190795, -0.16431166, -0.28007045, 0.07206954, 0.06775463, 0.009758042, 0.07032184, -0.20843789, 0.087045245, 0.1360676, -0.25718534, 0.028249472, -0.12614648, 0.009949602) * go_1(-1.0, -1.0);
result += mat4(0.020241471, -0.23390484, -0.0083223935, 0.08344701, 0.08222297, 0.12026539, -0.08652223, -0.08228822, -0.039576706, -0.24677879, -0.1157289, 0.2590508, -0.23809408, 0.19911982, -0.116798095, -0.035870325) * go_1(-1.0, 0.0);
result += mat4(0.024991842, 0.050509237, -0.024134455, -0.12659028, 0.24089767, 0.122712664, -0.10482493, -0.19403952, -0.19177693, -0.06538376, -0.041478425, 0.32176673, -0.1534002, -0.18680622, 0.06763643, 0.020806564) * go_1(-1.0, 1.0);
result += mat4(0.03437814, -0.28067374, 0.2830681, 0.038812317, -0.021698112, -0.120865285, 0.22695538, -0.045419116, -0.030475847, -0.01977341, -0.1265364, -0.3109814, 0.012255813, 0.053917278, -0.018620957, -0.14599285) * go_1(0.0, -1.0);
result += mat4(-0.016204128, -0.04093018, 0.054571863, 0.02679643, 0.01756274, -0.057685968, 0.16148666, 0.17370272, -0.11065411, 0.06378157, -0.09331551, 0.22985275, 0.057905316, 0.12323568, 0.07748665, 0.09878629) * go_1(0.0, 0.0);
result += mat4(-0.018112244, 0.063234635, -0.013184602, 0.16241394, 0.08877139, 0.02145378, -0.02490027, -0.038920373, 0.13127136, 0.14391647, 0.020553736, 0.14401346, 0.06685973, -0.25398204, 0.10369067, -0.055949755) * go_1(0.0, 1.0);
result += mat4(0.07710333, 0.047412727, 0.13813803, 0.18624061, 0.16907091, -0.039532468, 0.06234584, 0.06408178, -0.054543987, -0.045220226, -0.11093376, -0.37399602, 0.20372874, 0.004580967, -0.07742308, 0.017989937) * go_1(1.0, -1.0);
result += mat4(0.003485311, -0.08897399, -0.013108594, -0.19473282, -0.27081844, -0.16812073, 0.0052992934, -0.055331517, 0.09446357, 0.019280333, 0.16560757, -0.3230032, 0.043096773, 0.059222896, -0.064184934, -0.059852477) * go_1(1.0, 0.0);
result += mat4(0.06794279, -0.034135245, 0.083064295, 0.13506731, 0.13064219, -0.44978833, -0.03513717, 0.08999715, 0.1124541, 0.42208397, -0.0038724816, -0.014332087, -0.13751853, -0.04929869, 0.09134992, -0.17687531) * go_1(1.0, 1.0);
result += mat4(0.100909084, -0.0131197255, 0.082274795, -0.2138443, -0.08515947, -0.021058358, 0.10951775, -0.06349191, -0.29129833, -0.029262653, 0.25235432, -0.11748315, 0.121980384, 0.062347785, 0.10916932, -0.15993518) * go_2(-1.0, -1.0);
result += mat4(0.28893283, -0.05677308, -0.2641288, -0.058937225, -0.16187571, 0.006647366, -0.063294955, 0.04766719, 0.60601914, -0.07831864, -0.15710756, -0.011491797, 0.15587467, -0.08105375, 0.07847514, -0.2803333) * go_2(-1.0, 0.0);
result += mat4(-0.077989794, -0.09871811, -0.3516344, 0.15292728, 0.010889273, 0.0011189661, -0.16118282, -0.018821161, -0.039708678, -0.00060983415, -0.06367813, 0.009148068, 0.03919827, 0.18782744, 0.028040757, -0.10230145) * go_2(-1.0, 1.0);
result += mat4(-0.4079609, 0.18640275, -0.12475227, 0.13891742, 0.25121725, 0.16942379, 0.14409852, 0.087600805, 0.045335658, -0.12683709, -0.0077387216, 0.06563413, -0.19857128, 0.106910795, -0.048285246, 0.10768945) * go_2(0.0, -1.0);
result += mat4(0.5989075, 0.20941062, -0.20086494, 0.13344856, 0.073034994, 0.22358665, 0.101664364, -0.13463663, 0.18816395, -0.061176624, -0.14712185, 0.027320342, -0.09529667, 0.031148786, -0.28744993, 0.18698911) * go_2(0.0, 0.0);
result += mat4(0.14799193, 0.39471942, -0.23340325, -0.4031061, 0.18926248, -0.11091216, 0.118981816, -0.09155061, 0.17049436, 0.19803695, -0.1513267, 0.023817873, 0.0090933135, -0.04134864, 0.060486555, 0.03536634) * go_2(0.0, 1.0);
result += mat4(-0.39094314, 0.01779997, 0.12710269, 0.0067333193, -0.31255835, -0.08206612, -0.048528638, 0.369439, -0.19351655, -0.03420455, 0.15831526, -0.052294146, -0.08481741, 0.0787108, 0.1312136, -0.108919285) * go_2(1.0, -1.0);
result += mat4(-0.16068119, -0.42190582, 0.19383872, -0.018445708, 0.09803051, -0.020769652, -0.022599563, -0.052448895, -0.20645833, -0.031432863, 0.0025441595, 0.03410379, -0.20268854, 0.04481527, 0.05191063, 0.42317194) * go_2(1.0, 0.0);
result += mat4(-0.12786235, -0.23936178, 0.116561726, 0.30756372, -0.09420156, -0.044529166, -0.03585749, 0.1829332, -0.23939075, 0.24030831, 0.019878127, -0.015069802, 0.24300557, -0.22558568, -0.104956664, -0.09393648) * go_2(1.0, 1.0);
result += mat4(-0.04607054, 0.012677649, -0.027597688, 0.1618836, 0.29210827, 0.014221155, -0.13591036, -0.06895336, -0.09559534, 0.07956421, -0.11112994, -0.13325493, 0.24562472, 0.11046177, 0.057847694, 0.0016315983) * go_3(-1.0, -1.0);
result += mat4(-0.03365951, 0.027391057, 0.09653403, -0.14718771, -0.049631152, -0.06467214, -0.058545876, 0.1424002, -0.06320376, 0.181183, 0.10249362, -0.16052136, 0.3013475, -0.04156266, 0.08862033, 0.06888033) * go_3(-1.0, 0.0);
result += mat4(0.10045977, -0.004198456, -0.025856055, 0.05739418, -0.1328637, -0.025975171, 0.06553717, 0.11301186, 0.0704087, -0.083569765, 0.16066101, -0.24453588, 0.25370175, 0.037184533, 0.062386766, -0.20025635) * go_3(-1.0, 1.0);
result += mat4(-0.017958941, 0.06417776, -0.1525265, 0.12451173, 0.14567685, -0.0049682115, -0.23973411, -0.0783304, -0.010629432, 0.08055161, 0.2028341, 0.17640644, -0.20445108, -0.055524793, -0.019326134, 0.081288636) * go_3(0.0, -1.0);
result += mat4(0.007882519, -0.03722546, 0.053249408, 0.00071846246, -0.07053029, -0.21583866, 0.1415364, -0.19486657, 0.20685542, 0.17660026, -0.32156837, 0.1746825, -0.14957622, -0.09224378, -0.098153435, -0.13054638) * go_3(0.0, 0.0);
result += mat4(0.10051427, -0.17398237, 0.09842799, -0.14187703, 0.116901085, -0.1229543, -0.0007776771, -0.20410055, -0.11373484, -0.111150615, -0.1974002, -0.11641459, 0.024105398, 0.24985977, 0.015871854, -0.10724633) * go_3(0.0, 1.0);
result += mat4(-0.18081793, 0.1209351, -0.12867971, -0.019415248, 0.062617876, -0.037130393, -0.07803658, -0.22862352, 0.2586428, -0.030090366, -0.11894069, 0.18087515, -0.40921417, 0.070013195, 0.030540073, 0.035120826) * go_3(1.0, -1.0);
result += mat4(-0.13185939, 0.12992652, 0.08125049, 0.075331174, 0.064219765, 0.056629725, -0.020012032, -0.0855444, -0.044063166, -0.05396545, -0.028002812, 0.21837157, -0.15206428, -0.12681007, 0.14895032, 0.12339962) * go_3(1.0, 0.0);
result += mat4(0.08066341, -0.14773634, -0.0212227, -0.014011867, -0.048505764, 0.075407125, -0.020620076, 0.0003291325, -0.21815202, -0.23136546, 0.10853532, -0.036058456, 0.10952532, -0.052677035, -0.13005799, 0.18398996) * go_3(1.0, 1.0);
result += vec4(0.022609137, -0.028548084, 0.024431901, 0.010504478);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.069641694, 0.104958326, 0.14786446, 0.027633663, -0.004279524, -0.020451711, 0.0883571, -0.016224537, 0.13585235, 0.11078269, 0.20198658, -0.042161036, 0.020466218, 0.20994963, 0.20072585, -0.028024657) * go_0(-1.0, -1.0);
result += mat4(0.050872434, 0.12874635, 0.1298729, 0.115810685, 0.07087254, 0.09885682, 0.23018982, 0.19187538, 0.10953604, 0.0033836907, -0.13325337, 0.09830315, -0.06528767, 0.05096927, -0.016355392, -0.039334368) * go_0(-1.0, 0.0);
result += mat4(0.027010268, 0.018263958, 0.0360758, 0.016791478, 0.2815702, 0.15517488, 0.43415815, 0.044976447, -0.0070842914, -0.12546758, 0.16874593, 0.077622116, 0.02252915, 0.1769774, 0.07181055, -0.15128697) * go_0(-1.0, 1.0);
result += mat4(0.057129618, 0.118046716, 0.07237424, -0.07842637, -0.044214778, -0.12886304, 0.08603301, -0.10416606, -0.15852053, 0.3788151, 0.26181692, -0.09092249, 0.31635332, 0.064212754, 0.21923725, 0.07500004) * go_0(0.0, -1.0);
result += mat4(-0.16981383, 0.044409662, -0.3717617, -0.031610407, 0.03658662, -0.09459229, -0.09449437, -0.014000666, -0.19656453, 0.03934163, -0.16304104, -0.12761801, -0.06235523, 0.16438273, -0.036933117, -0.095564745) * go_0(0.0, 0.0);
result += mat4(0.09725091, 0.034022827, 0.17699842, 0.1079676, -0.13236652, 0.03718181, -0.06968635, -0.23288171, 0.10275666, 0.08464966, -0.37162134, -0.35782215, -0.11023659, 0.2519236, -0.035197742, -0.019324787) * go_0(0.0, 1.0);
result += mat4(-0.09968464, 0.01102193, 0.0073735216, 0.011999313, -0.004998707, 0.09518938, 0.045727003, -0.21544908, 0.006879454, -0.06398254, -0.12584935, -0.06759933, -0.0820037, -0.07775104, 0.021957919, -0.122708224) * go_0(1.0, -1.0);
result += mat4(-0.08869767, 0.031296413, -0.0034280645, 0.13778855, 0.10073061, -0.08393937, -0.032959275, -0.0500518, 0.010908757, -0.09189417, -0.057760105, 0.17652664, -0.08729078, -0.09639096, -0.25654703, 0.055152636) * go_0(1.0, 0.0);
result += mat4(0.0027847723, -0.12885433, 0.038065907, 0.17450769, 0.0864409, 0.04592345, -0.015443841, 0.077010944, 0.08967368, 0.06800111, -0.23636387, 0.35023567, 0.03165923, 0.03132063, 0.17964344, 0.035610788) * go_0(1.0, 1.0);
result += mat4(-0.032017227, -0.0022808525, -0.08470573, 0.05332408, -0.14674746, 0.025374275, -0.018281924, 0.041163016, 0.00096549373, 0.014724006, 0.004913065, 0.18494442, 0.034953076, -0.15731992, -0.13792977, 0.08041999) * go_1(-1.0, -1.0);
result += mat4(0.08305006, 8.6318905e-05, -0.007895379, 0.02731387, -0.061324496, 0.050034665, 0.22662131, -0.013876427, -0.074468784, -0.008136604, -0.23337875, -0.1742574, 0.011753501, -0.11666686, -0.22541048, -0.14549944) * go_1(-1.0, 0.0);
result += mat4(-0.028333234, 0.121047184, 0.06720256, -0.058930036, 0.030258363, 0.07292774, 0.06455556, 0.0019076486, 0.0073987027, 0.17144889, 0.06084024, -0.08762086, -0.114422195, -0.16595861, -0.08706028, -0.10736261) * go_1(-1.0, 1.0);
result += mat4(-0.02519315, -0.14611271, 0.0388848, 0.19481422, -0.05970354, -0.08391417, 0.18982239, -0.10447052, 0.15587378, -0.023997072, 0.0781739, 0.2182389, -0.023886079, -0.1422596, -0.13352804, 0.005008043) * go_1(0.0, -1.0);
result += mat4(0.08842712, -0.100292705, 0.18925671, 0.12198875, 0.061771665, -0.04473232, 0.025053164, 0.039047796, -0.1672479, -0.08934517, 0.33099812, -0.20269585, -0.21640155, -0.22029749, 0.16539703, -0.2442679) * go_1(0.0, 0.0);
result += mat4(-0.16332205, -0.101898365, 0.02919932, -0.11900455, 0.14442924, 0.0916815, 0.037550304, 0.024123482, 0.02042624, 0.033472955, -0.059437107, -0.18735693, -0.013749093, -0.06199881, -0.08685079, 0.04252364) * go_1(0.0, 1.0);
result += mat4(-0.09047013, -0.055188328, -0.09106191, -0.048969727, 0.05114009, -0.12753403, 0.07116141, 0.060749624, -0.074034564, -0.21952136, -0.09479503, 0.2753584, -0.014141759, -0.14883812, -0.0673838, -0.012279045) * go_1(1.0, -1.0);
result += mat4(0.013816464, -0.0747162, -0.19202435, -0.064403646, 0.34980014, 0.04375546, 0.20264609, 0.006684355, 0.11523799, 0.024674915, -0.08697566, -0.04662527, -0.12743855, -0.39463726, 0.0057380227, 0.01286557) * go_1(1.0, 0.0);
result += mat4(-0.08146522, 0.074080914, -0.16856177, -0.183158, 0.19228102, 0.12373886, 0.017574452, -0.01753772, 0.045071773, 0.07725093, 0.023422163, -0.011545186, 0.20751388, -0.10795588, 0.07606346, 0.10282933) * go_1(1.0, 1.0);
result += mat4(0.12512013, -0.102208994, -0.09125398, 0.12043188, -0.066011876, 0.08831903, -0.017038671, -0.005541508, -0.049607087, 0.08654939, -0.02037085, 0.26887566, 0.005012545, 0.01869507, -0.013064982, -0.010649147) * go_2(-1.0, -1.0);
result += mat4(0.006824864, -0.05071593, -0.20786697, -0.07327317, 0.011382597, 0.030494886, -0.04754353, -0.018284699, 0.01305972, -0.036589053, 0.26637617, 0.021887446, -0.026669119, -0.037982125, -0.063445956, -0.009104248) * go_2(-1.0, 0.0);
result += mat4(0.032602567, 0.07094331, 0.052653246, 0.08342047, -0.085082285, -0.14674088, -0.23073354, -0.07915851, 0.0017120204, 0.032407638, -0.039819505, 0.16942178, 0.023192152, -0.0353237, 0.10930186, 0.22939779) * go_2(-1.0, 1.0);
result += mat4(0.0010455973, -0.11821993, -0.12639599, 0.12250084, -0.12756817, 0.11478416, -0.1862587, 0.016819192, 0.02110181, -0.25492984, -0.1766048, 0.22188173, -0.21305011, 0.113442205, 0.04599144, -0.15840286) * go_2(0.0, -1.0);
result += mat4(-0.15086032, -0.17428935, 0.39080557, 0.07576757, 0.121703945, 0.17944208, -0.003140103, -0.11231332, 0.12102969, 0.15310267, 0.17578171, 0.40631834, -0.21299168, 0.024928993, 0.030104794, 0.020753227) * go_2(0.0, 0.0);
result += mat4(-0.098734386, -0.020072265, -0.14308836, -0.08490801, 0.017175158, 0.02250534, 0.04060829, 0.033022214, 0.0046218676, 0.17923212, 0.0112105915, 0.09574084, 0.14819936, -0.14692923, 0.12634254, 0.060762513) * go_2(0.0, 1.0);
result += mat4(0.030521613, -0.097913325, -0.016720278, 0.11273997, 0.013019863, -0.06557118, 0.0405774, 0.0915019, 0.022414956, -0.053254984, 0.18639986, 0.07820968, 0.06498986, 0.058922634, -0.02240318, -0.086019725) * go_2(1.0, -1.0);
result += mat4(0.2058775, 0.01502064, 0.05847032, 0.007249146, 0.086483665, 0.19420148, 0.03892261, -0.013546935, -0.07980237, 0.04347281, -0.10376214, -0.1366535, 0.05285337, 0.07213318, 0.3642818, -0.11331124) * go_2(1.0, 0.0);
result += mat4(-0.025740806, 0.14551482, -0.037410017, -0.17477523, -0.11853099, -0.060820814, -0.102599286, -0.13267937, -0.103053465, -0.014044828, -0.01888072, -0.06499249, 0.22311528, -0.051850274, -0.034120858, 0.044562567) * go_2(1.0, 1.0);
result += mat4(-0.21360217, 0.10093803, -0.0016407765, -0.1473997, 0.26524043, 0.02112132, 0.23173104, -0.013157391, 0.05945182, 0.044635538, 0.06031638, -0.21435826, -0.10147484, 0.069090195, 0.09641844, -0.09581093) * go_3(-1.0, -1.0);
result += mat4(-0.08576515, -0.122861005, 0.049567085, -0.085854456, 0.23809357, -0.024966082, -0.10294079, 0.046241313, 0.008621132, -0.08323767, 0.20277941, 0.163423, -0.07386535, -0.088738985, 0.05274358, -0.025479877) * go_3(-1.0, 0.0);
result += mat4(-0.041135542, -0.008365642, 0.17088248, 0.04025207, 0.13809255, -0.056895368, -0.01582834, 0.07361908, -0.00068995473, -0.09300962, 0.19117641, 0.24832036, -0.06572358, -0.026025, -0.019093119, -0.049720034) * go_3(-1.0, 1.0);
result += mat4(0.024900286, 0.11525501, 0.025882801, 0.037742402, 0.36976853, 0.052211333, -0.15143296, 0.1802276, -0.059080046, 0.017990451, 0.026395092, -0.12689115, -0.07705386, 0.1232379, 0.13273561, -0.12521964) * go_3(0.0, -1.0);
result += mat4(-0.19788785, 0.044887315, 0.07663442, 0.16688696, -0.2842248, -0.15684547, 0.028387763, 0.0063470444, -0.012245601, -0.038382255, -0.8187406, -0.25245667, 0.23014604, 0.22746666, 0.1594356, 0.16469443) * go_3(0.0, 0.0);
result += mat4(-0.12663333, 0.014730006, 0.03765697, 0.15704912, -0.106595434, -0.05317512, -0.081759915, -0.08797109, 0.064620756, -0.06341419, 0.16493447, 0.23102313, 0.068325415, -0.088058695, 0.16885915, 0.036382258) * go_3(0.0, 1.0);
result += mat4(0.035389822, -0.11811836, -0.035656307, -0.0680554, 0.1338908, 0.065852076, 0.023307983, 0.0675308, 0.09690683, 0.18170924, 0.09862692, -0.20964378, -0.08601271, -0.20016764, -0.01879598, -0.14629345) * go_3(1.0, -1.0);
result += mat4(-0.27183273, 0.013525998, -0.14995874, -0.23938845, -0.26218823, -0.0009874097, -0.13385512, -0.10664239, -0.048931994, 0.039898522, 0.047444753, 0.10934722, 0.10969629, 0.123539805, 0.11692802, 0.14172275) * go_3(1.0, 0.0);
result += mat4(-0.1656506, 0.019683002, 0.0221048, 0.12596753, 0.20420644, -0.07930122, 0.04653823, 0.11492255, -0.0050175437, -0.03271697, 0.013389486, 0.034583613, -0.2196601, -0.1615663, -0.013763388, -0.056037936) * go_3(1.0, 1.0);
result += vec4(-0.022956269, 0.029688787, -0.070148066, -0.07163476);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf1
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.15104648, 0.05522861, -0.0654341, -0.053517453, -0.08264124, -0.0062249107, -0.20364265, -0.05015117, -0.18837251, 0.030655831, 0.046844713, -0.20673253, -0.14042036, -0.05655449, 0.13994302, 0.011745607) * go_0(-1.0, -1.0);
result += mat4(-0.16517559, 0.1489214, -0.09149559, 0.025003506, -0.124926426, 0.16974348, -0.020857265, 0.08017403, 0.21836148, 0.0025619378, 0.2331612, 0.085599184, -0.030934382, -0.055194855, 0.09527726, -0.10081552) * go_0(-1.0, 0.0);
result += mat4(0.041800212, 0.028859638, 0.09395546, 0.05211183, -0.038541477, 0.021495212, 0.04862346, -0.007864793, 0.038407274, -0.13841268, -0.14963801, 0.26470762, 0.16691841, -0.07262008, 0.034374326, -0.14709206) * go_0(-1.0, 1.0);
result += mat4(0.00094978884, -0.028974704, -0.0900548, -0.08401967, -0.08935931, -0.043606587, -0.14497143, -0.05226239, -0.21516493, 0.19410603, -0.089924194, -0.04335071, -0.012618276, -0.2671613, 0.020422975, -0.037739716) * go_0(0.0, -1.0);
result += mat4(-0.13403237, -0.02524383, -0.03474901, 0.054432765, 0.11946775, 0.107336655, -0.1431715, -0.13370377, 0.015087512, -0.1917613, 0.073493585, 0.2788855, -0.010510839, 0.06891479, -0.06741307, -0.05271205) * go_0(0.0, 0.0);
result += mat4(-0.15432046, 0.04021662, -0.16979513, 0.13660534, -0.10518303, -0.10095502, -0.13092068, 0.022805348, -0.16676381, -0.4273298, 0.020867536, 0.3506733, -0.29459694, -0.055828743, -0.069241956, 0.04106382) * go_0(0.0, 1.0);
result += mat4(-0.08890133, 0.07549666, -0.040735144, -0.1506932, -0.22227979, -0.0762723, -0.17766447, -0.05741318, -0.21885683, 0.2379157, -0.15525854, -0.07306285, 0.15580738, -0.04394069, -0.19175608, 0.018283797) * go_0(1.0, -1.0);
result += mat4(-0.08503275, -0.105500385, -0.114987396, -0.07166016, -0.2147138, 0.09378708, 0.24550334, -0.0834075, -0.033147786, -0.022304727, -0.31062204, 0.027651973, 0.109098755, 0.18889032, 0.1163026, 0.13863255) * go_0(1.0, 0.0);
result += mat4(0.15266588, -0.14901319, 0.033916786, 0.09381096, -0.08196443, -0.16194504, 0.035789456, 0.21234898, -0.48724765, 0.2619442, -0.11215393, 0.25061038, 0.022344576, 0.0116525125, 0.111661114, -0.15242295) * go_0(1.0, 1.0);
result += mat4(0.020475458, 0.0797404, -0.13576819, 0.009681671, 0.030504882, 0.049232908, 0.022025917, 0.16912088, -0.23914136, -0.084663324, 0.020925451, -0.1023938, 0.035916872, -0.07538111, -0.11470242, 0.15238516) * go_1(-1.0, -1.0);
result += mat4(-0.12941381, 0.08509899, -0.029489802, -0.09148447, -0.089406274, -0.116145454, -0.08979843, 0.11908148, 0.15473351, -0.21687616, 0.12607013, -0.08244334, -0.079580925, -0.16613089, -0.09287793, -0.03412643) * go_1(-1.0, 0.0);
result += mat4(-0.023578499, 0.07394217, -0.13069086, -0.1060499, -0.07559958, -0.21839201, 0.1090753, 0.0787872, 0.07677037, -0.25998843, 0.20039314, 0.046882212, 0.31871012, -0.3048051, 0.15118991, -0.00518087) * go_1(-1.0, 1.0);
result += mat4(-0.15338503, -0.11057532, 0.075839415, -0.18592294, -0.0155324, 0.038140323, -0.10498194, 0.09070477, 0.05108992, -0.047939524, -0.091004305, 0.09649005, -0.10967152, -0.051909525, -0.05314551, 0.09661584) * go_1(0.0, -1.0);
result += mat4(-0.14458802, -0.053263694, -0.0010885567, 0.23342133, 0.01918937, 0.12026143, -0.15691495, 0.30480555, -0.08725869, 0.19082253, 0.3594973, 0.016653897, 0.045152336, -0.088590585, 0.0069655925, 0.1392425) * go_1(0.0, 0.0);
result += mat4(0.17944881, -0.17950764, 0.13282645, 0.030974053, 0.32233685, 0.18067117, -0.11472813, 0.097301506, -0.047649745, -0.1053861, -0.081039384, 0.035132434, 0.10204545, 0.085582554, -0.13153993, -0.021741152) * go_1(0.0, 1.0);
result += mat4(-0.15573682, 0.16409989, -0.22574787, -0.03877603, -0.18285516, 0.11638645, 0.18321282, -0.017770218, 0.18230622, 0.16433364, -0.12795393, -0.03805153, 0.14386104, -0.0891527, -0.056928284, -0.10961495) * go_1(1.0, -1.0);
result += mat4(0.257622, 0.052519716, -0.25421762, -0.1887382, -0.083568096, -0.0064690276, -0.029110614, 0.103327505, -0.17006217, 0.2254096, -0.29366904, 0.04302887, -0.10198446, -0.24423616, 0.16781262, -0.005019004) * go_1(1.0, 0.0);
result += mat4(0.103393994, -0.059044626, -0.18192382, 0.0990813, -0.26143607, 0.11036474, 0.04788275, -0.096738026, 0.12825653, 0.13631694, -0.077904984, -0.020790676, -0.25118098, 0.122588515, -0.049440473, -0.10758222) * go_1(1.0, 1.0);
result += mat4(0.06693113, -0.13647175, 0.131139, 0.13143918, 0.081720434, 0.117537096, 0.15387627, -0.008771362, 0.08513583, 0.023794742, -0.0661625, 0.115793936, 0.0023350024, 0.02215075, -0.0494433, -0.013404977) * go_2(-1.0, -1.0);
result += mat4(0.041419264, -0.17622781, 0.028418267, 0.12114493, -0.23587078, 0.08457395, 0.014364018, -0.103271864, -0.051572207, -0.026424447, 0.16755055, -0.10763651, -0.033440586, 0.068594255, -0.050668504, 0.1941505) * go_2(-1.0, 0.0);
result += mat4(-0.2780181, 0.037816502, -0.11516711, -0.09822884, 0.13762361, -0.14317706, 0.14350282, 0.000623895, -0.08601606, 0.08118504, 0.15497385, -0.04721711, -0.008936935, -0.014223618, -0.09641698, -0.013884213) * go_2(-1.0, 1.0);
result += mat4(0.14349665, -0.03144472, -0.057813704, 0.0667044, 0.09026094, 0.051366236, 0.11139983, -0.015782114, -0.18314016, -0.18774192, 0.0014838242, 0.15759028, 0.062388215, 0.13626057, 0.02576217, -0.06317815) * go_2(0.0, -1.0);
result += mat4(0.07151769, 0.14508991, 0.1736844, -0.11487795, -0.07999805, -0.07797908, 0.037923355, -0.059138823, -0.23531209, -0.040207293, -0.068355694, -0.024296658, -0.114820175, 0.19726487, 0.21772414, 0.03659222) * go_2(0.0, 0.0);
result += mat4(0.16858695, -0.12135113, 0.009391182, -0.081519485, 0.13340487, 0.07007004, 0.094124354, 0.035519842, -0.3320139, -0.06624027, -0.14716229, -0.09205287, 0.12664132, -0.05655441, 0.0123263765, 0.04641279) * go_2(0.0, 1.0);
result += mat4(0.19018422, -0.15428329, -0.009354114, 0.04165953, 0.11024837, -0.107493006, -0.05807292, -0.048029456, 0.24319384, -0.10542357, -0.013699952, 0.06228662, -0.06808749, -0.023227982, 0.16528323, -0.05610251) * go_2(1.0, -1.0);
result += mat4(-0.008616222, 0.077674195, -0.08638503, 0.09293109, 0.072474636, 0.05004233, -0.20591061, -0.005301386, -0.15486047, 0.15038474, 0.1262478, 0.021724822, 0.02274613, -0.3088281, -0.08437887, -0.10684698) * go_2(1.0, 0.0);
result += mat4(-0.16960032, 0.09365251, -0.030414175, -0.010766254, 0.18181023, 0.12130318, 0.08913089, -0.06070321, 0.05200306, 0.092584535, 0.17694671, 0.033796314, -0.038107123, -0.04335955, -0.049443472, 0.30465958) * go_2(1.0, 1.0);
result += mat4(0.07661484, -0.009945252, 0.12866217, -0.07592757, -0.21030053, 0.014371748, -0.072458774, -0.04700072, 0.15534303, 0.2007125, -0.15699059, -0.032897495, 0.08110436, -0.11243608, 0.008632577, -0.10153441) * go_3(-1.0, -1.0);
result += mat4(-0.034697928, 0.06928288, -0.2796273, 0.14405379, 0.12248569, 0.036539096, 0.06607706, 0.077684596, -0.16473202, 0.1665916, -0.29977503, 0.21047153, 0.13114224, -0.091579035, -0.045458574, 0.03254245) * go_3(-1.0, 0.0);
result += mat4(0.053284872, 0.053366095, -0.26152626, -0.03123967, -0.031794485, 0.17670582, -0.07450994, 0.017521491, -0.040290453, 0.38342363, -0.25021288, -0.014660264, 0.1621895, 0.25041878, -0.12124821, 0.068036206) * go_3(-1.0, 1.0);
result += mat4(0.11366693, -0.030863572, -0.07411263, 0.12475283, -0.046070684, -0.09033321, 0.013222701, 0.06798592, -0.32814804, 0.057653826, -0.14082801, -0.00217398, -0.22856179, -0.19058353, -0.20992154, -0.03701372) * go_3(0.0, -1.0);
result += mat4(0.20345633, -0.1332355, 0.27152926, -0.13477845, -0.25242096, -0.28281286, 0.31289554, 0.14284514, 0.53362453, -0.46766588, 0.4518293, -0.39291728, -0.3573227, -0.014670052, 0.0051881406, 0.16552156) * go_3(0.0, 0.0);
result += mat4(-0.15017267, -0.07792945, -0.204405, 0.13964304, -0.13642666, -0.10228306, 0.03238279, -0.08689329, -0.072262034, -0.0258388, 0.05689183, 0.055701543, -0.19800112, 0.012217054, -0.033292748, -0.047611095) * go_3(0.0, 1.0);
result += mat4(-0.014704416, -0.12203891, 0.066083655, -0.1409769, 0.0041513643, -0.087383606, -0.17498164, 0.11327789, -0.25947225, -0.0016027623, 0.08202566, 0.042270098, 0.006429511, -0.26576808, -0.08461341, 0.049376782) * go_3(1.0, -1.0);
result += mat4(0.0695189, -0.14753938, 0.09578246, -0.16607563, -0.0105561055, 0.17166016, 0.027422488, -0.14175262, -0.009492696, -0.23449713, 0.018270867, 0.14635146, 0.33451268, 0.030959005, -0.46468422, 0.024256868) * go_3(1.0, 0.0);
result += mat4(-0.16865666, -0.00015881563, -0.054488145, -0.06222717, -0.032101758, 0.06485387, -0.0028512608, 0.046645947, 0.017593225, -0.19447896, -0.024742266, 0.03970127, 0.29845607, -0.16168733, 0.035172883, 0.07924657) * go_3(1.0, 1.0);
result += vec4(0.103826486, 0.045373913, 0.11565896, -0.06568643);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.1851775, 0.053705044, 0.033816848, -0.018555025, -0.21204336, -0.01706974, 0.088259794, -0.13126148, 0.10729598, -0.043457437, 0.08634712, 0.09220895, 0.062131613, -0.01995871, 0.05181067, 0.18520063) * go_0(-1.0, -1.0);
result += mat4(0.1662002, -0.14197104, -0.052809287, 0.025287712, -0.08330898, -0.08998097, -0.15642618, -0.14941245, -0.03481203, 0.061857622, 0.26051775, -0.0005498248, 0.086427025, 0.024108192, -0.12418039, 0.022286376) * go_0(-1.0, 0.0);
result += mat4(0.058200672, -0.3073398, 0.17150162, -0.13394679, -0.075118184, -0.14607768, -0.006172172, 0.007731589, -0.21818224, -0.06449433, -0.038958784, 0.037722416, 0.28699976, -0.027563032, 0.23295315, 0.028444216) * go_0(-1.0, 1.0);
result += mat4(0.12871371, 0.0064904913, 0.14985761, -0.10923005, 0.17413563, 0.1599109, -0.08457703, 0.108153716, -0.08871187, -0.06661137, 0.2754416, -0.009667768, 0.39819396, 0.12392097, 0.14145902, 0.0019376524) * go_0(0.0, -1.0);
result += mat4(0.13893189, 0.12715353, 0.015191678, -0.21003054, -0.030412354, -0.01676613, -0.19799289, -0.006130075, 0.37676954, -0.14475077, -0.2065198, -0.30432892, -0.14944535, -0.09121536, -0.107600585, -0.24462196) * go_0(0.0, 0.0);
result += mat4(-0.11653076, -0.0068671284, -0.02249137, -0.17877012, -0.15063138, -0.13514869, 0.107643366, -0.03196477, -0.086422764, 0.3079287, 0.17584166, -0.032449376, -0.06917114, -0.2682637, -0.18978168, -0.037039287) * go_0(0.0, 1.0);
result += mat4(0.12014731, -0.030360512, -0.12954475, -0.110275604, -0.077214256, 0.019689744, 0.22149551, -0.002266716, 0.09697784, -0.124532826, -0.16776511, -0.034212478, -0.36935154, 0.016926935, 0.1363609, 0.20415346) * go_0(1.0, -1.0);
result += mat4(-0.11199535, -0.001692563, -0.09058429, -0.08437503, 0.092625685, 0.06046257, 0.25509837, -0.011657033, -0.17949764, -0.10718947, -0.1180669, -0.24681842, -0.1747311, 0.0014518246, -0.042863015, 0.06103357) * go_0(1.0, 0.0);
result += mat4(0.14979295, -0.037154514, 0.01957725, 0.012282435, 0.09168596, -0.05552286, 0.111671515, 0.0078630615, -0.10319766, -0.06416261, -0.23097566, -0.13931875, 0.2110811, 0.013095802, -0.2306504, -0.025639111) * go_0(1.0, 1.0);
result += mat4(-0.10091975, -0.10095426, -0.023449723, -0.022170888, 0.054953706, -0.13049407, 0.08289061, 0.023241632, 0.08735388, -0.0058387457, 0.17897247, 0.011434436, 0.008181139, -0.0034718404, -0.015372735, -0.07657766) * go_1(-1.0, -1.0);
result += mat4(-0.023442164, 0.07535702, 0.024391165, -0.050532013, 0.044168636, 0.0062343236, -0.019756999, -0.009695123, 0.10102337, 0.0052776975, -0.14944167, -0.060957722, 0.24367364, -0.08069369, 0.12170072, -0.047048368) * go_1(-1.0, 0.0);
result += mat4(-0.18376935, -0.08407229, -0.12943378, 0.0738419, -0.12404976, -0.13367929, 0.11265896, -0.021353, 0.003783386, 0.50088304, 0.14058582, 0.041053623, 0.038247623, -0.014179976, 0.007905778, -0.042492237) * go_1(-1.0, 1.0);
result += mat4(-0.046272535, 0.052449115, 0.17190954, -0.004745371, -0.045572635, -0.09292636, 0.36309823, 0.16673928, -0.099154025, -0.109614775, 0.17803112, 0.19907133, -0.14306267, 0.06898593, 0.11493454, 0.06795014) * go_1(0.0, -1.0);
result += mat4(0.26181114, -0.044014625, -0.21605036, -0.08646438, 0.21038742, -0.084986, 0.0504626, 0.17514943, -0.25218952, -0.18691514, 0.057650108, 0.08653614, -0.101205684, 0.03176334, 0.18569492, 0.17973189) * go_1(0.0, 0.0);
result += mat4(-0.0339215, 0.20112811, -0.12986277, 0.028961731, -0.056813832, 0.04451147, -0.07827432, -0.0860976, 0.096853435, 0.3483546, -0.35758162, -0.11749375, -0.035918653, 0.06140711, -0.08520154, 0.02418808) * go_1(0.0, 1.0);
result += mat4(-0.09643022, -0.10491069, 0.0068604187, 0.023679713, 0.096521445, -0.29323488, 0.33353668, 0.112864286, -0.1172182, -0.07233183, 0.06607239, 0.08589609, 0.055790007, 0.14396138, -0.14191268, 0.00034840964) * go_1(1.0, -1.0);
result += mat4(0.15357164, -0.038462736, 0.08143956, 0.1744909, 0.40503287, -0.114508316, 0.003937322, 0.2536635, -0.042445306, -0.15622465, 0.09155284, 0.010992155, -0.20646071, 0.022801135, 0.08894491, 0.069300614) * go_1(1.0, 0.0);
result += mat4(-0.12663515, 0.023849454, -0.053604446, 0.12082873, -0.247968, -0.020969635, -0.03831894, -0.014617553, 0.22630337, 0.037801865, 0.052950703, 0.04285706, -0.14487264, 0.20786528, -0.08719664, 0.1752347) * go_1(1.0, 1.0);
result += mat4(-0.073527604, -0.050752833, 0.051830504, 0.32868716, 0.17474994, 0.016937364, -0.08792601, -0.024481766, -0.022229593, 0.030706186, 0.09213566, -0.076506205, 0.073404044, 0.10368055, -0.175889, -0.08453031) * go_2(-1.0, -1.0);
result += mat4(-0.06838216, 0.007698341, 0.063972116, -0.015604406, 0.16135305, 0.18044342, 0.024137018, -0.23326185, 0.13235588, -0.009096587, -0.058368143, -0.077040404, 0.0011419816, -0.09246194, 0.061036937, 0.049564146) * go_2(-1.0, 0.0);
result += mat4(0.023225296, -0.00060856267, -0.07775185, 0.016958566, -0.2641349, -0.08263046, -0.15350416, -0.30203494, 0.113956556, -0.010813236, -0.017738314, -0.13689043, -0.10318342, 0.025793184, -0.010336172, 0.09733422) * go_2(-1.0, 1.0);
result += mat4(-0.04462596, 0.052866418, -0.34754288, 0.05540498, -0.24492586, -0.32016864, 0.18145293, 0.24873725, 0.32388234, -0.034801524, -0.1347588, -0.07565546, 0.015183539, 0.05059595, 0.08090056, 0.05930932) * go_2(0.0, -1.0);
result += mat4(0.045346696, -0.052527856, 0.052270077, 0.13417454, 0.05200045, 0.028119288, 0.005115497, 0.22952151, -0.2158375, 0.12241308, 0.3507457, 0.08616576, 0.07592416, 0.28470486, 0.3432788, 0.24857087) * go_2(0.0, 0.0);
result += mat4(0.21311626, 0.052607164, 0.1248861, 0.20193806, 0.045226507, 0.14512901, -0.15103437, -0.17926466, 0.11657411, -0.32711068, -0.16332194, -0.07793982, -0.21802668, 0.5183869, -0.13567342, 0.07823041) * go_2(0.0, 1.0);
result += mat4(0.00796368, 0.048073012, -0.14537893, -0.021708772, 0.036246423, 0.1062395, 0.12605369, 0.007073524, -0.1572743, 0.07439501, 0.089162275, -0.0039608316, 0.332032, -0.05461242, -0.17615359, -0.10240517) * go_2(1.0, -1.0);
result += mat4(0.20636982, -0.0024615112, -0.10625786, 0.024270926, 0.061810836, -0.13585201, -0.16581286, 0.23549418, 0.01928842, 0.07404979, -0.054449487, 0.04096373, 0.046939734, 0.003980803, 0.02111498, 0.064925276) * go_2(1.0, 0.0);
result += mat4(0.10485388, 0.06850885, -0.11292169, 0.16991565, -0.15282536, 0.124175504, -0.050431166, -0.06689582, -0.00059811946, 0.033696912, 0.11055047, 0.033060126, -0.17472714, 0.0048819613, -0.04478706, -0.1344572) * go_2(1.0, 1.0);
result += mat4(-0.20473132, 0.056477875, 0.059559986, 0.115130566, -0.058425788, -0.035971727, 0.08334707, -0.096510135, -0.23206294, 0.10635798, -0.21575621, -0.07063254, 0.03877511, -0.107549034, 0.22248401, 0.21702304) * go_3(-1.0, -1.0);
result += mat4(-0.02557767, 0.09886609, -0.100499466, 0.16687396, -0.084830604, 0.03150401, -0.049512494, 0.05595696, -0.13193256, -0.08585273, 0.14247662, 0.12290477, -0.07168309, 0.14531752, -0.048359327, 0.27716598) * go_3(-1.0, 0.0);
result += mat4(0.13297586, 0.20674329, 0.14469388, 0.08981846, -0.004231366, -0.02819193, 0.15470329, 0.17299837, 0.113062344, -0.22716297, -0.21754944, -0.00083956274, -0.14160508, 0.1808253, 0.11268379, 0.27335623) * go_3(-1.0, 1.0);
result += mat4(0.07497518, -0.06799594, -0.018158078, -0.00038999433, -0.15169668, -0.06928238, -0.33672288, -0.105485775, 0.33106267, 0.06698315, 0.019718744, -0.06810211, -0.35186404, -0.29145968, -0.056863394, 0.21498048) * go_3(0.0, -1.0);
result += mat4(-0.013215512, -0.24763754, 0.20965266, 0.1068435, -0.13234195, 0.053566497, 0.05061848, -0.28645232, 0.15518288, 0.23247199, 0.017553907, -0.25181335, -0.048030723, -0.06663929, -0.111026704, -0.12663394) * go_3(0.0, 0.0);
result += mat4(-0.010501938, -0.17995767, 0.06010859, 0.050185587, 0.108627126, -0.101203434, 0.07558728, 0.060466755, -0.106942676, -0.35854608, 0.16015992, 0.16823332, -0.06543775, -0.37310675, 0.014043972, -0.18328045) * go_3(0.0, 1.0);
result += mat4(0.09712849, 0.013983463, 0.07291423, 0.031715546, 0.030862397, 0.045510456, -0.22066842, 0.063464865, 0.11721659, -0.10596602, -0.20611264, 0.052158818, -0.3961766, -0.03781582, 0.17633812, 0.1316111) * go_3(1.0, -1.0);
result += mat4(-0.25029674, 0.07153423, -0.35125682, -0.18255402, -0.19569087, 0.00432772, -0.0969035, -0.24648514, -0.0040922165, 0.037500706, -0.038137026, 0.056214277, -0.048258524, 0.03567822, -0.05033007, -0.24696785) * go_3(1.0, 0.0);
result += mat4(-0.03465209, -0.012495964, 0.22782089, 0.012034795, 0.2916752, 0.08264436, 0.15387125, -0.1473455, -0.15614432, 0.05536727, -0.027079755, 0.010725311, -0.03325222, -0.089212805, -0.10559839, -0.19647683) * go_3(1.0, 1.0);
result += vec4(0.0001705175, -0.031081453, 0.010100773, -0.027214011);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf1
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.026301445, -0.021575214, 0.22165509, 0.059994068, 0.03341161, 0.1831188, 0.20342293, 0.110160105, 0.03908121, 0.020673111, 0.07239561, 0.038754333, 0.15266368, 0.16526422, 0.062376205, -0.09759537) * go_0(-1.0, -1.0);
result += mat4(0.19817191, 0.10267733, 0.17744653, 0.23283184, 0.18810122, 0.2708428, -0.12651879, 0.020756349, 0.039632563, -0.22201295, 0.04873703, 0.09159713, 0.13838065, 0.21169297, 0.30816007, 0.044463675) * go_0(-1.0, 0.0);
result += mat4(-0.27859214, 0.07277634, 0.0021458792, 0.0089682285, -0.069680706, 0.090415835, -0.057762265, 0.18703683, -0.03514389, -0.102816254, -0.036509827, 0.038066104, -0.0168311, 0.094478935, 0.04079697, -0.049064912) * go_0(-1.0, 1.0);
result += mat4(-0.20913245, -0.110538535, -0.08584027, -0.1222067, 0.05414807, -0.045247085, 0.07351766, -0.002078549, -0.1270987, -0.10164512, -0.1857815, 0.08845066, -0.03743333, -0.098948084, 0.21244387, 0.10441866) * go_0(0.0, -1.0);
result += mat4(0.015990427, 0.36396438, -0.24094687, 0.30236533, -0.13271736, 0.06057376, -0.19678196, -0.28577125, -0.25427434, -0.08400598, 0.07284403, -0.18552442, -0.16425897, 0.097259276, -0.32386774, -0.2190484) * go_0(0.0, 0.0);
result += mat4(-0.004581924, -0.13954072, -0.122360416, 0.14132866, -0.08529257, -0.013296556, 0.0848472, 0.09336581, 0.10332182, -0.016313016, 0.07103558, 0.032564916, -0.13478759, -0.20207484, 0.12986964, 0.1219679) * go_0(0.0, 1.0);
result += mat4(0.09817874, -0.10573357, 0.100535244, 0.19608764, -0.13303067, 0.024192972, -0.030689823, 0.02574889, 0.051233094, 0.03489235, -0.18465245, -0.06943822, -0.031604882, 0.1519888, 0.09348508, 0.09187296) * go_0(1.0, -1.0);
result += mat4(-0.21365458, -0.23696984, 0.13097638, -0.09435498, 0.16467983, -0.066370346, 0.1269104, -0.095128186, 0.09954892, 0.12489504, -0.43418056, 0.106512725, -0.17860703, -0.07114084, -0.07630834, -0.26642478) * go_0(1.0, 0.0);
result += mat4(-0.009044342, 0.02711196, -0.14873673, 0.015405045, 0.0071443473, -0.025285944, 0.07409282, 0.06338527, 0.0149676185, 0.011741382, -0.2133069, -0.028912885, 0.19420496, 0.039629057, 0.057636812, 0.15214856) * go_0(1.0, 1.0);
result += mat4(0.07629928, 0.25540486, -0.050925937, -0.18136702, 0.02261603, 0.22343902, 0.003270321, 0.10735731, -0.12541203, -0.10208828, 0.012832783, 0.2591262, 0.08122926, -0.009837677, 0.10308358, 0.19236866) * go_1(-1.0, -1.0);
result += mat4(0.0896358, 0.27571487, 0.04406029, -0.047453407, -0.08587119, 0.16366854, 0.20622262, 0.08347545, -0.3501584, -0.28434548, -0.07592983, 0.09098784, 0.07605388, 0.09677056, 0.0015295541, 0.05102585) * go_1(-1.0, 0.0);
result += mat4(0.18255898, 0.18618028, 0.0017002645, -0.013004655, -0.06436534, 0.13967068, 0.063077755, -0.10632303, -0.20803222, -0.028537111, -0.03144366, -0.08555215, 0.05154303, 0.02431626, 0.15246728, -0.013708507) * go_1(-1.0, 1.0);
result += mat4(-0.020998938, -0.05026291, 0.03700117, 0.00830308, -0.1949294, 0.0026698054, -0.034649856, 0.19784226, -0.083901435, -0.069783084, -0.1504053, 0.16595264, -0.07480141, 0.16067508, 0.06010996, -0.021359695) * go_1(0.0, -1.0);
result += mat4(-0.040828142, -0.20158486, 0.034770954, -0.1894161, 0.11665004, 0.29729164, -0.10584386, 0.13165873, -0.18863006, -0.26719162, -0.047613148, -0.12728356, -0.2033613, 0.10550052, 0.20095508, -0.11275811) * go_1(0.0, 0.0);
result += mat4(-0.0785033, -0.1896073, -0.051492307, -0.1694358, 0.1368308, 0.049355216, -0.05707422, 0.079159185, 0.024578957, -0.0923136, 0.089215435, 0.28670043, 0.027932687, 0.06510816, 0.10810999, 0.05990052) * go_1(0.0, 1.0);
result += mat4(0.08135192, 0.0001326522, -0.16098668, -0.18663193, -0.10280192, 0.078255914, 0.047648013, 0.08326376, 0.055962667, 0.06302574, -0.080121025, -0.031820554, -0.019117938, 0.12515336, 0.09794088, -0.03276838) * go_1(1.0, -1.0);
result += mat4(0.280923, 0.24079335, 0.007883573, 0.06270414, 0.3055441, 0.19291803, -0.16041607, 0.14836526, 0.0013885222, 0.04538063, 0.10742898, -0.064491205, 0.048174977, 4.237692e-05, -0.15194727, 0.024381457) * go_1(1.0, 0.0);
result += mat4(-0.0009164131, -0.031949926, 0.0076425644, -0.036870714, -0.0031292974, 0.017726978, -0.20172147, -0.0770472, 0.26379177, 0.108997814, 0.08069395, 0.2126177, 0.012075376, -0.029457828, 0.062730506, -0.15754452) * go_1(1.0, 1.0);
result += mat4(0.09167904, -0.2657421, -0.03443356, 0.03315832, -0.015365421, -0.1029612, -0.108251, 0.04261033, -0.097120754, -0.05616668, -0.09275983, 0.024902184, 0.050058514, -0.013761632, 0.07555132, -0.0046676896) * go_2(-1.0, -1.0);
result += mat4(-0.10743835, -0.0007361781, -0.042085417, -0.08237517, -0.10094376, -0.24007876, 0.13924706, -0.07526801, 0.01158322, 0.15491122, 0.0069442675, -0.004242352, 0.11429785, 0.02994726, -0.11829945, -0.04108612) * go_2(-1.0, 0.0);
result += mat4(0.073622055, -0.064717196, -0.0025231615, 0.13256475, 0.20159899, 0.047977835, -0.10289233, -0.18419135, -0.00888952, 0.059428576, -0.053062655, -0.02730631, 0.14545685, -0.08686949, 0.17454128, 0.035443828) * go_2(-1.0, 1.0);
result += mat4(-0.010146019, 0.06712568, 0.12614638, 0.023590917, 0.025756737, 0.06603747, -0.17108095, -0.06179699, 0.027241204, -0.13196802, 0.043475866, -0.0397495, 0.05306092, 0.035672903, 0.047219284, -0.16680142) * go_2(0.0, -1.0);
result += mat4(0.079427816, -0.06716479, 0.19028603, -0.19694683, -0.061598092, -0.07471188, 0.21170339, 0.30140215, -0.0023369973, 0.04688297, -0.14154115, 0.19283508, 0.1339858, -0.09116279, 0.15305163, 0.029108394) * go_2(0.0, 0.0);
result += mat4(-0.14902157, -0.03339153, -0.08532003, -0.10736339, 0.08702709, 0.07607574, -0.09955836, -0.016585784, -0.030078214, -0.060374748, -0.2854279, 0.02441719, 0.034877967, 0.2099041, 0.11125731, -0.059071556) * go_2(0.0, 1.0);
result += mat4(-0.08436325, 0.06893047, -0.045362443, -0.02237741, -0.07583875, -0.034830183, -0.024008518, -0.2882329, -0.011109783, 0.101859994, 0.091137715, 0.0020565533, -0.044729806, -0.18168025, 0.069466636, 0.04994174) * go_2(1.0, -1.0);
result += mat4(0.11915174, 0.089596465, -0.18965814, 0.015218237, 0.13500094, 0.19921367, -0.008298205, 0.29650384, -0.049439427, -0.27590424, 0.36169067, -0.030582754, 0.02151196, 0.019915426, 0.04543398, 0.16126189) * go_2(1.0, 0.0);
result += mat4(0.1620274, -0.08264547, 0.082442135, -0.0034478644, 0.09888509, -0.0034957859, -0.107241705, -0.17729597, -0.05138647, 0.02052103, -0.019507123, 0.037574988, -0.1694345, 0.17871588, -0.22510391, 0.019049853) * go_2(1.0, 1.0);
result += mat4(-0.10962245, -0.1329873, -0.060855392, 0.025941676, -0.19536193, -0.120365486, -0.04313703, -0.052912965, 0.20854498, 0.08341353, 0.008687068, -0.20432276, 0.15677948, -0.19000018, 0.01821201, -0.041512605) * go_3(-1.0, -1.0);
result += mat4(0.012287526, -0.14180368, -0.098788455, 0.025949089, 0.09442778, 0.2247651, -0.12453263, 0.10435483, 0.274603, 0.06133054, 0.10506106, 0.14727746, -0.048299775, -0.082819685, 0.07319359, -0.047460355) * go_3(-1.0, 0.0);
result += mat4(-0.070726536, -0.034744017, 0.07521428, 0.070649154, -0.05958955, -0.100232825, -0.010651838, 0.045392875, 0.2930271, -0.04952355, 0.3112155, 0.117203265, 0.025166962, 0.11176862, 0.06716659, 0.07175864) * go_3(-1.0, 1.0);
result += mat4(-0.011560962, -0.14032063, -0.17424704, 0.07652749, -0.04220116, 0.052874275, -0.00225693, -0.031843517, -0.07520102, -0.13775803, 0.2449317, 0.069658786, 0.052280303, -0.105218224, 0.03574522, -0.020500354) * go_3(0.0, -1.0);
result += mat4(0.08793712, 0.26712346, 0.08315631, 0.23813692, -0.04439029, 0.031587064, 0.09561177, -0.13380238, -0.24982157, 0.31701845, -0.3875432, 0.10487225, 0.09201869, -0.037252493, -0.006935219, -0.14650282) * go_3(0.0, 0.0);
result += mat4(0.077635325, 0.13732299, -0.071563005, 0.096517466, -0.15051986, -0.111744404, 0.03996857, -0.052670125, -0.1819665, 0.054554947, -0.13774712, -0.20061246, -0.0023742192, 0.15647805, -0.024121126, 0.075497724) * go_3(0.0, 1.0);
result += mat4(0.0073632775, -0.06535298, 0.039895996, 0.20666869, 0.13625242, 0.04823007, -0.07135618, 0.04787906, 0.01383074, 0.15382123, -0.15519714, 0.056721795, 0.061946746, -0.0586851, 0.028934354, -0.02264129) * go_3(1.0, -1.0);
result += mat4(-0.19791882, -0.111910924, -0.010451344, -0.30566537, -0.1416239, -0.14523096, 0.116883226, -0.18241516, 0.2680614, -0.18487626, 0.17472346, 0.08346682, -0.14510359, -0.029229192, -0.005879142, 0.050247498) * go_3(1.0, 0.0);
result += mat4(0.030153519, -0.092469186, -0.022912916, 0.10200855, -0.04237032, -0.05917764, 0.10479645, -0.05619482, -0.18949397, -0.019547248, 0.013868889, -0.1524476, 0.14048979, -0.032521486, 0.1322921, 0.070972025) * go_3(1.0, 1.0);
result += vec4(0.012053958, -4.6962363e-05, 0.0020099226, -0.033494607);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE conv2d_4_tf
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.06738501, 0.034009207, -0.21538448, 0.14296548, 0.12896985, -0.23526315, -0.08848608, 0.019602662, 0.14937137, 0.11353096, 0.11884168, -0.016765572, 0.030985225, 0.046430565, 0.06614828, -0.19202724) * go_0(-1.0, -1.0);
result += mat4(-0.10326068, 0.11014975, 0.17069744, -0.21474148, 0.16761585, 0.13434832, -0.101021074, 0.006307025, 0.07478008, -0.1060066, 0.035315692, 0.033488914, -0.24906659, 0.06269967, 0.11120735, -0.040928528) * go_0(-1.0, 0.0);
result += mat4(0.09334615, 0.057705753, 0.12213245, -0.06402275, 0.30694544, 0.034585163, 0.20345578, 0.07489286, 0.07483618, -0.14240396, 0.034846418, -0.03811241, 0.010882573, 0.13204294, 0.017563924, -0.047203008) * go_0(-1.0, 1.0);
result += mat4(-0.21673942, -0.024010994, -0.10238504, -0.041160326, 0.06838163, -0.20950818, 0.06526309, -0.079094924, 0.02208821, -0.28130978, 0.086275116, -0.089067616, 0.12133826, -0.062600106, -0.020521903, -0.07654401) * go_0(0.0, -1.0);
result += mat4(-0.03055029, -0.15683146, -0.20331301, -0.06252028, 0.13350682, 0.20338707, 0.038425338, 0.1581342, -0.27322498, -0.14999662, -0.16681097, 0.0971585, -0.20014858, -0.081635274, -0.0781877, -0.20625232) * go_0(0.0, 0.0);
result += mat4(0.38375977, -0.019825654, 0.1886721, 0.22616312, 0.3402173, 0.1825304, -0.05531195, 0.30973226, -0.2676023, 0.14413352, 0.021706983, 0.01732799, 0.23466855, -0.13805965, 0.22570935, 0.018103868) * go_0(0.0, 1.0);
result += mat4(-0.15169825, 0.0270689, -0.2503316, 0.17289825, -0.16437647, 0.039233048, -0.35572487, -0.048393793, 0.19270042, 0.24260359, 0.12041881, -0.0009793913, 0.11656858, 0.11007414, -0.0757491, 0.047933612) * go_0(1.0, -1.0);
result += mat4(-0.18657999, -0.11252566, -0.05237504, -0.07368097, 0.13882741, -0.13710637, -0.006996468, -0.062354874, 0.23452504, 0.15333645, -0.0022776406, -0.17910439, 0.03629509, -0.16264829, -0.010011833, -0.15313338) * go_0(1.0, 0.0);
result += mat4(-0.060544558, -0.04913478, -0.061717357, 0.02323648, 0.28739056, -0.07434013, 0.19110644, 0.100050166, 0.0073363045, 0.08185653, -0.024797903, -0.14424153, -0.20838726, 0.16154376, -0.048517212, -0.025453888) * go_0(1.0, 1.0);
result += mat4(0.14975396, -0.13142908, 0.36210674, -0.054021083, -0.10632155, 0.045697935, -0.18946633, 0.02228141, -0.08919603, 0.09800842, -0.17634438, 0.09512711, -0.03425503, -0.12298555, -0.05354435, -0.17112055) * go_1(-1.0, -1.0);
result += mat4(0.09958265, -0.057276618, -0.16262266, -0.06415915, 0.14579074, -0.36784375, 0.08034197, -0.04537706, 0.005460582, 0.22313322, 0.07382161, 0.014990379, 0.044636846, -0.2811128, -0.22621547, -0.06044004) * go_1(-1.0, 0.0);
result += mat4(0.10569276, -0.03738662, 0.16100396, 0.058593616, -0.048862137, -0.08796426, 0.20101094, -0.11039573, 0.17196764, -0.04601554, 0.008571281, -0.073729075, 0.051433694, -0.051276565, 0.087334655, -0.0360379) * go_1(-1.0, 1.0);
result += mat4(0.011119538, -0.28781965, 0.28637868, -0.1742508, -0.07121849, 0.10379717, 0.012615981, -0.029563965, -0.18678424, 0.05291095, 0.039143506, -0.028248642, -0.014103922, 0.029155696, 0.10433492, 0.16305852) * go_1(0.0, -1.0);
result += mat4(-0.2231037, -0.13697462, -0.29124337, 0.08519773, 0.15893684, -0.17763218, 0.06950923, 0.34361118, -0.024844287, 0.044008408, -0.033844844, -0.086971916, -0.07884748, 0.2543499, 0.056884114, 0.10068364) * go_1(0.0, 0.0);
result += mat4(-0.07710048, -0.23218372, 0.04346047, 0.21769643, 0.06473219, -0.18066105, -0.2511205, 0.15309611, 0.04535977, 0.16450433, 0.10846344, 0.0016952346, -0.010874939, 0.28966382, -0.121990964, 0.12956186) * go_1(0.0, 1.0);
result += mat4(-0.007910202, 0.17766511, 0.14364475, 0.1016258, 0.0051045395, 0.18691733, 0.005813767, -0.0070582186, 0.019418601, -0.1604435, 0.016088275, -0.18265302, -0.15719391, -0.17369832, -0.036745597, -0.19647408) * go_1(1.0, -1.0);
result += mat4(0.08938396, -0.0073808245, 0.11225727, -0.012303106, 0.096785046, 0.030483445, 0.027719889, -0.052584838, -0.14887555, -0.03422243, 0.12646855, -0.1722482, 0.010239037, 0.06406088, -0.20053658, 0.01964698) * go_1(1.0, 0.0);
result += mat4(-0.120734036, -0.12450362, -0.06582111, 0.1639675, -0.19787048, -0.08049789, -0.014257596, 0.058436662, -0.0009387449, -0.08698089, -0.017400503, 0.06295286, 0.09890349, -0.057190523, -0.103520766, -0.04207548) * go_1(1.0, 1.0);
result += mat4(-0.0118413875, -0.031288836, 0.09749554, -0.012266401, -0.07998591, 0.22615653, -0.06207416, 0.03257896, -0.076378696, -0.079426095, -0.13968349, -0.15423697, -0.1091681, -0.02893125, -0.032659534, -0.063735925) * go_2(-1.0, -1.0);
result += mat4(0.119372696, 0.013176554, -0.029381052, 0.21919228, 0.045041792, 0.24844484, 0.26363325, 0.08480674, 0.087083444, 0.11984778, -0.088715754, 0.06421046, 0.05225977, -0.05140334, -0.055052705, -0.049854077) * go_2(-1.0, 0.0);
result += mat4(0.0035781674, 0.0861361, -0.07675145, -0.056479637, 0.16973391, -0.12113791, 0.10729832, -0.03773517, 0.058618728, 0.12148276, 0.17260705, -0.06968724, 0.076358154, -0.15307103, 0.17700425, -0.13467014) * go_2(-1.0, 1.0);
result += mat4(-0.02752418, -0.06366472, -0.025610954, 0.0013539721, -0.06465272, 0.0806373, -0.07336035, 0.10114861, 0.0041146413, 0.15878421, -0.044668555, -0.12150811, -0.1071482, -0.05086587, 0.18589285, 0.05065092) * go_2(0.0, -1.0);
result += mat4(0.07200056, 0.021739854, 0.29476613, -0.08475931, 0.15018553, -0.07886365, 0.36336347, -0.020576432, 0.25866082, -0.059272554, 0.054249667, -0.17822553, 0.1755872, 0.3244387, -0.39173844, 0.33894604) * go_2(0.0, 0.0);
result += mat4(-0.11570926, 0.1342677, -0.19511898, 0.0075454637, -0.01890476, -0.14239742, 0.18921931, 0.033990458, 0.31306365, -0.006998358, 0.029190077, -0.005679954, -0.15341778, 0.07766778, -0.25691047, -0.0964161) * go_2(0.0, 1.0);
result += mat4(0.019746238, 0.0021332854, -0.00879096, -0.1338671, -0.0001600663, -0.29465106, 0.0867611, -0.114963025, 0.07874301, -0.012734178, -0.11124061, -0.010926616, -0.04941506, -0.07516841, 0.116663, -0.29018974) * go_2(1.0, -1.0);
result += mat4(-0.01651721, 0.05955898, 0.023618208, 0.098695934, 0.018553663, -0.054378513, 0.1436929, 0.1693743, -0.27483663, 0.029127488, 0.09619316, -0.06109113, -0.08619361, 0.09315214, -0.02478657, 0.18544984) * go_2(1.0, 0.0);
result += mat4(0.09570196, -0.016528936, -0.1559397, 0.14312246, 0.04029428, 0.08773151, -0.043646842, 0.17894371, -0.082413055, 0.0027082344, -0.100171275, 0.01547501, 0.18122818, -0.11933676, 0.26404107, -0.3169703) * go_2(1.0, 1.0);
result += mat4(-0.12073344, 0.08683522, -0.09249099, 0.058786053, -0.14480567, -0.121013954, 0.033335857, 0.009353379, -0.055087596, -0.13002734, 0.08890566, 0.05508963, -0.0075715426, -0.15936922, -0.03968994, -0.1690259) * go_3(-1.0, -1.0);
result += mat4(0.2011206, 0.23898427, 0.23656492, 0.1287573, 0.14850396, 0.40532517, -0.107408255, 0.40119782, 0.099813245, -0.03830304, 0.101520434, -0.026478073, -0.048469637, 0.106440455, 0.056632314, -0.17825997) * go_3(-1.0, 0.0);
result += mat4(-0.076735444, 0.05965795, -0.0052469415, -0.21785147, 0.11887833, 0.067560315, 0.051149055, 0.23626682, -0.1297049, -0.035512198, 0.20352256, -0.025064934, 0.04958706, 0.0454198, 0.0113334535, 0.0417486) * go_3(-1.0, 1.0);
result += mat4(-0.09055751, 0.033915352, -0.21836667, 0.22006813, -0.099022895, 0.11720966, -0.15686816, -0.13586599, -0.094427735, -0.08831514, -0.06182928, 0.09213704, -0.03642064, 0.18129414, -0.012926811, 0.12179882) * go_3(0.0, -1.0);
result += mat4(0.19389409, 0.09512252, 0.14768016, -0.16623649, -0.031052284, -0.026814984, 0.106168024, -0.2026781, -0.04581419, -0.0016849053, -0.04101923, 0.038959503, -0.011938445, 0.20096186, -0.26666564, 0.4824324) * go_3(0.0, 0.0);
result += mat4(0.17727576, 0.07309147, 0.12131863, -0.163096, 0.17225246, 0.26256254, 0.27685758, 0.09094053, 0.029605515, -0.20217367, 0.047564875, 0.043115832, 0.15089568, -0.09670934, 0.24131384, 0.03337442) * go_3(0.0, 1.0);
result += mat4(-0.34192136, 0.12063195, -0.31159517, 0.04170889, -0.30147067, -0.21330686, -0.1514457, -0.121126845, 0.04409098, 9.2206596e-05, 0.027680017, 0.03230512, -0.27993527, -0.093485355, 0.07568645, -0.23585452) * go_3(1.0, -1.0);
result += mat4(0.0537712, -0.20847629, 0.1740093, -0.013894753, -0.32719997, -0.059484575, -0.006098233, -0.10336451, -0.14706188, -0.07424865, -0.07045905, 0.17093194, -0.22147557, 0.09086218, -0.11033544, -0.05306482) * go_3(1.0, 0.0);
result += mat4(0.00489003, -0.11509064, -0.021005848, 0.16637677, -0.089347586, 0.17545725, -0.17313693, 0.13742085, -0.14577347, 0.07951095, -0.092139855, 0.017118992, -0.053472433, 0.079414465, 0.0330263, -0.11189824) * go_3(1.0, 1.0);
result += vec4(-0.034743138, 0.012946433, -0.082333155, 0.07721756);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE conv2d_4_tf1
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.25835788, 0.050451655, -0.1845038, -0.07232528, 0.1323318, 0.26276684, 0.10842882, -0.083056524, 0.17426784, -0.3594826, 0.2728965, 0.08388844, -0.004007842, 0.020535901, -0.051425606, 0.07750436) * go_0(-1.0, -1.0);
result += mat4(-0.11410436, 0.014572361, -0.27057216, -0.023974562, 0.05234827, 0.15328228, -0.17502303, -0.3199359, 0.12188045, -0.095813684, 0.024145132, 0.0856916, -0.027453909, -0.043129764, 0.16971985, 0.021623038) * go_0(-1.0, 0.0);
result += mat4(0.06611095, 0.038625732, -0.13717118, -0.04497733, 0.15213469, 0.04770935, 0.0729271, -0.062052976, 0.004571303, 0.035141192, -0.059409596, 0.044652313, 0.17520894, 0.09665589, -0.1479193, 0.06528058) * go_0(-1.0, 1.0);
result += mat4(-0.1845968, 0.091479465, -0.09394898, -0.13545018, -0.029501775, -0.21426639, 0.09255898, 0.1257644, 0.20256902, 0.06267267, 0.10378081, 0.13494423, 0.058310498, 0.03642236, -0.16268995, -0.048100803) * go_0(0.0, -1.0);
result += mat4(0.2155119, -0.3683131, 0.049449228, -0.20559964, -0.11761922, -0.2518804, -0.020712897, 0.12895772, -0.07543782, 0.5805017, -0.11301444, -0.038493153, -0.06710986, -0.09321189, 0.108671665, -0.03259695) * go_0(0.0, 0.0);
result += mat4(0.035307787, 0.108389005, -0.27493554, 0.27029404, 0.25523573, -0.28636125, -0.20766719, -0.008661457, -0.004480811, -0.046390545, -0.16221444, 0.008979624, -0.061375532, 0.035076566, -0.018924266, 0.01380219) * go_0(0.0, 1.0);
result += mat4(-0.051922515, -0.12463486, -0.10383422, 0.02220095, -0.1573033, 0.13980615, 0.13248625, -0.16803266, -0.0692132, -0.21552645, 0.13744529, 0.23034313, 0.0052666534, 0.028977966, 0.07720251, -0.06477756) * go_0(1.0, -1.0);
result += mat4(-0.14097473, 0.2770271, -0.172289, -0.03000696, -0.028684044, 0.040578447, -0.2290285, 0.082329154, -0.042402364, -0.20926563, 0.08233207, 0.11862443, -0.07038536, -0.02273004, 0.091550544, -0.065856494) * go_0(1.0, 0.0);
result += mat4(0.14879914, -0.023923844, -0.23569296, 0.20306346, 0.17502785, 0.28776234, -0.2788995, 0.10012439, -0.05635638, -0.025840463, 0.09222198, 0.118032, 0.08057015, 0.1286071, 0.060189806, -0.052669708) * go_0(1.0, 1.0);
result += mat4(0.07076086, -0.15111323, -0.07427972, 0.008372168, -0.17791592, -0.16254742, 0.013961132, -0.0944912, -0.23380096, 0.17377278, -0.09683394, 0.019931393, -0.12042098, 0.0016406325, 0.09393333, -0.06882231) * go_1(-1.0, -1.0);
result += mat4(0.21465093, 0.04142968, 0.06840044, -0.37831602, -0.05549571, 0.044905066, -0.07873589, -0.026804, -0.34764197, 0.022487951, -0.077293746, 0.089457795, -0.110094436, 0.24233972, 0.06285107, -0.10851744) * go_1(-1.0, 0.0);
result += mat4(0.093270175, 0.084138945, 0.03938272, 0.063565865, -0.010733802, 0.13554469, -0.06650261, 0.033002816, 0.011187271, -0.12821455, 0.20785914, -0.030438649, -0.124710515, -0.022294303, 0.09732408, 0.057609864) * go_1(-1.0, 1.0);
result += mat4(-0.12833868, 0.021577539, -0.02700365, 0.11799592, -0.03655647, -0.04225167, 0.11049353, -0.16036157, 0.049277548, -0.033842396, 0.10020137, 0.095509745, 0.08060231, -0.09237418, -0.035598125, -0.035926737) * go_1(0.0, -1.0);
result += mat4(-0.32829186, 0.3492363, 0.030671779, -0.12606762, 0.010437313, 0.2757115, -0.21517593, -0.15800527, -0.12592544, -0.20578934, 0.10444053, 0.12993255, -0.046079267, 0.03834173, -0.19277227, -0.22124454) * go_1(0.0, 0.0);
result += mat4(-0.052546192, 0.026082167, 0.13831234, 0.10982424, 0.012946818, -0.12439852, 0.10134106, -0.10050398, -0.04472338, -0.14325236, -0.20579574, 0.0044005127, 0.22013672, -0.32955512, 0.12404084, -0.008160738) * go_1(0.0, 1.0);
result += mat4(-0.10774314, -0.31650826, -0.06601711, 0.19635755, -0.12622592, -0.06396423, 0.13856032, 0.16540553, 0.021387719, 0.23377723, -0.053738154, -0.1000186, -0.08338395, -0.052813534, 0.008122962, 0.13732094) * go_1(1.0, -1.0);
result += mat4(-0.18270823, 0.06966014, -0.17788303, -0.27303055, -0.077971615, 0.013978423, -0.02039098, 0.12715338, -0.11924171, 0.18900296, -0.085199654, 0.215198, 0.18587974, -0.009749325, 0.0173584, -0.12018259) * go_1(1.0, 0.0);
result += mat4(0.052129295, -0.107416354, 0.12711766, 0.03708665, -0.14369462, -0.055359814, -0.16639823, -0.045143317, -0.06925672, -0.040696755, 0.01999809, -0.016040625, -0.02484878, 0.07417094, 0.050875198, 0.2145528) * go_1(1.0, 1.0);
result += mat4(0.055696912, -0.16680926, -0.021987487, 0.024941636, -0.0927883, 0.022136632, 0.033782948, -0.10646058, -0.14944647, 0.25457275, 0.046682496, -0.022462368, -0.07886781, 0.08165927, 0.06848105, 0.0063734027) * go_2(-1.0, -1.0);
result += mat4(0.037053242, 0.033215813, 0.18291366, 0.12340375, 0.08491059, -0.28442004, -0.0127422465, -0.039834313, -0.23321372, 0.26676926, -0.05636355, -0.15672484, -0.12891728, -0.15486577, -0.032004442, -0.092745155) * go_2(-1.0, 0.0);
result += mat4(0.015779478, -0.18457565, 0.24996394, 0.036197674, 0.15694007, 0.15863103, -0.07332398, 0.0016235278, -0.15536517, -0.056062788, 0.14102836, 0.16915025, -0.08001087, 0.07073164, 0.13796777, 0.123867124) * go_2(-1.0, 1.0);
result += mat4(0.045792986, -0.15135059, -0.1354885, -0.043678258, -0.35655212, 0.51232076, -0.12816145, -0.046569496, -0.014127674, -0.06282611, -0.098873, -0.06359104, -0.0919222, 0.11822437, 0.079254694, 0.00579688) * go_2(0.0, -1.0);
result += mat4(-0.15683417, 0.61610246, -0.3024612, 0.12917964, -0.09303367, 0.23612969, -0.40842506, -0.12374661, -0.07572449, -0.2613284, -0.09970177, -0.015227848, 0.106239066, -0.21411185, 0.051998455, -0.1364518) * go_2(0.0, 0.0);
result += mat4(0.23850034, -0.14394449, -0.0031468747, -0.2380617, -0.027200876, -0.041352056, -0.01864445, 0.033848196, -0.12064239, -0.110480845, 0.08450956, -0.22328654, 0.17664163, 0.22268307, 0.050886698, -0.17475672) * go_2(0.0, 1.0);
result += mat4(-0.17808256, 0.010803805, 0.03315186, 0.033143792, -0.14205995, 0.25039625, -0.08784382, -0.13454252, 0.19576813, 0.10755282, 0.22821628, 0.019456752, -0.0422955, -0.016182603, -0.12066697, 0.0548465) * go_2(1.0, -1.0);
result += mat4(0.11563777, -0.257929, 0.0010403778, 0.080267854, -0.0025255163, 0.2855168, -0.060352214, -0.07816255, -0.00090574916, 0.049510725, 0.03720483, 0.059250016, -0.08674136, 0.20522198, -0.28694284, 0.1299507) * go_2(1.0, 0.0);
result += mat4(-0.14638457, 0.04063328, 0.03139636, -0.007934521, 0.07689684, -0.09467145, 0.10607347, 0.054510128, 0.003306194, 0.05347124, 0.062762424, -0.041480847, -0.07677865, -0.139573, 0.010972524, 0.21957156) * go_2(1.0, 1.0);
result += mat4(-0.026845628, -0.043439507, 0.034738723, 0.07281683, 0.14474197, 0.031586993, -0.22767854, -0.0707655, 0.105201736, -0.28805482, 0.008668302, -0.16329518, 0.06157049, 0.3803886, 0.26345953, -0.011096537) * go_3(-1.0, -1.0);
result += mat4(-0.23328833, 0.085731484, -0.07755016, 0.33559516, 0.07704345, 0.115106605, -0.24114038, -0.44630137, 0.2726737, -0.32170138, -0.009236524, -0.11666051, 0.0457048, 0.07876708, 0.13134004, -0.035318643) * go_3(-1.0, 0.0);
result += mat4(-0.05140272, 0.011605703, 0.13899171, -0.05071015, 0.18413687, -0.31413674, -0.13043414, -0.15118152, -0.15326938, -0.10720126, -0.23738635, 0.13481396, 0.25115076, -0.009316611, -0.2584441, -0.14389823) * go_3(-1.0, 1.0);
result += mat4(-0.039723795, -0.14869407, -0.1692942, 0.026501274, -0.10685166, -0.121267825, -0.08584318, -0.09580693, -0.10626739, -0.068417974, 0.11321909, -0.13664317, 0.061380867, -0.2587898, 0.14850819, 0.008178645) * go_3(0.0, -1.0);
result += mat4(0.06912782, 0.24230564, -0.048150286, 0.2203717, -0.17417085, 0.105546735, -0.16648416, -0.0045053074, 0.09764028, 0.37122592, -0.1939995, -0.27899942, -0.088152565, -0.53869057, 0.21676709, -0.08056594) * go_3(0.0, 0.0);
result += mat4(0.07651754, 0.03704878, -0.0197015, 0.1660726, 0.07002748, -0.11820414, -0.23360898, 0.1481592, 0.029847002, 0.054057185, 0.013176299, 0.06552942, -0.13865773, -0.20105527, -0.37550658, 0.005769631) * go_3(0.0, 1.0);
result += mat4(-0.22697811, -0.17426412, 0.10148018, 0.008134666, 0.10771455, 0.16943407, -0.016319012, -0.40176705, -0.06854668, -0.049045276, 0.20919096, 0.13240765, -0.050125647, 0.14902508, 0.052697595, -0.13817468) * go_3(1.0, -1.0);
result += mat4(0.04301619, 0.23184754, -0.023551717, 0.3768405, 0.028999053, 0.06709736, -0.05993663, -0.059861984, 0.15499207, -0.22217415, 0.111131504, -0.09082529, -0.19389243, 0.024621522, -0.15305442, 0.010799284) * go_3(1.0, 0.0);
result += mat4(-0.035496738, 0.010802548, -0.028718363, 0.19263634, 0.16900502, -0.16661702, -0.027631328, 0.18309957, -0.015860107, -0.03309961, -0.091390446, 0.14000848, -0.0036591904, 0.47659522, -0.09373507, -0.29020965) * go_3(1.0, 1.0);
result += vec4(0.08895955, -0.027667087, 0.20500831, 0.00037762933);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!SAVE conv2d_5_tf
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.018134737, -0.2296755, -0.07276725, -0.029795367, 0.05382051, 0.092847414, -0.024469728, -0.1674685, 0.0017946451, 0.30074653, 0.0034195695, -0.04892261, 0.18229689, -0.20116119, -0.12702174, -0.08259108) * go_0(-1.0, -1.0);
result += mat4(-0.1357695, -0.08149211, 0.09314453, -0.21966846, 0.34740716, 0.043606415, 0.04225903, 0.034449834, 0.17248215, 0.39148283, -0.13868807, -0.010550686, 0.044238456, -0.09693464, -0.005044985, 0.24383289) * go_0(-1.0, 0.0);
result += mat4(0.19959371, 0.098685324, 0.058746945, 0.010580748, 0.08051514, 0.031898864, 0.017556064, 0.13004355, -0.01727653, 0.11044019, 0.040673427, -0.20064595, -0.23321067, 0.06398686, -0.19126236, -0.2430858) * go_0(-1.0, 1.0);
result += mat4(-0.12870286, -0.113455534, 0.23722827, 0.070718594, 0.19049989, -0.1927299, -0.06343845, 0.113127775, 0.082530305, -0.10972526, -0.090779535, 0.05731582, 0.11018802, -0.18049154, 0.09269507, -0.10304576) * go_0(0.0, -1.0);
result += mat4(0.15513484, 0.06659583, 0.08125296, -0.012350324, -0.09492788, 0.5048303, 0.13206847, 0.39554298, 0.28953737, -0.20913891, -0.26781562, -0.17539899, 0.023778774, 0.29716817, 0.15768486, 0.37702608) * go_0(0.0, 0.0);
result += mat4(0.0724462, 0.015571356, -0.032217246, 0.0050658924, -0.22708446, 0.03968809, 0.016753826, 0.0025668752, -0.055932112, 0.113931604, 0.19766758, -0.030027265, -0.17384295, 0.15013468, -0.0070017707, -0.09469028) * go_0(0.0, 1.0);
result += mat4(-0.078361556, -0.0954201, -0.006358101, 0.040500037, 0.4190454, -0.17622913, -0.07234791, 0.05462559, 0.18641087, 0.058313597, -0.0180785, 0.13818781, -0.14640772, 0.0699486, 0.0073663946, -0.076789856) * go_0(1.0, -1.0);
result += mat4(-0.21421191, 0.08736062, 0.09041226, 0.03608585, 0.02769972, 0.09641289, 0.11824623, 0.05653645, 0.16464607, 0.19839554, -0.13379547, 0.054417104, 0.067530684, 0.18971571, 0.13785432, -0.097639814) * go_0(1.0, 0.0);
result += mat4(-0.32658005, -0.14606023, -0.069448665, 0.032998275, -0.28331423, 0.0011900732, -0.020304207, -0.13535896, 0.08298347, 0.045509677, -0.030503955, -0.037504148, 0.049955815, 0.0925771, 0.00058534974, -0.12398032) * go_0(1.0, 1.0);
result += mat4(-0.2955836, 0.29059318, -0.018196672, -0.35866606, -0.01309431, 0.03540315, 0.010609202, 0.11956812, 0.10296229, 0.22536302, 0.015201129, -0.23797737, -0.16960852, -0.11414787, -0.034440614, 0.112644605) * go_1(-1.0, -1.0);
result += mat4(-0.14952518, 0.07024436, -0.083184876, -0.0814617, -0.13303639, 0.016159372, -0.13521518, 0.2221334, -0.056617837, 0.12958299, 0.064461656, -0.20146395, -0.16023181, 0.2640758, 0.27528805, -0.1426518) * go_1(-1.0, 0.0);
result += mat4(-0.04382363, 0.09856003, -0.08561442, -0.15699928, -0.121069774, 0.04685383, -0.009170197, -0.031489655, 0.18730178, 0.238442, 0.22497098, 0.032015145, -0.03709115, 0.1535079, 0.21674158, 0.10678019) * go_1(-1.0, 1.0);
result += mat4(-0.12200952, 0.24224263, 0.034097504, -0.028179523, -0.011962496, -0.04489487, -0.05198827, 0.22194928, -0.045400873, -0.049828544, 0.111477956, -0.098361604, 0.12788995, -0.016093334, -0.19886433, -0.011161484) * go_1(0.0, -1.0);
result += mat4(0.30563712, 0.013071727, -0.004799883, 0.12888052, -0.259498, -0.041566677, 0.07311124, 0.162324, 0.28371668, -0.004693743, -0.0019395344, 0.029358242, 0.08730285, 0.12184509, 0.05508437, 0.048439097) * go_1(0.0, 0.0);
result += mat4(0.12760857, 0.115813166, -0.217695, -0.10629871, -0.227366, 0.09030426, -0.15313712, 0.020528946, -0.20743734, 0.088583544, 0.04594053, -0.22891994, 0.18949282, -0.042186577, -0.17330512, -0.010711361) * go_1(0.0, 1.0);
result += mat4(0.029503195, 0.0063797613, -0.17004286, -0.096844055, 0.010218098, 0.04247233, 0.02362808, 0.14700809, -0.08082364, 0.11159672, -0.018505255, -0.15228583, 0.15693732, -0.025359154, 0.024829186, 0.1943192) * go_1(1.0, -1.0);
result += mat4(-0.03912932, -0.21989027, 0.12203028, 0.18702275, -0.118537985, 0.21039696, 0.09102061, 0.012288879, 0.031666897, 0.1318455, -0.04901404, -0.07516063, -0.44782668, 0.04884501, 0.047070876, 0.008728358) * go_1(1.0, 0.0);
result += mat4(-0.08669101, 0.3053463, -0.08963947, 0.0034188698, -0.070004664, 0.064788476, 0.093737036, 0.070050925, 0.12728429, -0.13179256, -0.014913502, 0.09308136, -0.027638942, 0.008638711, 0.08794172, -0.05531093) * go_1(1.0, 1.0);
result += mat4(0.0728421, 0.07872358, 0.11454748, 0.08497922, 0.071820416, -0.11789207, -0.08184197, 0.1359588, -0.2143346, -0.05876081, 0.023172129, -0.08430511, -0.19276723, 0.14283359, 0.15604696, -0.055187486) * go_2(-1.0, -1.0);
result += mat4(0.068641685, 0.2732106, -0.2809107, 0.12736696, -0.08642367, 0.023898933, -0.17859498, -0.18299665, -0.06684587, -0.12204666, 0.45898953, -0.24240111, 0.25182098, -0.04395751, 0.10637211, -0.22135144) * go_2(-1.0, 0.0);
result += mat4(0.0852072, 0.051133018, 0.03333165, -0.0008938216, 0.10251267, 0.0550774, 0.041769378, -0.21259712, 0.286912, 0.123342015, 0.282759, -0.0730124, 0.14275575, -0.15580742, -0.15224406, 0.045376908) * go_2(-1.0, 1.0);
result += mat4(0.03328225, 0.11563978, -0.07451964, 0.030546209, -0.04698351, -0.18544962, 0.037350416, 0.13969816, 0.0556746, -0.06359919, 0.06478219, -0.031694926, 0.13396506, 0.09443612, -0.01922686, -0.06290365) * go_2(0.0, -1.0);
result += mat4(0.07495407, 0.063429266, -0.106221214, -0.085107304, 0.2497817, -0.46598253, -0.18833177, -0.2731128, -0.13024822, 0.56053543, 0.055704467, -0.12331414, -0.031199086, 0.05061188, 0.22097112, -0.6611177) * go_2(0.0, 0.0);
result += mat4(0.08276988, -0.044184342, -0.03562185, -0.06159881, 0.27694225, -0.07192965, -0.08663714, 0.020221777, 0.14095962, -0.06229397, 0.051374253, -0.038158998, 0.10664802, -0.041305423, 0.051260717, -0.054698635) * go_2(0.0, 1.0);
result += mat4(0.12800686, 0.03485072, 0.039914366, 0.034041498, -0.08305794, -0.046292894, 0.22765331, 0.10904922, 0.0013937047, -0.08750301, 0.009126207, -0.065589435, 0.2837707, 0.08884436, -0.07234862, -0.093502745) * go_2(1.0, -1.0);
result += mat4(0.113439895, 0.06081726, 0.1122302, -0.022936966, 0.10329637, -0.31816107, -0.051597945, 0.23846027, -0.083913095, -0.29872265, -0.040147282, -0.08981918, -0.04329814, -0.12339693, -0.034489952, 0.013393211) * go_2(1.0, 0.0);
result += mat4(0.33091688, 0.1726297, 0.034332044, -0.091396205, 0.15434311, -0.0022870845, -0.15506189, 0.08710491, -0.16063525, 0.042252056, 0.017086457, 0.08134797, 0.08631321, 0.037843138, 0.088296555, 0.0064518084) * go_2(1.0, 1.0);
result += mat4(0.09161051, 0.114355795, -0.15304486, -0.030537153, 0.1835368, -0.3287635, 0.031197926, 0.09717476, 0.04276852, 0.113250345, 0.05949038, -0.10599563, 0.43574792, -0.060788117, 0.18409383, 0.12678055) * go_3(-1.0, -1.0);
result += mat4(-0.018356865, -0.0072578182, 0.12020777, -0.013127592, 0.20136636, -0.22984362, 0.06896224, 0.00044982752, 0.008428429, -0.123316936, -0.09989286, 0.078248784, -0.16313677, -0.003020313, -0.46285018, -0.08967125) * go_3(-1.0, 0.0);
result += mat4(-0.03451497, -0.10864502, 0.13207638, 0.17194521, 0.0037514758, -0.20222199, -0.12535086, 0.001511977, 0.056294486, -0.2112898, 0.078261316, 0.10118746, -0.044742294, 0.21793383, -0.19927903, -0.21338293) * go_3(-1.0, 1.0);
result += mat4(-0.034903776, -0.10167085, 0.031066334, 0.0379958, 0.20532596, -0.17457838, 0.16556816, -0.0021619152, 0.02682665, 0.03396325, -0.059273884, 0.1922813, -0.072151475, -0.010240544, 0.2302027, 0.12385962) * go_3(0.0, -1.0);
result += mat4(-0.20170145, -0.08203941, -0.028107846, -0.18003726, 0.44744352, -0.13190243, 0.13233365, 0.03626546, 0.085763134, -0.25613126, -0.11213388, 0.15529087, -0.271649, 0.050587676, -0.062583975, 0.057289865) * go_3(0.0, 0.0);
result += mat4(-0.040649455, -0.17949733, 0.35847965, -0.040587306, 0.24314344, -0.23811667, 0.13958354, 0.04961874, 0.09858903, -0.04202913, -0.21850993, 0.0700419, -0.09130745, -0.096835814, 0.0022782686, -0.25416258) * go_3(0.0, 1.0);
result += mat4(-0.08215545, -0.019647893, 0.055263475, 0.053733055, 0.098485716, -0.1041945, -0.06541415, -0.08868577, -0.07262986, 0.03513784, -0.110529095, -0.03369232, 0.056786604, 0.2569229, -0.05931065, -0.22081214) * go_3(1.0, -1.0);
result += mat4(0.066926084, 0.029664058, -0.10779271, 0.11026963, 0.23927264, -0.16914488, 0.022947345, 0.12303853, -0.07066212, -0.013205378, 0.15348643, 0.035568032, 0.20966691, 0.010149819, -0.08814468, -0.064854674) * go_3(1.0, 0.0);
result += mat4(0.11493852, -0.074924305, -0.14840698, -0.16956823, 0.056806292, -0.06387947, -0.06880271, -0.04637334, -0.1929893, 0.18226422, 0.064644486, -0.1594863, 0.027403917, 0.13951495, -0.06569123, -0.07700207) * go_3(1.0, 1.0);
result += vec4(-0.043347504, -0.20504741, -0.037821215, -0.014486937);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!SAVE conv2d_5_tf1
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.047881734, -0.09396414, -0.2839081, 0.3140853, 0.052613556, 0.09940423, 0.23960467, -0.022228222, -0.12065009, 0.07898222, 0.08657881, 0.010852739, -0.050450284, 0.01683982, 0.031813968, 0.053060856) * go_0(-1.0, -1.0);
result += mat4(-0.10252411, -0.03116448, -0.30114275, -0.0316799, -0.017501019, -0.03006003, -0.2095696, 0.10134927, -0.3901916, -0.15335023, -0.11955071, 0.1337449, 0.101239376, -0.25044814, 0.2128469, 0.018979514) * go_0(-1.0, 0.0);
result += mat4(-0.13392173, 0.052036732, 0.1682114, -0.026263753, 0.027221246, -0.15121374, 0.13723798, 0.08950682, -0.1182108, -0.07294226, 0.023392374, 0.052329235, -0.05632852, -0.07036173, 0.06872573, 0.05238042) * go_0(-1.0, 1.0);
result += mat4(0.18112028, 0.18242362, -0.06812871, 0.032463413, 0.124638766, -0.26765212, -0.07678663, 0.33806562, 0.09674393, 0.15574542, 0.23634006, -0.02873782, -0.1626769, -0.14760062, -0.007274849, 0.09866139) * go_0(0.0, -1.0);
result += mat4(-0.10726673, -0.10925056, 0.19967109, -0.19936769, 0.15942842, -0.14870064, 0.15493345, -0.08489036, -0.49053356, -0.17321263, 0.28426084, 0.18721215, -0.09898434, -0.2751838, -0.11833524, 0.028445128) * go_0(0.0, 0.0);
result += mat4(-0.11788817, -0.23724948, -0.046072144, 0.035621114, 0.04527003, -0.0073492974, 0.11097195, 0.06806836, 0.04814677, -0.1408476, -0.1325629, 0.00929532, -0.16699041, -0.03034791, 0.08320368, -0.15429299) * go_0(0.0, 1.0);
result += mat4(0.2729515, 0.008244692, -0.17441982, -0.39026466, 0.17381759, 0.31194404, 0.055934936, 0.20744409, 0.20119062, 0.0734271, 0.0796807, 0.0031037466, -0.0016392237, 0.033733975, 0.07149338, 0.042083208) * go_0(1.0, -1.0);
result += mat4(0.07985744, 0.10945015, 0.018472541, 0.1397503, 0.2005682, 0.42641, 0.23022486, -0.2916921, 0.028285174, -0.31885162, -0.27070364, -0.10390779, 0.0751492, 0.12752363, -0.2279459, 0.08998453) * go_0(1.0, 0.0);
result += mat4(0.18450491, -0.140783, -0.008006845, 0.09029298, 0.12536179, 0.26949662, 0.09491545, 0.063907005, 0.11212244, 0.09778506, -0.1835966, -0.053119674, 0.0072294096, 0.25018227, 0.010868525, -0.22721334) * go_0(1.0, 1.0);
result += mat4(-0.028011927, -0.20073172, 0.5976166, -0.19494139, 0.17958745, -0.03838646, 0.058325976, -0.29409218, -0.12793432, 0.03245129, 0.35662368, -0.05048354, -0.13368197, -0.06151968, -0.012714591, -0.1763054) * go_1(-1.0, -1.0);
result += mat4(0.18468465, 0.31682113, 0.12818255, -0.117110476, 0.13709468, -0.10034022, -0.07994527, -0.1259309, 0.04067299, -0.1147398, 0.28361055, 0.27916273, 0.03696692, 0.16829546, 0.27819383, 0.08305029) * go_1(-1.0, 0.0);
result += mat4(-0.28920117, -0.033877946, 0.01586206, 0.04681198, 0.024248574, -0.045777842, -0.03342128, 0.07525412, -0.063377544, -0.016737273, 0.11235511, -0.04325238, -0.24170023, -0.09993599, -0.03205371, 0.14339828) * go_1(-1.0, 1.0);
result += mat4(-0.008357902, -0.11038377, 0.03709221, 0.26775306, 0.07963845, -0.25377446, -0.17630441, -0.10966474, 0.057311732, -0.083327, 0.044497233, 0.06903858, -0.26531395, -0.103399664, -0.14806591, 0.269314) * go_1(0.0, -1.0);
result += mat4(0.05450808, -0.041993964, -0.07217651, 0.034468375, 0.2117634, 0.0075620585, 0.05825411, -0.2252478, -0.0527787, 0.049732126, -0.032040413, -0.09361454, 0.29585132, 0.018413153, 0.18384546, -0.024226356) * go_1(0.0, 0.0);
result += mat4(-0.031109914, 0.19351351, 0.07405522, -0.06313074, -0.09983541, -0.011495182, 0.11749038, -0.16775608, 0.2790974, -0.09338754, 0.07913264, 0.103792936, -0.18679164, -0.15639925, 0.112943865, 0.07930375) * go_1(0.0, 1.0);
result += mat4(0.004106195, -0.036833283, 0.12908752, 0.12869535, -0.02472107, 0.17561707, -0.025890926, -0.18789047, 0.096218705, -0.16306408, -0.02198454, -0.010134957, -0.09710009, 0.002062143, -0.046785697, 0.0029441968) * go_1(1.0, -1.0);
result += mat4(0.19648251, -0.015663045, -0.0730215, 0.028611008, 0.13529862, -0.015256192, -0.04119306, -0.24628192, 0.02601027, -0.21184283, -0.1962902, 0.09109358, -0.06792383, 0.092336476, 0.12215351, -0.08596062) * go_1(1.0, 0.0);
result += mat4(-0.17530201, -0.0351919, -0.31872514, -0.13933206, -0.07000922, -0.049807087, 0.0010997375, -0.033573963, 0.07442056, -0.33290103, -0.40381998, 0.09435, -0.3280128, -0.09953127, -0.11283648, 0.20685865) * go_1(1.0, 1.0);
result += mat4(-0.052573867, -0.035328753, -0.11132943, -0.17515652, 0.05021051, 0.058642425, -0.046640664, 0.0799107, -0.027398815, -0.33619994, -0.22135767, 0.07894002, -0.14941697, -0.0940996, -0.11655085, 0.049795926) * go_2(-1.0, -1.0);
result += mat4(-0.039301276, 0.041062318, 0.20312686, -0.009338705, 0.013706282, -0.0245852, 0.03458311, 0.09601228, -0.18203016, -0.012260314, 0.17984508, -0.056576703, -0.102844186, 0.24047872, 0.05307189, 0.16066082) * go_2(-1.0, 0.0);
result += mat4(0.1478775, 0.0046362123, 0.05459521, 0.07162838, -0.01896149, 0.23700175, -0.14174299, 0.06988599, -0.32545477, -0.08065096, -0.061227743, -0.0010796773, 0.094327345, -0.20760082, -0.19523263, 0.19859222) * go_2(-1.0, 1.0);
result += mat4(-0.049676366, -0.10381536, 0.02546116, -0.13127093, 0.10954914, 0.0048147943, 0.06962328, -0.30456528, -0.11956627, 0.0150488885, -0.10711722, 0.1684613, -0.1939089, -0.10577047, -0.11980919, -0.036988296) * go_2(0.0, -1.0);
result += mat4(-0.054795764, 0.09491116, -0.08494948, 0.059765853, 0.0131597435, 0.20786162, 0.11999637, 0.024381055, 0.22830428, 0.027053319, -0.011646274, -0.12145409, -0.07899559, -0.012688263, 0.10684157, 0.3824219) * go_2(0.0, 0.0);
result += mat4(-0.23994572, -0.0031532666, -0.0050638164, 0.14236279, 0.05690383, -0.06259682, 0.052624144, 0.20461404, -0.19230312, -0.11072268, 0.013023965, 0.08931543, -0.21997221, 0.11760443, -0.40943825, 0.28656834) * go_2(0.0, 1.0);
result += mat4(-0.06606179, 0.26007771, 0.033754125, 0.119690455, 0.024669139, -0.06752839, 0.12688096, -0.0063201943, -0.17123021, 0.07548857, -0.14213699, 0.034093797, -0.15632647, -0.123243414, -0.42634043, 0.1715022) * go_2(1.0, -1.0);
result += mat4(-0.046503466, 0.13876389, 0.17973013, -0.25938338, -0.18824704, -0.11876702, 0.31065792, -0.041042212, -0.061369427, 0.2057992, 0.17295738, 0.3836555, -0.21109799, -0.10167118, 0.16577047, 0.113483034) * go_2(1.0, 0.0);
result += mat4(-0.24534856, -0.014482421, 0.22515748, -0.12773542, 0.12794174, -0.02528619, 0.41710484, 0.09154934, -0.17805946, -0.25428918, 0.07294183, 0.047079418, -0.30949152, -0.08919157, 0.17888431, 0.17706038) * go_2(1.0, 1.0);
result += mat4(-0.1741826, 0.046225294, -0.10761791, 0.2619953, 0.007373745, 0.05104337, -0.22309966, 0.34529984, -0.034363825, -0.022187237, -0.08609555, 0.16842419, 0.28136057, 0.17843607, -0.11307746, -0.05668021) * go_3(-1.0, -1.0);
result += mat4(-0.12310616, -0.29661375, -0.10581025, -0.049584012, 0.19651765, 0.08436489, -0.14533581, -0.029874112, -0.15422897, -0.062741704, -0.22694711, -0.15547274, -0.15181333, 0.0286061, 0.022438493, -0.062447168) * go_3(-1.0, 0.0);
result += mat4(0.3497046, -0.09455009, 0.060618952, -0.2134236, 0.054515295, 0.07451165, -0.09267233, -0.010513333, 0.13842636, 0.11563433, -0.054750167, 0.050432, 0.1514256, 0.04284002, -0.2095581, 0.07907657) * go_3(-1.0, 1.0);
result += mat4(-0.11745651, -0.04717057, 0.085377194, -0.065956995, 0.07280491, 0.2730059, 0.11088276, 0.2437957, 0.14018989, 0.1164107, -0.09516929, 0.0022427947, 0.111544006, -0.0680495, 0.09324579, -0.12482022) * go_3(0.0, -1.0);
result += mat4(-0.07995795, -0.03387884, 0.019846136, 0.10231208, -0.07017192, 0.18659039, 0.035161644, 0.101182766, -0.14901665, 0.21307294, 0.063894205, -0.27546507, -0.24792959, -0.067731075, 0.13146006, -0.19333683) * go_3(0.0, 0.0);
result += mat4(0.034206454, 0.1472648, -0.07406727, 0.014654025, 0.18703444, 0.1319857, -0.10610886, 0.08427947, -0.017536618, -0.06487879, -0.12095286, -0.050414838, 0.03260879, 0.1558894, -0.031887084, 0.11840288) * go_3(0.0, 1.0);
result += mat4(0.114811294, -0.14574333, -0.09392587, 0.042283528, 0.08919092, 0.18259068, 0.0980717, 0.21024778, -0.1280008, -0.027260462, -0.1129027, 0.18722472, 0.13733985, 0.047153983, 0.030871978, 0.1998385) * go_3(1.0, -1.0);
result += mat4(-0.06783575, 0.004612595, 0.1153467, -0.11531557, -0.048889533, 0.07673577, -0.02041786, 0.22744459, -0.13092506, 0.13484807, 0.40003043, -0.053706612, -0.16985156, -0.04791236, -0.052443005, -0.08363625) * go_3(1.0, 0.0);
result += mat4(0.18187882, 0.017893985, 0.17856054, 0.005413129, 0.014147176, 0.15102178, 0.12436294, -0.02176765, -0.16727823, -0.0364111, 0.17074408, 0.12899421, 0.31984514, -0.0072070034, 0.031895883, -0.1991405) * go_3(1.0, 1.0);
result += vec4(-0.011865144, 0.11717201, -0.13823777, -0.059450272);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!SAVE conv2d_6_tf
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.082203194, 0.021720003, 0.03725474, -0.08048348, 0.2063248, -0.033020593, -0.17585336, 0.06476272, 0.012244563, 0.026554609, 0.014708393, 0.26606125, 0.14248778, 0.12817341, -0.039826933, -0.12751861) * go_0(-1.0, -1.0);
result += mat4(0.24573852, 0.19695967, -0.06257417, -0.04782871, 0.3511875, -0.018083302, -0.077342674, 0.15247667, 0.20321761, -0.07479984, -0.09548503, 0.08109568, -0.23808748, 0.07246303, -0.004242619, 0.16162953) * go_0(-1.0, 0.0);
result += mat4(0.13296306, 0.19495387, 0.009222276, 0.033592198, 0.20443891, 0.16063854, -0.2581601, -0.016132578, -0.2296461, -0.23647323, -0.15407176, -0.18265317, 0.2343241, -0.049697313, -0.09398783, 0.41931856) * go_0(-1.0, 1.0);
result += mat4(-0.10866088, -0.40605694, -0.0042648134, 0.07943803, 0.26914695, 0.14816476, 0.037706107, -0.123223364, -0.19962949, -0.053534556, -0.08397409, -0.04244924, -0.075791344, 0.29629225, 0.2311928, 0.099177904) * go_0(0.0, -1.0);
result += mat4(-0.1748319, -0.2003186, -0.32659066, -0.21007413, 0.20122464, 0.032196607, -0.026299698, 0.33395135, 0.11411664, 0.05971959, 0.09001304, -0.15936212, 0.012322024, 0.19936106, -0.411186, -0.08319479) * go_0(0.0, 0.0);
result += mat4(-0.07349218, 0.006184436, 0.096199185, -0.050186496, 0.064047046, -0.03813128, -0.057007037, -0.025550695, -0.2863145, -0.008512981, -0.20615962, 0.18009211, 0.008298396, 0.22452813, 0.010843521, 0.20169461) * go_0(0.0, 1.0);
result += mat4(0.2691149, 0.059546687, 0.08922005, 0.2252196, 0.30341956, -0.024489028, 0.087045394, -0.03856442, -0.14083561, -0.17683443, 0.14137806, 0.15520614, 0.2073925, -0.19525874, 0.23661858, 0.3098405) * go_0(1.0, -1.0);
result += mat4(0.006530723, 0.04180736, -0.04762067, -0.064395495, 0.02396811, -0.13332283, 0.0037775645, 0.026309434, 0.0033065109, -0.08315753, 0.02917419, 0.12330464, 0.22819455, -0.07489677, 0.12829056, -0.097994626) * go_0(1.0, 0.0);
result += mat4(-0.09983759, 0.032783493, 0.11085758, 0.08993078, -0.057110567, -0.018973934, -0.14946178, -0.03921629, 0.039757587, 0.015860094, 0.04989561, -0.19634786, 0.04351146, 0.019315343, 0.25972188, 0.17989321) * go_0(1.0, 1.0);
result += mat4(-0.04111906, -0.165601, 0.0003682197, -0.056232415, -0.32716644, -0.24015541, -0.057547837, 0.05966729, 0.06854747, 0.03599213, -0.18798864, 0.1183447, 0.014268468, -0.1310834, 0.06415977, -0.19414157) * go_1(-1.0, -1.0);
result += mat4(-0.00070661673, 0.17671427, 0.10584568, -0.060910843, -0.104282066, -0.22676118, -0.01907062, 0.24882245, -0.043454725, 0.07691623, -0.48371696, 0.013537671, -0.025488405, 0.061228953, 0.18548754, 0.028671112) * go_1(-1.0, 0.0);
result += mat4(-0.0121596735, 0.09595702, -0.08244918, -0.1176173, 0.26773354, -0.021729136, 0.075465776, -0.0928876, 0.12461298, 0.16830076, -0.15302569, 0.113850676, 0.09811088, 0.13006307, 0.24999009, 0.10261325) * go_1(-1.0, 1.0);
result += mat4(-0.032246377, 0.038265374, -0.26476422, -0.1442876, -0.19866082, 0.08649541, 0.041478764, 0.11155026, 0.21576422, -0.09572912, -0.11174068, -0.19722937, -0.15801935, 0.29604745, -0.08606268, -0.15532136) * go_1(0.0, -1.0);
result += mat4(-0.06315591, 0.16151646, -0.009230362, -0.04341246, 0.09085519, 0.21924476, 0.38044852, 0.193819, 0.16622902, 0.0025134624, -0.22688466, -0.025276015, 0.07714917, 0.16302192, -0.11767101, -0.11086476) * go_1(0.0, 0.0);
result += mat4(-0.04170153, 0.001859292, -0.26352355, 0.10982333, -0.031867817, 0.15773517, -0.060263418, 0.11117763, -0.017359972, 0.0127261225, 0.0782802, -0.16908924, 0.080516845, -0.05691526, -0.07530135, -0.14553802) * go_1(0.0, 1.0);
result += mat4(0.06112685, -0.032287434, 0.17445667, -0.044935808, -0.11449107, -0.051394563, -0.029589338, -0.14555557, 0.03440661, 0.11035615, -0.17175, -0.14851089, 0.037362, -0.18740481, 0.17278154, 0.18073405) * go_1(1.0, -1.0);
result += mat4(-0.27670652, 0.19484822, 0.2609349, 0.1455016, 0.04438468, 0.1449185, 0.11185832, -0.18598269, -0.019846648, 0.11886126, -0.098498635, 0.15737785, 0.011406795, -0.18860829, -0.13705735, 0.17535745) * go_1(1.0, 0.0);
result += mat4(-0.30244905, -0.28695273, 0.1146976, 0.21144345, -0.037980128, -0.027679864, -0.13992494, -0.04884521, -0.032023884, -0.07921183, -0.16042095, -0.06935386, -0.06570237, -0.1107404, -0.018163798, 0.22625941) * go_1(1.0, 1.0);
result += mat4(-0.07292955, -0.07321777, -0.045146503, -0.33291966, -0.096732594, -0.07203495, 0.33692798, 0.2870733, 0.122160144, -0.076574564, 0.042844944, 0.26448342, 0.07672146, -0.028775277, -0.12088313, 0.15583947) * go_2(-1.0, -1.0);
result += mat4(0.21589327, 0.05258274, 0.09705794, -0.024653846, -0.039402515, 0.28485695, 0.14711736, -0.10556087, -0.15140481, 0.09039498, 0.017308712, 0.11862922, 0.08230978, 0.21678248, -0.043815188, -0.226433) * go_2(-1.0, 0.0);
result += mat4(-0.029258793, 0.26618922, 0.02564014, -0.23189862, -0.24074338, -0.18556763, 0.25973624, 0.04746873, 0.0137007125, -0.22239363, -0.12414957, 0.048228756, -0.22406264, 0.282667, -0.021001073, -0.17465611) * go_2(-1.0, 1.0);
result += mat4(0.32401654, -0.1495363, -0.20869227, 0.04271639, -0.0087802755, 0.031325378, 0.23834595, 0.039336167, 0.17265107, 0.20947595, 0.28737286, 0.0028783784, -0.057340365, -0.050347418, -0.11915604, -0.1831807) * go_2(0.0, -1.0);
result += mat4(0.1811338, 0.07732653, 0.20975596, -0.47129005, 0.07121942, 0.08410583, 0.44170937, -0.19524159, -0.17807977, 0.12837476, 0.20816846, -0.1741958, -0.04411918, 0.06024972, 0.18159702, -0.052485272) * go_2(0.0, 0.0);
result += mat4(-0.15229738, 0.27513, 0.28150418, -0.19543962, -0.02045864, -0.07207227, 0.09589587, 0.09110817, 0.061413247, 0.0046052113, 0.11619411, -0.2988938, 0.065739445, 0.10205611, 0.12847126, -0.028355654) * go_2(0.0, 1.0);
result += mat4(0.0657154, -0.047568597, -0.16148911, 0.16392621, -0.25281775, -0.061153214, 0.017480455, -0.026288848, 0.20319715, 0.04763355, 0.010444491, -0.26671803, -0.25821987, 0.32863674, -0.30734694, -0.18190521) * go_2(1.0, -1.0);
result += mat4(-0.042703815, 0.06633036, -0.048434302, -0.17176376, -0.12699759, -0.1124558, 0.083266065, 0.03354623, -0.13468939, 0.12706263, 0.053659134, -0.06930602, 0.008196115, 0.2034998, -0.06351442, -0.039730288) * go_2(1.0, 0.0);
result += mat4(0.09614661, 0.22500272, 0.088511504, -0.16960482, 0.15364788, -0.18854137, -0.13163191, -0.07503735, -0.23177068, -0.0053305267, -0.041978605, 0.0971947, -0.049034655, 0.04486706, 0.09076307, -0.02310868) * go_2(1.0, 1.0);
result += mat4(-0.1304683, 0.17743458, -0.09817326, -0.0646786, 0.07886976, 0.20109388, -0.034114968, -0.2029261, -0.03348398, 0.029337432, -0.07302782, -0.02240758, 0.030242773, -0.30032325, 0.02085572, -0.027314361) * go_3(-1.0, -1.0);
result += mat4(-0.037377544, 0.026350772, -0.07430488, -0.114671774, -0.126935, -0.046512567, -0.033628833, -0.19018382, -0.041053895, -0.031206857, 0.08562848, -0.01875709, 0.21099389, -0.092511, 0.0073047103, -0.009811013) * go_3(-1.0, 0.0);
result += mat4(0.11358029, 0.17468451, -0.12739041, -0.14332245, -0.22230148, 0.16862972, -0.04462456, 0.2469604, -0.008622369, 0.0081848325, -0.17032363, -0.16024362, 0.21178265, 0.037127133, 0.08559072, 0.11584694) * go_3(-1.0, 1.0);
result += mat4(0.008993893, -0.08037705, 0.4426555, 0.15593371, 0.15273719, -0.03249998, 0.055109, -0.1512612, -0.037183985, 0.20825677, -0.08516227, -0.06664223, -0.10011001, -0.3505215, -0.17941694, 0.052089088) * go_3(0.0, -1.0);
result += mat4(-0.109703645, -0.13505603, 0.1336451, 0.13118869, 0.010915504, 0.12748592, 0.21201555, -0.40841985, -0.11059143, 0.033772044, -0.039282143, 0.03095394, 0.10394723, -0.21343367, -0.10699851, -0.028351074) * go_3(0.0, 0.0);
result += mat4(0.019704714, 0.06243651, 0.09896519, -0.17492259, 0.012675787, -0.004239029, 0.21319824, 0.069183126, -0.0071114586, 0.123431124, -0.24479835, 0.00723795, -0.045293927, 0.014101029, 0.15746681, 0.042405806) * go_3(0.0, 1.0);
result += mat4(0.023828225, -0.0015190929, 0.1194638, 0.082163885, 0.10532113, 0.042044062, 0.02528007, 0.015175004, 0.026613194, 0.33525538, -0.1627064, -0.29887968, -0.197707, 0.038967777, -0.15811683, -0.106895216) * go_3(1.0, -1.0);
result += mat4(0.044362027, -0.04946742, -0.14815849, -0.17660522, -0.034201477, -0.012243106, -0.050183997, 0.06407372, 0.039822515, 0.15880872, -0.0672721, -0.4081093, 0.019489579, -0.060278706, -0.015096743, -0.07799167) * go_3(1.0, 0.0);
result += mat4(0.11861756, 0.27113584, -0.14107186, -0.10246008, -0.124051, -0.1627854, 0.10698585, 0.2846401, -0.061731786, 0.1724438, -0.12428688, -0.09986041, -0.034171514, -0.07100923, 0.041739646, -0.11308375) * go_3(1.0, 1.0);
result += vec4(-0.02981662, -0.26338395, -0.011632586, 0.15063232);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!SAVE conv2d_6_tf1
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.17082009, 0.031344634, -0.06131912, 0.00887183, -0.01528174, 0.12943709, 0.24537678, 0.008178781, -0.312396, -0.023583878, 0.07827866, -0.1231261, 0.15081584, -0.18161978, -0.25179705, -0.036934935) * go_0(-1.0, -1.0);
result += mat4(-0.05768411, 0.16785417, -0.1788644, -0.0067257965, 0.021445744, 0.10066516, -0.23864186, 0.1450302, 0.12892793, 0.19856106, -0.24444748, 0.16531628, -0.044425935, -0.02775357, 0.009059946, -0.12958384) * go_0(-1.0, 0.0);
result += mat4(-0.025798557, -0.17238182, -0.34056288, -0.20921059, -0.03576266, 0.1476854, -0.06264234, 0.14452787, -0.04130045, -0.07275762, 0.034578666, 0.2914669, 0.20879944, 0.21359251, -0.048695553, 0.2638088) * go_0(-1.0, 1.0);
result += mat4(-0.022791177, 0.4204545, 0.116855636, 0.20241925, -0.010444933, -0.14462502, 0.022550104, -0.24423064, -0.09417524, 0.045358784, -0.11405829, 0.035979558, -0.2283092, -0.06670842, -0.23852053, -0.22417003) * go_0(0.0, -1.0);
result += mat4(-0.14526704, 0.040880535, 0.14076385, 0.07795045, -0.059177604, -0.13056375, -0.3373641, -0.19344307, -0.29891858, -0.32578763, -0.29061425, 0.1562214, -0.13578376, 0.36586633, 0.24936736, 0.054629393) * go_0(0.0, 0.0);
result += mat4(-0.025790233, -0.13020341, -0.10084969, 0.15767297, -0.09738769, 0.04034404, 0.0038675873, 0.043515608, 0.16899958, -0.29117966, 0.03420067, 0.14432564, -0.10473084, 0.21014084, 0.07775908, -0.09303797) * go_0(0.0, 1.0);
result += mat4(-0.07443987, -0.16225167, 0.036251917, 0.028432872, 0.03759333, 0.004027401, -0.033941846, 0.0019474924, 0.02357054, 0.30748722, 0.1652115, -0.17361522, 0.16905582, 0.08048018, -0.23639561, -0.029408466) * go_0(1.0, -1.0);
result += mat4(0.0461233, -0.09346199, -0.07063276, -0.19447634, -0.049339604, -0.0032855074, -0.22661209, -0.0543389, 0.11924857, -0.21691081, -0.1645725, -0.0075736847, 0.018572787, -0.06552861, -0.01777661, -0.11651732) * go_0(1.0, 0.0);
result += mat4(-0.06425901, 0.123392984, -0.16395192, -0.093448035, -0.029316641, 0.0986573, -0.23135012, 0.011170849, 0.00023920486, 0.15296175, 0.35453254, -0.05189021, 0.20708887, -0.103900835, 0.081992395, -0.21829562) * go_0(1.0, 1.0);
result += mat4(-0.019074136, -0.1572586, 0.27919227, 0.09119617, 0.035954695, 0.2941489, 0.18262725, -0.055522963, -0.21364328, -0.1573611, 0.104966134, 0.08228523, 0.19945285, -0.0039229114, -0.1565048, 0.028975379) * go_1(-1.0, -1.0);
result += mat4(-0.18501253, 0.006473006, 0.06637501, 0.04295065, 0.06411007, 0.1166344, -0.10060226, 0.46296063, -0.08600344, -0.03560105, 0.012215349, 0.017885283, 0.061346993, 0.17336361, 0.01935021, 0.20198092) * go_1(-1.0, 0.0);
result += mat4(-0.04451627, -0.10372061, -0.13968691, 0.14479733, 0.1660607, 0.19334625, 0.0085214665, 0.28863636, -0.07600901, -0.014777084, 0.13209191, -0.09045013, 0.104893915, -0.04776884, -0.007936376, 0.104568765) * go_1(-1.0, 1.0);
result += mat4(0.023751335, -0.108048, -0.050531313, 0.15916029, 0.13246661, 0.04644228, -0.09586482, -0.17222965, -0.22898191, -0.033484615, 0.078883134, -0.052609313, -0.2721741, 0.045986425, 0.13972299, -0.28923607) * go_1(0.0, -1.0);
result += mat4(-0.23364568, -0.008875902, -0.40894926, 0.060443908, -0.2839635, -0.5270991, -0.2500865, 0.002020195, -0.24488612, -0.04982319, -0.009110353, -0.018023955, 0.06647274, -0.25225738, 0.26154432, -0.033934146) * go_1(0.0, 0.0);
result += mat4(-0.1535129, -0.21257545, -0.16553773, 0.17471452, -0.06203719, 0.15238857, 0.18702018, 0.18572305, 0.07740396, -0.074217625, -0.072156586, -0.2183728, 0.00403749, 0.13750519, 0.30362993, 0.06550286) * go_1(0.0, 1.0);
result += mat4(0.37164542, -0.1980723, -0.15659203, 0.19498909, 0.01748114, 0.011807152, -0.05424202, 0.11926474, 0.050406165, -0.12925303, -0.020280985, 0.08429331, 0.14769496, -0.077555746, -0.15216178, -0.27070466) * go_1(1.0, -1.0);
result += mat4(0.35804263, 0.08539285, -0.14785156, -0.13532467, 0.058254432, 0.20448379, -0.006173341, 0.058168225, -0.21714899, -0.13472849, -0.09392532, -0.12753737, -0.097461835, -0.11419082, 0.09384189, 0.06414768) * go_1(1.0, 0.0);
result += mat4(0.023494452, -0.22187226, -0.16694295, 0.0204334, -0.26720086, 0.15916729, 0.3098874, -0.10292057, 0.008854983, 0.13375004, -0.04409455, 0.09286524, 0.095829524, 0.12427317, -0.048659876, 0.18300754) * go_1(1.0, 1.0);
result += mat4(-0.119153984, 0.10163183, 0.025017537, -0.40096784, 0.026778705, 0.15821172, -0.19947284, -0.33337715, 0.2952563, 0.16820388, -0.057061996, -0.029319009, -0.12184868, 0.09031512, 0.12028806, 0.021044692) * go_2(-1.0, -1.0);
result += mat4(0.086744264, -0.046958666, 0.2130253, -0.46672252, 0.07135636, 0.0100029735, -0.13828261, -0.012365689, -0.11374441, 0.21084632, -0.059631422, -0.013799735, -0.037889663, -0.10701892, -0.09493782, 0.15516634) * go_2(-1.0, 0.0);
result += mat4(0.031181194, -0.01535001, 0.029270316, 0.13128386, 0.11838377, -0.17051528, 0.12228499, -0.04841128, 0.33350074, -0.006144013, -0.09055018, 0.27470216, -0.26665646, -0.08703671, -0.01719071, -0.23449609) * go_2(-1.0, 1.0);
result += mat4(-0.12856458, 0.005562174, -0.19517267, 0.13270985, 0.2776414, 0.032003902, -0.15778573, 0.15344355, 0.26930434, -0.13459459, 0.035019353, 0.08896612, 0.12847935, -0.122637205, 0.001815178, 0.08290523) * go_2(0.0, -1.0);
result += mat4(0.33805037, -0.15318587, -0.20955376, -0.26121393, -0.026022578, -0.1617741, 0.1336867, 0.026223289, 0.012059392, -0.17295446, -0.060811974, 0.14027825, -0.21134059, -0.08408573, -0.23773228, 0.110836074) * go_2(0.0, 0.0);
result += mat4(0.16176093, 0.15307428, -0.07711325, -0.3458805, 0.061291527, 0.023916256, 0.21370678, 0.0015756418, 0.10642374, 0.24807373, 0.11164451, 0.10780487, 0.087194376, -0.2718231, -0.008457387, 0.054078236) * go_2(0.0, 1.0);
result += mat4(-0.03259038, -0.20923306, 0.165477, 0.098864526, -0.02734457, 0.08871225, -0.01552188, 0.047712058, 0.055032052, -0.13044262, -0.2899521, 0.22230095, -0.029343741, -0.16427459, -0.005436118, -0.05111821) * go_2(1.0, -1.0);
result += mat4(0.20065974, -0.1556366, -0.12620135, 0.44572976, -0.020925352, 0.12025185, 0.20588058, 0.06391864, 0.046870507, 0.16942503, -0.049370963, 0.008779016, 0.04954915, 0.090298936, -0.16466027, 0.011152038) * go_2(1.0, 0.0);
result += mat4(0.13587528, 0.047841422, 0.19804007, -0.1672396, -0.072491, 0.04543739, 0.25287256, 0.015226213, 0.02007356, -0.049578942, -0.08796175, 0.1714897, -0.07819061, 0.1509537, 0.093094915, 0.031139288) * go_2(1.0, 1.0);
result += mat4(-0.013774682, 0.118201815, -0.009592314, -0.10837201, -0.0686881, -0.083380274, 0.107689425, 0.046642892, 0.119898744, -0.05502989, -0.19719897, 0.0005697584, -0.0921928, 0.032281205, 0.2568853, 0.2325449) * go_3(-1.0, -1.0);
result += mat4(0.02991112, -0.09898633, 0.06076172, -0.20906185, 0.0026118348, 0.06130956, 0.06760944, -0.16662054, 0.065741204, -0.13144116, 0.011419801, 0.22552124, 0.1465757, -0.07417319, -0.10788749, -0.24952699) * go_3(-1.0, 0.0);
result += mat4(-0.19238451, -0.024058497, 0.19580396, -0.067399554, -0.18832864, -0.11752747, -0.078949094, -0.23762032, -0.04141864, 0.022530237, -0.02222157, 0.0054874527, 0.057746816, -0.34854797, 0.028730657, -0.08976777) * go_3(-1.0, 1.0);
result += mat4(0.16888975, 0.19949849, -0.08456147, -0.03619044, -0.019596824, 0.11214634, 0.13971676, 0.22926724, 0.03219445, -0.04566354, -0.14948955, -0.22817011, -0.08714846, -0.19684613, 0.15479128, 0.2433362) * go_3(0.0, -1.0);
result += mat4(0.16050309, -0.102841675, 0.20855242, -0.011171905, -0.10309409, 0.22455123, 0.15892951, -0.06582373, 0.010079549, -0.2055006, -0.09385158, 0.006519388, 0.11838815, 0.37134558, -0.165772, 0.12704434) * go_3(0.0, 0.0);
result += mat4(0.11643292, 0.03294274, -0.09800525, -0.13601723, -0.081318736, -0.059975546, -0.039105035, -0.2893635, -0.13024913, -0.058016162, -0.09961072, 0.10532414, 0.24250132, -0.35546342, -0.092634924, 0.093994915) * go_3(0.0, 1.0);
result += mat4(-0.18799333, 0.25611782, 0.014645917, -0.063751906, 0.06498416, 0.16619027, -0.14411639, 0.3914421, -0.07343631, -0.116468735, -0.10941946, -0.2553544, -0.37774643, -0.0018441634, 0.06827239, -0.0122299045) * go_3(1.0, -1.0);
result += mat4(-0.11884597, -0.2477297, 0.048488285, -0.06438257, -0.124703035, 0.25932777, 0.0650111, -0.0930877, 0.06463341, -0.000544085, 0.0147504965, -0.170097, -0.13241997, 0.20983136, -0.15956205, 0.03424298) * go_3(1.0, 0.0);
result += mat4(-0.034574904, 0.06755256, 0.09508443, -0.17162292, 0.046379335, 0.2178781, 0.08699012, -0.055380464, -0.2237568, -0.07427848, -0.028395249, -0.3225617, -0.084454566, -0.24776657, 0.254169, 0.13229847) * go_3(1.0, 1.0);
result += vec4(0.18765923, -0.07697714, 0.028134674, -0.060966115);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_7_tf
//!WIDTH conv2d_6_tf.w
//!HEIGHT conv2d_6_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_6_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_6_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_6_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_6_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.21919365, 0.36627784, 0.12603314, 0.24306288, 0.06447028, 0.06472204, -0.05997039, -0.15651788, 0.017059859, -0.006497198, -0.4189735, 0.021636713, -0.23887977, -0.014220949, 0.031113686, -0.17342716) * go_0(-1.0, -1.0);
result += mat4(-0.10818789, -0.03273837, 0.33918005, -0.19290088, 0.0955361, -0.34107623, -0.054906327, -0.18083344, -0.060723677, 0.24395694, 0.112975016, -0.07254578, -0.14389384, 0.13235968, -0.15054801, -0.26216486) * go_0(-1.0, 0.0);
result += mat4(-0.23442148, -0.07857079, 0.022283873, -0.2656417, 0.037092753, -0.037313666, -0.5057047, 0.042533103, -0.120424, 0.00021930189, -0.0044566668, -0.45536995, 0.00040759926, 0.14597592, -0.094990164, -0.036161344) * go_0(-1.0, 1.0);
result += mat4(0.15024352, 0.19903262, -0.0734784, 0.092836305, -0.025753846, 0.024750374, -0.07550193, 0.035420835, 0.11084378, 0.26119822, -0.08443512, -0.0047807065, -0.042685136, 0.24889739, 0.098650105, 0.2088369) * go_0(0.0, -1.0);
result += mat4(-0.25551823, 0.14455976, 0.19886157, -0.23465924, 0.20711218, -0.20875362, -0.11320392, -0.30852005, -0.06795657, 0.008670962, 0.30601278, 0.6929064, 0.17079145, 0.15744895, 0.06441601, 0.06514001) * go_0(0.0, 0.0);
result += mat4(0.03142604, -0.006410137, -0.023654792, -0.05708553, 0.062985405, -0.077010594, 0.078804865, 0.050882503, 0.010274228, -0.15558401, 0.09490256, 0.14964707, -0.11966925, -0.36176664, 0.27809814, -0.18862294) * go_0(0.0, 1.0);
result += mat4(0.05609992, 0.0041612233, -0.08498908, 0.04479823, -0.080117956, -0.17423204, -0.22858045, 0.054569032, -0.050866384, -0.020000307, 0.027000953, -0.67724514, 0.16240878, -0.04641204, 0.0648367, -0.20613132) * go_0(1.0, -1.0);
result += mat4(0.08542306, -0.08254248, -0.11090553, -0.14140448, -0.10788511, -0.13011602, -0.29319742, -0.26007155, 0.11033401, -0.31966573, 0.32668245, 0.19542319, 0.06329418, 0.20904626, 0.2724067, -0.009155685) * go_0(1.0, 0.0);
result += mat4(-0.007403411, 0.0012836396, -0.23446666, -0.03017208, 0.062420018, -0.13611084, -0.2975928, 0.13173148, -0.03679939, 0.13743873, -0.10121899, 0.074514665, 0.1497629, -0.09523838, 0.39018926, 0.37807035) * go_0(1.0, 1.0);
result += mat4(0.11441487, -0.19565523, -0.25757137, -0.16148767, 0.15575317, -0.12657928, 0.10479676, 0.062919036, 0.010544159, 0.22931573, 0.20360178, 0.4637635, -0.3395036, -0.52467215, 0.08759308, 0.028030418) * go_1(-1.0, -1.0);
result += mat4(0.2699195, -0.34218305, 0.15259695, 0.03139074, -0.024053533, -0.029567484, 0.28480124, 0.20525953, 0.15452823, -0.217713, 0.15861876, -0.012275699, 0.21408023, 0.097508304, -0.57126766, -0.14679857) * go_1(-1.0, 0.0);
result += mat4(-0.0755847, -0.09751562, -0.29480466, -0.22285318, 0.14196442, 0.114573136, -0.22294767, 0.12463806, 0.3322209, -0.04631724, -0.11097061, -0.27986854, -0.16099304, -0.060079545, 0.00299308, 0.120776065) * go_1(-1.0, 1.0);
result += mat4(0.050933484, -0.13776319, -0.18809728, 0.24035202, -0.32528606, -0.41684148, -0.029342847, 0.28642926, -0.07963454, -0.12905268, 0.07606093, 0.24670005, -0.08815598, -0.23320907, -0.008099349, 0.21512873) * go_1(0.0, -1.0);
result += mat4(0.19247563, 0.18083979, -0.09719762, 0.15314941, -0.22350982, 0.46515045, -0.3571128, 0.35953265, 0.06921985, -0.4482386, -0.18732521, -0.5043983, 0.35159567, -0.33315298, -0.21884166, -0.16283798) * go_1(0.0, 0.0);
result += mat4(-0.021124054, -0.007966742, 0.0052493825, 0.022550896, 0.030403977, 0.3377868, -0.47602004, -0.077664234, -0.07222509, -0.07486097, -0.37971064, -0.5107857, -0.06299477, 0.04930232, -0.3330487, 0.29845512) * go_1(0.0, 1.0);
result += mat4(-0.063705474, -0.07917637, -0.02026607, -0.05142568, 0.021577014, -0.07379867, 0.033937998, 0.08148773, -0.02717838, -0.03233838, 0.098000035, 0.036476444, -0.13366953, 0.014477577, 0.24064232, 0.39313284) * go_1(1.0, -1.0);
result += mat4(-0.16046515, -0.094624564, 0.35435164, 0.09942324, -0.07137174, -0.27999225, 0.124644354, -0.0062176553, 0.015016751, -0.05500243, -0.23249559, -0.4508382, 0.1860433, 0.10671491, -0.033345353, -0.06611453) * go_1(1.0, 0.0);
result += mat4(0.21614046, -0.01307525, -0.18941112, -0.20533535, -0.14481686, -0.47801897, 0.22605121, -0.20298961, -0.06744227, -0.20377496, -0.11926173, 0.15645133, -0.31570885, -0.3495616, -0.024666889, 0.040965475) * go_1(1.0, 1.0);
result += mat4(-0.11748018, -0.039976366, -0.00084064255, -0.028653437, -0.16216733, -0.036768105, 0.018064514, -0.0928936, 0.14008482, -0.064511225, 0.24329947, -0.0268608, 0.050330248, 0.08540601, -0.07272679, -0.01187671) * go_2(-1.0, -1.0);
result += mat4(-0.09459936, -0.011723822, -0.06952858, -0.07808506, -0.065588176, 0.332501, -0.0120042395, 0.07668016, 0.14735217, -0.14856043, -0.06702449, -0.020953184, -0.023006834, 0.06135422, 0.1491448, -0.028061569) * go_2(-1.0, 0.0);
result += mat4(0.25136968, 0.25146323, -0.108277924, -0.20407207, -0.0013780294, 0.16108194, 0.25143847, 0.06672421, -0.033905584, -0.021144686, -0.019152718, 0.34619498, 0.14560962, 0.034437314, 0.024790365, -0.049976267) * go_2(-1.0, 1.0);
result += mat4(-0.24928351, 0.12637813, 0.23609994, 0.12722939, -0.036997862, -0.16554876, 0.11144095, -0.10040036, -0.020359103, -0.080701865, -0.3142192, 0.27257237, 0.13546956, -0.14416885, 0.028196262, -0.2886465) * go_2(0.0, -1.0);
result += mat4(0.28524777, -0.4236231, 0.27420738, -0.21095508, 0.23475651, 0.115876295, -0.18837357, -0.0260708, 0.030670704, -0.11516913, -0.11365572, -0.2203149, -0.018612983, -0.10719593, -0.031727783, 0.1403327) * go_2(0.0, 0.0);
result += mat4(0.07240512, 0.03139215, 0.12328737, -0.021201206, -0.13971715, 0.072742075, -0.0011289873, 0.0053133667, 0.035639685, -0.04322272, -0.19288473, -0.15812221, -0.19126481, 0.0698514, 0.17619178, -0.035605464) * go_2(0.0, 1.0);
result += mat4(-0.18552057, 0.07259671, 0.011667668, -0.15630563, 0.11414356, 0.14482655, -0.04021029, 0.18495587, -0.11386139, -0.09058561, -0.011265998, 0.23358451, 0.0521358, 0.12495261, 0.021644838, -0.048094347) * go_2(1.0, -1.0);
result += mat4(-0.09222373, 0.0533347, 0.055820454, 0.22382596, 0.18713981, 0.2668916, -0.019384036, 0.012698582, 0.13325234, 0.20361474, -0.33106443, -0.08571572, -0.21243028, -0.10996386, 0.123459645, 0.1534967) * go_2(1.0, 0.0);
result += mat4(0.18133277, 0.18108074, -0.05638664, 0.29533157, -0.2108019, -0.033636626, 0.5015888, -0.15116066, -0.041320793, -0.14764231, 0.07314567, -0.18865979, 0.10276937, 0.094240844, -0.1364283, 0.27812913) * go_2(1.0, 1.0);
result += mat4(0.06040915, 0.23753685, 0.19019844, 0.23948252, -0.07535012, 0.11848904, 0.14389765, 0.050067905, 0.16150077, -0.030053454, 0.12478255, 0.26020208, 0.111198805, 0.06787492, -0.12771018, 0.006687384) * go_3(-1.0, -1.0);
result += mat4(-0.5421617, 0.10414128, -0.21526064, -0.08883624, 0.13145073, -0.29695904, 0.57386386, 0.073361695, -0.09538372, 0.27593842, 0.070922814, 0.21769938, 0.06214975, 0.11847816, 0.10033405, 0.29360098) * go_3(-1.0, 0.0);
result += mat4(-0.16294672, -0.014815565, 0.22046989, 0.16858687, 0.058917344, 0.21384977, 0.18803519, 0.105688855, 0.0355118, 0.20571202, -0.07341922, 0.26624045, -0.0415102, 0.050942056, 0.19727907, 0.20122413) * go_3(-1.0, 1.0);
result += mat4(-0.020470422, 0.15815964, -0.13437317, -0.1967045, 0.074902646, 0.08356444, 0.055913117, -0.12837863, -0.18647918, 0.07002247, 0.038864706, -0.07288784, 0.04135125, -0.016055549, -0.1340297, -0.15578008) * go_3(0.0, -1.0);
result += mat4(-0.07685624, 0.00079105416, -0.068755336, 0.110282525, -0.014170752, 0.041282844, -0.17035173, 0.19439398, -0.3036256, 0.024148455, -0.19566648, -0.06736254, 0.14203559, -0.13016985, -0.32845357, -0.14266774) * go_3(0.0, 0.0);
result += mat4(0.0087252045, 0.098839566, -0.08770506, -0.08499465, 0.015245115, -0.110854514, 0.054458305, -0.018121868, -0.09666134, -0.08316006, 0.24617113, -0.17195955, 0.2574254, 0.06734342, -0.13792352, -0.07306126) * go_3(0.0, 1.0);
result += mat4(-0.0073954533, -0.20126835, -0.22545357, -0.29462856, 0.057408337, 0.11939119, -0.01846476, 0.12534486, 0.15751605, -0.14282645, -0.14219986, 0.14283386, 0.14090413, 0.10500912, 0.03039335, 0.17448832) * go_3(1.0, -1.0);
result += mat4(0.043910783, -0.09140025, -0.21666165, 0.07616939, 0.104454786, 0.309926, -0.12906921, 0.1140117, 0.09372434, 0.049547072, -0.086615674, -0.034449168, 0.096705064, 0.26001686, 0.027063297, 0.12422948) * go_3(1.0, 0.0);
result += mat4(0.1365422, 0.2679611, 0.12037257, 0.43346113, 0.08223084, -0.016788265, 0.13570398, -0.017974345, -0.17922844, -0.09475725, 0.073539585, -0.106947675, 0.08998511, 0.04133868, 0.16586913, -0.26291734) * go_3(1.0, 1.0);
result += vec4(-0.19233678, 0.016725872, -0.008011114, -0.1977463);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_7_tf1
//!WIDTH conv2d_6_tf.w
//!HEIGHT conv2d_6_tf.h
//!COMPONENTS 4
#define go_0(x_off, y_off) (max((conv2d_6_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_6_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_6_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_6_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.36016628, 0.019064043, 0.3073228, 0.16891135, 0.026739368, 0.31136194, 0.11260383, -0.26918694, 0.0419928, -0.3365078, 0.20189743, -0.04136312, 0.039564647, 0.033199426, 0.18768296, -0.017119858) * go_0(-1.0, -1.0);
result += mat4(0.28663483, -0.41716507, 0.059281543, 0.043736435, 0.0028875466, 0.13817391, -0.12543318, -0.2794053, -0.023528943, 0.10610115, 0.09100278, 0.040132936, -0.21949205, -0.027810011, -0.0301218, 0.084047124) * go_0(-1.0, 0.0);
result += mat4(0.39674807, -0.0040878756, -0.038235947, 0.11880838, 0.009898328, 0.19107847, -0.009313831, -0.1554276, -0.047341663, 0.18049581, -0.029317195, 0.0708909, 0.0708316, -0.110617444, 0.14584038, -0.022261223) * go_0(-1.0, 1.0);
result += mat4(-0.20400241, 0.0896492, -0.010386381, -0.052133385, 0.005023956, -0.06628705, -0.16436209, -0.25345984, -0.05285192, 0.09706557, -0.03778914, -0.152546, 0.17023252, 0.063713826, 0.00743037, 0.056634087) * go_0(0.0, -1.0);
result += mat4(-0.080793336, 0.4204207, 0.19098237, 0.20028038, -0.054076545, 0.22064368, -0.25853387, -0.3643562, 0.2085573, -0.023731, -0.06727709, -0.18683033, -0.18032159, -0.06388348, 0.304463, -0.2517781) * go_0(0.0, 0.0);
result += mat4(0.11940941, 0.10624008, 0.16120581, 0.2369602, 0.3321827, 0.4272075, -0.10403669, -0.31388018, -0.006372124, -0.00653671, 0.109810196, 0.2277172, 0.005771998, 0.086026914, -0.08934813, -0.094941735) * go_0(0.0, 1.0);
result += mat4(-0.13233568, 0.24112508, -0.0068006413, 0.12466225, 0.11396591, -0.07249253, -0.29090378, -0.12828146, -0.22001141, -0.08532405, -0.11932601, 0.29452974, 0.09572195, 0.017603843, 0.12454017, 0.16321751) * go_0(1.0, -1.0);
result += mat4(0.042107448, -0.00807216, 0.06580674, -0.1289527, 0.13977426, -0.037159685, -0.21001346, -0.08698161, 0.22370502, -0.29170328, 0.2179206, 0.36621302, 0.0825477, -0.016513655, -0.11157249, 0.12861598) * go_0(1.0, 0.0);
result += mat4(0.2246826, -0.13262233, 0.12131653, -0.15522355, 0.38104856, 0.030237729, 0.1286289, -0.19770473, -0.16175011, -0.13688888, 0.23505463, 0.21333031, 0.76352316, -0.17949077, -0.13124311, 0.1613879) * go_0(1.0, 1.0);
result += mat4(-0.050607495, 0.0846705, -0.06136092, -0.033436477, 0.41138348, 0.037043408, -0.02676336, -0.37771952, 0.22147503, 0.06490757, -0.04266158, -0.22606373, 0.045775007, -0.054498192, -0.21495876, -0.036050417) * go_1(-1.0, -1.0);
result += mat4(-0.06242522, 0.2700824, -0.05602621, -0.12361551, 0.14477442, 0.19403581, 0.23505251, -0.072234035, -0.15831544, 0.4640447, -0.104754634, -0.004539681, -0.20246096, 0.23216484, -0.35886365, 0.11360777) * go_1(-1.0, 0.0);
result += mat4(0.14777757, 0.18951412, 0.027219458, 0.11216015, 0.02997997, -0.13466355, -0.0010830094, 0.021302953, 0.23441231, -0.14529245, 0.08068729, 0.10044398, 0.3972878, 0.26570204, 0.0046810666, -0.2863261) * go_1(-1.0, 1.0);
result += mat4(-0.10385485, 0.1053724, 0.16961229, 0.20727012, -0.025148917, -0.011365095, 0.03899919, -0.030950211, 0.079080455, -0.32767853, 0.064670205, -0.035771385, 0.16833797, -0.21567492, 0.30871257, -0.19965471) * go_1(0.0, -1.0);
result += mat4(-0.23420888, -0.004894698, -0.18162623, -0.31107524, 0.11976508, 0.14924951, -0.08723316, 0.21401922, -0.58200324, -0.01177345, -0.049033508, 0.19593577, -0.21139073, 0.13016601, 0.08734843, 0.4158892) * go_1(0.0, 0.0);
result += mat4(0.0009789813, 0.33274913, 0.017405733, -0.042906318, -0.26410276, -0.09291333, 0.019387102, 0.105381854, -0.009176527, 0.09483514, -0.28462934, -0.03644404, 0.285194, -0.4260311, 0.14902237, -0.115670316) * go_1(0.0, 1.0);
result += mat4(-0.09344311, 0.4463103, 0.19984834, -0.09733857, -0.118717775, -0.0708026, 0.24919955, -0.11234634, 0.1246395, -0.052909933, 0.1525815, 0.07724016, 0.0070534665, -0.06404165, -0.18149726, -0.014058336) * go_1(1.0, -1.0);
result += mat4(-0.17353044, 0.15376104, 0.004588994, -0.13554202, -0.19920237, -0.18918681, 0.11327512, -0.117296435, -0.0785251, 0.013677155, -0.2103214, 0.06843426, -0.27790928, 0.09837545, -0.00019213746, 0.09132539) * go_1(1.0, 0.0);
result += mat4(-0.01586651, 0.014929441, 0.2426186, -0.1889374, -0.0865462, -0.07454513, -0.20797268, -0.22366855, 0.19704159, 0.0048206006, -0.16707218, -0.14162683, 0.036798395, -0.1663155, -0.12009389, 0.09603803) * go_1(1.0, 1.0);
result += mat4(-0.041532192, 0.05753804, 0.17927068, -0.042112097, 0.12080969, -0.15052572, -0.34855765, -0.07356988, -0.28199884, -0.18958664, 0.15879883, 0.08511588, 0.0034213227, -0.05338495, -0.37285298, 0.06626709) * go_2(-1.0, -1.0);
result += mat4(-0.20219134, 0.22150375, -0.29405454, 0.06597703, -0.018885285, -0.010551704, -0.010774283, 0.08758955, -0.2015349, -0.17006227, -0.24321876, -0.06864207, -0.118437864, -0.043977212, -0.029736811, 0.14040919) * go_2(-1.0, 0.0);
result += mat4(-0.18709077, -0.09723938, 0.12783436, -0.15167634, 0.29039705, -0.11009911, 0.018371418, -0.060096707, -0.07256923, -0.25799567, -0.06276934, -0.035992302, -0.06729111, -0.059956793, -0.024079734, 0.011838878) * go_2(-1.0, 1.0);
result += mat4(0.010449175, -0.08212451, 0.1409803, 0.11861122, -0.18035835, 0.051930565, 0.01049551, -0.09447962, 0.12029649, 0.040604513, -0.059971705, -0.0044667358, -0.22080486, -0.11187681, 0.124374695, -0.004155485) * go_2(0.0, -1.0);
result += mat4(-0.28584236, -0.38480133, -0.13987814, -0.4463469, -0.3890419, -0.022498172, 0.17334452, 0.21895568, -0.15450422, -0.10905497, 0.15111905, -0.22554915, 0.106121585, -0.029144369, 0.36059046, 0.22140682) * go_2(0.0, 0.0);
result += mat4(-0.23780307, -0.023033705, 0.068205886, -0.110635854, -0.26720005, -0.1608183, 0.19523881, 0.07972837, -0.018495852, -0.2793956, 0.17668398, -0.12020479, -0.079556085, -0.02284952, 0.031480275, 0.31818348) * go_2(0.0, 1.0);
result += mat4(0.22501226, -0.00829407, 0.059581667, 0.16512989, 0.18711442, 0.1200968, 0.11812652, -0.16091056, 0.15733972, 0.045156084, 0.20640492, -0.16852027, -0.11217177, 0.06746273, -0.050218176, 0.08643783) * go_2(1.0, -1.0);
result += mat4(0.20715691, -0.1082907, 0.027892975, 0.19515261, -0.17838904, 0.1532257, -0.108409844, -0.06632365, -0.13805026, 0.23020233, 0.12416581, -0.14861803, 0.16650471, 0.08158386, -0.09051303, -0.06981649) * go_2(1.0, 0.0);
result += mat4(-0.04617126, 0.06579221, 0.25964734, 0.28500968, 0.07641255, -0.090885855, -0.0972522, 0.18298368, -0.06393334, 0.103463, -0.23062052, -0.15270731, 0.13633437, 0.074707486, 0.15065335, -0.024602572) * go_2(1.0, 1.0);
result += mat4(0.118319295, 0.010410938, 0.044655934, -0.104725905, 0.030477569, 0.12867387, 0.039075315, 0.18922117, 0.13301082, -0.1601557, 0.038168408, -0.07372259, -0.09522213, -0.095107146, -0.16679631, 0.044673234) * go_3(-1.0, -1.0);
result += mat4(0.46229, -0.30780822, -0.09081465, 0.1433387, -0.0315039, 0.059409115, -0.24948491, -0.17146957, 0.060843736, -0.041989822, 0.054005735, 0.22835566, 0.12036598, -0.0070898845, 0.17276852, -0.17754094) * go_3(-1.0, 0.0);
result += mat4(-0.35119572, 0.020034311, 0.08751943, 0.08193488, 0.041884877, 0.22649358, -0.07447533, 0.20845473, -0.04859846, -0.16206735, 0.06819576, -0.053000778, 0.18146423, 0.04694148, 0.045293212, 0.06783575) * go_3(-1.0, 1.0);
result += mat4(0.280914, -0.14998704, -0.23485807, -0.015608296, 0.1549556, -0.11992663, -0.094974115, 0.05887284, 0.053392075, 0.10322464, -0.075066686, 0.068358354, -0.18663338, 0.009901499, -0.123370335, -0.12502703) * go_3(0.0, -1.0);
result += mat4(0.7748568, -0.17870626, -0.20770052, 0.024692526, -0.056430295, -0.06324113, -0.03660047, 0.29629672, -0.51896983, -0.027231261, 0.05903762, 0.077677645, -0.061675485, -0.20277846, 0.10352223, -0.08198446) * go_3(0.0, 0.0);
result += mat4(-0.06347568, 0.21643166, -0.09718546, 0.0372257, -0.029537952, -0.0357135, -0.09548363, 0.18225233, -0.29609334, -0.3496132, 0.18245913, -0.10162589, -0.18189451, -0.09077887, 0.117313184, -0.06863874) * go_3(0.0, 1.0);
result += mat4(-0.047373574, -0.020289376, -0.25748715, -0.13568166, 0.15656634, -0.06841899, 0.012100781, -0.13611819, 0.0016357322, -0.23870537, 0.14035743, -0.14700134, 0.2535575, -0.13697346, -0.13693139, -0.10365287) * go_3(1.0, -1.0);
result += mat4(0.4283934, -0.316192, -0.012617617, 0.018468965, 0.21436644, 0.18408814, -0.42651537, 0.12504087, -0.13894933, 0.091662176, -0.20096369, -0.080727175, -0.005487846, 0.17046383, 0.1383948, -0.0054956395) * go_3(1.0, 0.0);
result += mat4(0.20014295, -0.027282396, -0.06317007, 0.04452042, 0.064600386, 0.072222926, -0.33409226, 0.08063831, -0.022607977, 0.1308856, -0.39691743, -0.094889864, -0.1810531, 0.011367248, -0.2531222, -0.22468317) * go_3(1.0, 1.0);
result += vec4(0.26886886, 0.05874665, 0.10268232, 0.05833081);
return result;
}
//!DESC Anime4K-v4.0-Restore-CNN-(VL)-Conv-3x1x1x112
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!BIND conv2d_7_tf
//!BIND conv2d_7_tf1
//!SAVE MAIN
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
#define g_0 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_1 (max((conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_2 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_4 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_5 (max((conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_6 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_8 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_9 (max((conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_10 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_12 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_13 (max((conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_14 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_15 (max(-(conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_16 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_17 (max((conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_18 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_19 (max(-(conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_20 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_21 (max((conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_22 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_23 (max(-(conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_24 (max((conv2d_7_tf_tex(conv2d_7_tf_pos)), 0.0))
#define g_25 (max((conv2d_7_tf1_tex(conv2d_7_tf1_pos)), 0.0))
#define g_26 (max(-(conv2d_7_tf_tex(conv2d_7_tf_pos)), 0.0))
#define g_27 (max(-(conv2d_7_tf1_tex(conv2d_7_tf1_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(0.09689336, 0.06046458, 0.072598994, 0.0, 0.11994565, 0.104477674, 0.09302802, 0.0, -0.05718302, 0.050438102, 0.08814741, 0.0, 0.0308889, 0.0033925986, -0.01715605, 0.0) * g_0;
result += mat4(-0.028314235, 0.06597744, 0.0966897, 0.0, 0.035656154, 0.07770106, 0.075551905, 0.0, 0.0001793458, -0.000479495, -0.00297406, 0.0, -0.053916585, -0.016807461, -0.0057141334, 0.0) * g_1;
result += mat4(-0.047189303, -0.0207, -0.020910334, 0.0, -0.07933196, -0.06961211, -0.086069845, 0.0, 0.0943727, 0.008463375, 0.010755166, 0.0, 0.062410597, 0.022625161, 0.04068433, 0.0) * g_2;
result += mat4(0.10270994, -0.019080428, 0.0050091282, 0.0, -0.004672948, -0.013966742, -0.0063746064, 0.0, -2.5856789e-05, 0.03151499, -0.0023983798, 0.0, 0.113539025, 0.12381699, 0.100360274, 0.0) * g_3;
result += mat4(0.07868885, -0.030913834, -0.009213676, 0.0, 0.04870991, 0.021467991, 0.038739506, 0.0, -0.042969644, -0.07122453, -0.08798675, 0.0, -0.09784122, 0.021434791, 0.02510374, 0.0) * g_4;
result += mat4(0.050420716, 0.0729716, 0.076532185, 0.0, -0.019112485, -0.01037939, -0.026948035, 0.0, -0.02591423, 0.008927897, -0.00042541025, 0.0, 0.1043701, -0.0071186824, -0.041817162, 0.0) * g_5;
result += mat4(-0.16143242, -0.0009298223, -0.01228508, 0.0, 0.07744052, -0.018313263, -0.0488145, 0.0, 0.09241393, 0.07128674, 0.055164956, 0.0, 0.054884013, -0.04834418, -0.06281626, 0.0) * g_6;
result += mat4(-0.049036566, -0.05979936, -0.05594288, 0.0, -0.014564307, 0.031926468, 0.037857566, 0.0, 0.015474487, -0.11385003, -0.11527764, 0.0, -0.07076006, 0.057038613, 0.095983796, 0.0) * g_7;
result += mat4(0.03094887, -0.008734403, 0.00042712069, 0.0, 0.053891554, 0.05837673, 0.06200635, 0.0, 0.09071558, -0.04202184, -0.046172567, 0.0, -0.0425916, 0.04905093, 0.020835675, 0.0) * g_8;
result += mat4(0.096628904, -0.037792254, -0.043241944, 0.0, -0.011923947, -0.025950424, -0.031381752, 0.0, -0.060941868, -0.07859433, -0.07535451, 0.0, -0.026777223, 0.08604982, 0.07829908, 0.0) * g_9;
result += mat4(-0.06435972, 0.0036599538, 0.00786578, 0.0, -0.061972067, -0.05681472, -0.06667608, 0.0, -0.106890626, 0.007406496, 0.029977169, 0.0, -0.20519382, -0.044860814, 0.0021225857, 0.0) * g_10;
result += mat4(-0.16876474, 0.012789643, 0.026692612, 0.0, 0.017817136, 0.026935097, 0.02227043, 0.0, 0.01690181, 0.07716103, 0.086527, 0.0, 0.07923805, -0.10443151, -0.10859543, 0.0) * g_11;
result += mat4(0.003730466, -0.024648283, -0.022169832, 0.0, -0.0062762927, 0.022062732, 0.032966793, 0.0, 0.016349113, 0.017197203, 0.020952817, 0.0, -0.1763789, 0.035497356, 0.053835396, 0.0) * g_12;
result += mat4(0.020886675, -0.07054202, -0.079142675, 0.0, 0.06664387, 0.044960167, 0.042230908, 0.0, -0.095019594, 0.012421141, 0.0142890485, 0.0, 0.056814816, -0.012751135, -0.014684506, 0.0) * g_13;
result += mat4(0.011765893, 0.0008920681, -0.0018258415, 0.0, -0.010473814, -0.023085753, -0.028783914, 0.0, -0.023034256, -0.0024786016, -0.0052162083, 0.0, 0.1643386, -0.06132718, -0.09289065, 0.0) * g_14;
result += mat4(0.016597198, 0.09389637, 0.10833379, 0.0, -0.043163072, -0.04714812, -0.035274632, 0.0, 0.09634976, -0.009292612, -0.022424143, 0.0, -0.08765172, 0.0051558353, 0.010900356, 0.0) * g_15;
result += mat4(0.030815786, 0.021069322, 0.01812191, 0.0, 0.084839165, -0.0080813095, -0.029270556, 0.0, -0.10456346, 0.062386703, 0.0665605, 0.0, 0.11926609, -0.1104228, -0.13291118, 0.0) * g_16;
result += mat4(-0.07159541, -0.007267032, -0.010134558, 0.0, 0.008234213, 0.045609634, 0.040295456, 0.0, 0.018416971, 0.01308482, 0.014649557, 0.0, 0.035107512, -0.02140815, -0.030279048, 0.0) * g_17;
result += mat4(0.01918586, 0.03875863, 0.03229402, 0.0, -0.07917104, 0.041135103, 0.057182517, 0.0, 0.08609541, 0.0079662455, 0.004327576, 0.0, -0.14332893, 0.03120354, 0.056732506, 0.0) * g_18;
result += mat4(0.03200192, -0.0035752193, -0.0031064528, 0.0, -0.010902813, 0.014607456, 0.019431474, 0.0, -0.016461229, -0.004938204, -0.004655488, 0.0, -0.033470232, 0.0026075812, 0.005896968, 0.0) * g_19;
result += mat4(0.037410006, 0.048742272, 0.04348088, 0.0, 0.037719514, 0.030768529, 0.03127472, 0.0, 0.056426726, 0.03066893, 0.016440205, 0.0, -0.010599352, 0.022832409, 0.023211194, 0.0) * g_20;
result += mat4(-0.005733291, 0.06365659, 0.06663611, 0.0, -0.041917093, -0.016493445, -0.020438088, 0.0, -0.0014357592, -0.0022506563, -0.0045095007, 0.0, 0.029893145, -0.009129354, -0.015173116, 0.0) * g_21;
result += mat4(0.013052085, 0.005108175, 0.0025906067, 0.0, -0.021950055, -0.036447693, -0.036141638, 0.0, -0.036296472, 0.0068928464, 0.013102313, 0.0, 0.0060471976, -0.024798103, -0.023548538, 0.0) * g_22;
result += mat4(0.0067743887, -0.06191211, -0.062355213, 0.0, 0.0016080744, -0.020445071, -0.016840393, 0.0, 0.028264903, 0.01852915, 0.015891539, 0.0, -0.023877412, -0.013271666, -0.008158679, 0.0) * g_23;
result += mat4(-0.04317466, -0.018953001, -0.020452993, 0.0, -0.009322576, -0.03022352, -0.030970376, 0.0, 0.05653658, 0.05430553, 0.046692245, 0.0, 0.05615359, 0.059338935, 0.056018773, 0.0) * g_24;
result += mat4(0.022878079, 0.03392234, 0.033057988, 0.0, -0.017554542, -0.0141542535, -0.014122613, 0.0, -0.048634093, -0.05316463, -0.047988772, 0.0, -0.058002178, -0.040221967, -0.034025013, 0.0) * g_25;
result += mat4(-0.018253656, -0.04197674, -0.040467236, 0.0, -0.04358929, -0.028309818, -0.025425073, 0.0, -0.008488672, -0.001727991, 0.00035808363, 0.0, -0.0011709273, 0.0052514165, 0.0059479307, 0.0) * g_26;
result += mat4(-0.08333935, -0.09818201, -0.09476284, 0.0, -0.033692095, -0.046259012, -0.045797516, 0.0, -0.007577072, 0.0022402718, 0.0016200038, 0.0, 0.0029786075, -0.020728534, -0.018938033, 0.0) * g_27;
result += vec4(0.047567394, -0.02504617, -0.028163986, 0.0);
return result + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Thin_Fast.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Thin-(Fast)-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(Fast)-Sobel-X
//!HOOK MAIN
//!BIND LINELUMA
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 2
vec4 hook() {
float l = LINELUMA_texOff(vec2(-1.0, 0.0)).x;
float c = LINELUMA_tex(LINELUMA_pos).x;
float r = LINELUMA_texOff(vec2(1.0, 0.0)).x;
float xgrad = (-l + r);
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(Fast)-Sobel-Y
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
vec4 hook() {
float tx = LINESOBEL_texOff(vec2(0.0, -0.5)).x;
float cx = LINESOBEL_tex(LINESOBEL_pos).x;
float bx = LINESOBEL_texOff(vec2(0.0, 0.5)).x;
float ty = LINESOBEL_texOff(vec2(0.0, -0.5)).y;
float by = LINESOBEL_texOff(vec2(0.0, 0.5)).y;
float xgrad = (tx + cx + cx + bx) / 8.0;
float ygrad = (-ty + by) / 8.0;
//Computes the luminance's gradient
float norm = sqrt(xgrad * xgrad + ygrad * ygrad);
return vec4(pow(norm, 0.7));
}
//!DESC Anime4K-v3.2-Thin-(Fast)-Gaussian-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (1.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINESOBEL_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(Fast)-Gaussian-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (1.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINESOBEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_y(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(Fast)-Kernel-X
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 2
vec4 hook() {
float l = LINESOBEL_texOff(vec2(-0.5, 0.0)).x;
float c = LINESOBEL_tex(LINESOBEL_pos).x;
float r = LINESOBEL_texOff(vec2(0.5, 0.0)).x;
float xgrad = (-l + r);
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(Fast)-Kernel-Y
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 2
vec4 hook() {
float tx = LINESOBEL_texOff(vec2(0.0, -0.5)).x;
float cx = LINESOBEL_tex(LINESOBEL_pos).x;
float bx = LINESOBEL_texOff(vec2(0.0, 0.5)).x;
float ty = LINESOBEL_texOff(vec2(0.0, -0.5)).y;
float by = LINESOBEL_texOff(vec2(0.0, 0.5)).y;
float xgrad = (tx + cx + cx + bx) / 8.0;
float ygrad = (-ty + by) / 8.0;
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(Fast)-Warp
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
#define STRENGTH 0.6 //Strength of warping for each iteration
#define ITERATIONS 1 //Number of iterations for the forwards solver, decreasing strength and increasing iterations improves quality at the cost of speed.
vec4 hook() {
vec2 d = HOOKED_pt;
float relstr = HOOKED_size.y / 1080.0 * STRENGTH;
vec2 pos = HOOKED_pos;
for (int i=0; i<ITERATIONS; i++) {
vec2 dn = LINESOBEL_tex(pos).xy;
vec2 dd = (dn / (length(dn) + 0.01)) * d * relstr; //Quasi-normalization for large vectors, avoids divide by zero
pos -= dd;
}
return HOOKED_tex(pos);
}
shaders/Anime4K_Thin_HQ.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Thin-(HQ)-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(HQ)-Sobel-X
//!HOOK MAIN
//!BIND LINELUMA
//!SAVE LINESOBEL
//!COMPONENTS 2
vec4 hook() {
float l = LINELUMA_texOff(vec2(-1.0, 0.0)).x;
float c = LINELUMA_tex(LINELUMA_pos).x;
float r = LINELUMA_texOff(vec2(1.0, 0.0)).x;
float xgrad = (-l + r);
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(HQ)-Sobel-Y
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!COMPONENTS 1
vec4 hook() {
float tx = LINESOBEL_texOff(vec2(0.0, -1.0)).x;
float cx = LINESOBEL_tex(LINESOBEL_pos).x;
float bx = LINESOBEL_texOff(vec2(0.0, 1.0)).x;
float ty = LINESOBEL_texOff(vec2(0.0, -1.0)).y;
float by = LINESOBEL_texOff(vec2(0.0, 1.0)).y;
float xgrad = (tx + cx + cx + bx) / 8.0;
float ygrad = (-ty + by) / 8.0;
//Computes the luminance's gradient
float norm = sqrt(xgrad * xgrad + ygrad * ygrad);
return vec4(pow(norm, 0.7));
}
//!DESC Anime4K-v3.2-Thin-(HQ)-Gaussian-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!COMPONENTS 1
#define SPATIAL_SIGMA (2.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINESOBEL_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(HQ)-Gaussian-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!COMPONENTS 1
#define SPATIAL_SIGMA (2.0 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINESOBEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_y(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(HQ)-Kernel-X
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!COMPONENTS 2
vec4 hook() {
float l = LINESOBEL_texOff(vec2(-1.0, 0.0)).x;
float c = LINESOBEL_tex(LINESOBEL_pos).x;
float r = LINESOBEL_texOff(vec2(1.0, 0.0)).x;
float xgrad = (-l + r);
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(HQ)-Kernel-Y
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!COMPONENTS 2
vec4 hook() {
float tx = LINESOBEL_texOff(vec2(0.0, -1.0)).x;
float cx = LINESOBEL_tex(LINESOBEL_pos).x;
float bx = LINESOBEL_texOff(vec2(0.0, 1.0)).x;
float ty = LINESOBEL_texOff(vec2(0.0, -1.0)).y;
float by = LINESOBEL_texOff(vec2(0.0, 1.0)).y;
float xgrad = (tx + cx + cx + bx) / 8.0;
float ygrad = (-ty + by) / 8.0;
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(HQ)-Warp
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
#define STRENGTH 0.6 //Strength of warping for each iteration
#define ITERATIONS 1 //Number of iterations for the forwards solver, decreasing strength and increasing iterations improves quality at the cost of speed.
vec4 hook() {
vec2 d = HOOKED_pt;
float relstr = HOOKED_size.y / 1080.0 * STRENGTH;
vec2 pos = HOOKED_pos;
for (int i=0; i<ITERATIONS; i++) {
vec2 dn = LINESOBEL_tex(pos).xy;
vec2 dd = (dn / (length(dn) + 0.01)) * d * relstr; //Quasi-normalization for large vectors, avoids divide by zero
pos -= dd;
}
return HOOKED_tex(pos);
}
shaders/Anime4K_Thin_VeryFast.glsl
+236
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Thin-(VeryFast)-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!WIDTH HOOKED.w 2 /
//!HEIGHT HOOKED.h 2 /
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(VeryFast)-Sobel-X
//!HOOK MAIN
//!BIND LINELUMA
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 2
vec4 hook() {
float l = LINELUMA_texOff(vec2(-0.5, 0.0)).x;
float c = LINELUMA_tex(LINELUMA_pos).x;
float r = LINELUMA_texOff(vec2(0.5, 0.0)).x;
float xgrad = (-l + r);
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(VeryFast)-Sobel-Y
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 1
vec4 hook() {
float tx = LINESOBEL_texOff(vec2(0.0, -0.25)).x;
float cx = LINESOBEL_tex(LINESOBEL_pos).x;
float bx = LINESOBEL_texOff(vec2(0.0, 0.25)).x;
float ty = LINESOBEL_texOff(vec2(0.0, -0.25)).y;
float by = LINESOBEL_texOff(vec2(0.0, 0.25)).y;
float xgrad = (tx + cx + cx + bx) / 8.0;
float ygrad = (-ty + by) / 8.0;
//Computes the luminance's gradient
float norm = sqrt(xgrad * xgrad + ygrad * ygrad);
return vec4(pow(norm, 0.7));
}
//!DESC Anime4K-v3.2-Thin-(VeryFast)-Gaussian-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.5 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_x() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINESOBEL_texOff(vec2(di, 0.0)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_x(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(VeryFast)-Gaussian-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 1
#define SPATIAL_SIGMA (0.5 * float(HOOKED_size.y) / 1080.0) //Spatial window size, must be a positive real number.
#define KERNELSIZE (max(int(ceil(SPATIAL_SIGMA * 2.0)), 1) * 2 + 1) //Kernel size, must be an positive odd integer.
#define KERNELHALFSIZE (int(KERNELSIZE/2)) //Half of the kernel size without remainder. Must be equal to trunc(KERNELSIZE/2).
#define KERNELLEN (KERNELSIZE * KERNELSIZE) //Total area of kernel. Must be equal to KERNELSIZE * KERNELSIZE.
float gaussian(float x, float s, float m) {
float scaled = (x - m) / s;
return exp(-0.5 * scaled * scaled);
}
float comp_gaussian_y() {
float g = 0.0;
float gn = 0.0;
for (int i=0; i<KERNELSIZE; i++) {
float di = float(i - KERNELHALFSIZE);
float gf = gaussian(di, SPATIAL_SIGMA, 0.0);
g = g + LINESOBEL_texOff(vec2(0.0, di)).x * gf;
gn = gn + gf;
}
return g / gn;
}
vec4 hook() {
return vec4(comp_gaussian_y(), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(VeryFast)-Kernel-X
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 2
vec4 hook() {
float l = LINESOBEL_texOff(vec2(-0.25, 0.0)).x;
float c = LINESOBEL_tex(LINESOBEL_pos).x;
float r = LINESOBEL_texOff(vec2(0.25, 0.0)).x;
float xgrad = (-l + r);
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(VeryFast)-Kernel-Y
//!HOOK MAIN
//!BIND LINESOBEL
//!SAVE LINESOBEL
//!WIDTH HOOKED.w 4 /
//!HEIGHT HOOKED.h 4 /
//!COMPONENTS 2
vec4 hook() {
float tx = LINESOBEL_texOff(vec2(0.0, -0.25)).x;
float cx = LINESOBEL_tex(LINESOBEL_pos).x;
float bx = LINESOBEL_texOff(vec2(0.0, 0.25)).x;
float ty = LINESOBEL_texOff(vec2(0.0, -0.25)).y;
float by = LINESOBEL_texOff(vec2(0.0, 0.25)).y;
float xgrad = (tx + cx + cx + bx) / 8.0;
float ygrad = (-ty + by) / 8.0;
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Thin-(VeryFast)-Warp
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINESOBEL
#define STRENGTH 0.6 //Strength of warping for each iteration
#define ITERATIONS 1 //Number of iterations for the forwards solver, decreasing strength and increasing iterations improves quality at the cost of speed.
vec4 hook() {
vec2 d = HOOKED_pt;
float relstr = HOOKED_size.y / 1080.0 * STRENGTH;
vec2 pos = HOOKED_pos;
for (int i=0; i<ITERATIONS; i++) {
vec2 dn = LINESOBEL_tex(pos).xy;
vec2 dd = (dn / (length(dn) + 0.01)) * d * relstr; //Quasi-normalization for large vectors, avoids divide by zero
pos -= dd;
}
return HOOKED_tex(pos);
}
shaders/Anime4K_Upscale_CNN_x2_L.glsl
+461
View File
@@ -0,0 +1,461 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.01802505, -0.06508559, 0.0017542128, -0.25521114, -0.024155967, 0.07601142, 0.07508073, -0.69212615, 0.06438325, 0.07916419, -0.07266247, -0.17089996, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.18881685, 0.063188724, 0.08637344, -0.20066689, -0.22774473, -0.10913083, -0.048009537, -0.27475306, -0.15950447, -0.027433012, 0.030303264, 0.018863251, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.19171959, 0.028070524, -0.09780952, 0.057611514, 0.26147488, 0.07180017, 0.09667393, 0.008605127, 0.011190245, 0.040944707, -0.025871381, -0.011468774, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.08601777, 0.2180965, -0.052060187, -0.08091977, 0.3995336, 0.21213862, 0.105202965, 0.010929526, -0.080743685, -0.040439352, -0.07998862, 0.08096829, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.08608087, -0.10902571, 0.5245411, 0.53331816, -0.5507893, 0.6141555, 0.9744618, 0.89056116, 0.081408836, 0.28096125, 0.13647869, 0.026274862, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.13985278, -0.29691598, -0.26792645, -0.042485088, 0.27941233, -0.65306807, -0.360506, 0.03810829, 0.09663724, -0.26655033, 0.04372338, 0.063264176, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.18246013, -0.070464276, 0.04686214, 0.059332885, 0.16861221, 0.022623831, -0.09161491, 0.07130491, 0.15691474, 0.095743366, 0.059467375, -0.009469478, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.07830576, 0.17082681, -0.013175545, -0.035535168, 0.1573564, -0.16532823, -0.49614525, -0.050994795, 0.027053844, -0.20359018, 0.08111269, 0.018715343, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.060515754, 0.13169582, -0.15245132, -0.045724656, -0.50778043, -0.11690067, -0.08320143, 0.01093529, -0.1954136, 0.07388989, -0.1360143, -0.023233788, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.0054077627, -0.15644358, 0.06612042, 0.014728144);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf1
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.12039797, 0.04008252, 0.073074624, -0.11763173, 0.091902, -0.040129073, 0.009170759, -0.10760076, -0.032387916, 0.07807673, -6.477932e-05, 0.040181372, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.11585734, -0.0078019407, 0.063107856, 0.09835168, -0.029397847, 0.12520139, 0.078661725, -0.12675259, 0.05563671, -0.058422342, 0.01478436, -0.08239175, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.14991632, -0.0134848505, -0.38663143, -0.10859369, -0.012961176, -0.09099144, -0.19593886, -0.08396245, -0.02676463, -0.0066295485, 0.026225863, -0.014788537, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.20830092, -0.07655779, 0.04518565, 0.16015635, 0.5536684, 0.09759215, -0.101477005, -0.5042874, 0.35608026, -0.15335238, 0.0796228, -0.05107349, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.3968312, 0.091579735, -0.085623756, -0.16367513, -0.48967922, -0.08557767, 0.34444988, 1.0766053, -0.2158915, 0.22244956, -0.033804208, 0.25898156, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.026278365, 0.1678205, -0.38981274, 0.16932413, -0.0146527905, 0.65131354, -0.08886725, 0.07017853, 0.012986331, 0.029087646, -0.034898676, 0.040925268, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.07614263, 0.015624113, -0.054716587, -0.04951801, 0.016731577, -0.08749623, 0.07815944, -0.015630174, -0.08723511, 0.077201165, -0.12674089, -0.08418575, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.07938198, -0.4056014, 0.26949093, 0.067213245, -0.47538033, -0.7786735, -0.25821188, 0.029314762, -0.1799233, -0.31132734, 0.17210929, -0.018579468, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.06732179, 0.18373649, -0.00039802346, 0.006567155, 0.36993378, 0.20254396, 0.12314272, -0.07356931, 0.12402926, 0.122744165, -0.07482636, 0.011531308, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.001029383, 0.0058537456, 0.38202196, -0.028818231);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.29632062, 0.029882489, -0.14098296, -0.18291497, 0.2815667, -0.053558454, 0.10369031, -0.080831036, 0.06955536, -0.020830285, -0.2950748, -0.12086926, -0.023612294, -0.08531449, 0.0390424, 0.011767062) * go_0(-1.0, -1.0);
result += mat4(0.094862625, 0.10448947, -0.11741873, 0.18871774, 0.15733057, 0.029140847, 0.16012338, 0.24601823, -0.2918398, 0.09956984, 0.04739516, 0.24494317, -0.021442452, 0.014309354, -0.04935703, 0.13617574) * go_0(-1.0, 0.0);
result += mat4(0.1303212, -0.06284708, -0.23948738, -0.05782472, -0.024363542, -0.11251477, -0.07354371, -0.023819327, 0.13228065, 0.05485702, -0.068491034, 0.1938021, -0.046649717, -0.07752723, 0.031408865, 0.026424367) * go_0(-1.0, 1.0);
result += mat4(0.4484274, 0.10068111, -0.122855306, -0.0649749, 0.09444103, 0.119198084, -0.22159275, 0.08555494, -0.18764949, -0.16276829, 0.20377621, 0.13764401, -0.027324807, 0.1294057, 0.035147414, 0.010751216) * go_0(0.0, -1.0);
result += mat4(-0.23321865, -0.029401073, 0.064655, 0.28420436, 0.051707894, -0.27915454, 0.0037779005, -0.18335588, 0.2275033, -0.25828046, -0.005339017, -0.4358691, 0.30487007, -0.044198595, 0.08767978, -0.04610031) * go_0(0.0, 0.0);
result += mat4(-0.044556934, -0.06692216, -0.21124081, -0.1394273, -0.24693833, -0.11292927, -0.026020816, 0.08460799, -0.11183761, -0.020012703, 0.29486617, 0.3726646, -0.054298244, 0.0045891847, -0.23693855, -0.02848257) * go_0(0.0, 1.0);
result += mat4(0.04877764, -0.011964396, -0.08024895, -0.12175299, -0.015131821, -0.048996765, 0.10887477, -0.053192, 0.09514728, 0.00918332, -0.08621957, -0.04674572, -0.06000914, -0.060330987, 0.20702218, -0.015094036) * go_0(1.0, -1.0);
result += mat4(-0.1651207, -0.024862131, 0.37494823, 0.10404018, -0.2891288, -0.38082635, 0.3194514, -0.055852838, -0.073994, -0.1566444, 0.08473525, 0.15672058, -0.08205729, 0.33623922, 0.2524126, 0.022668727) * go_0(1.0, 0.0);
result += mat4(0.083043605, -0.2989435, -0.14887308, 0.008989406, 0.01214123, -0.29387334, 0.015363028, -0.027485376, 0.13046521, 0.12814927, -0.05615426, -0.08612421, -0.3833321, 0.30930206, 0.3397905, 0.095533006) * go_0(1.0, 1.0);
result += mat4(-0.24895187, 0.033672538, 0.024642626, 0.049984645, 0.09217451, 0.14135426, -0.36297384, 0.10239864, 0.14611131, -0.022452299, 0.009058074, -0.18909958, -0.0049156225, 0.10530887, -0.06942197, -0.06450979) * go_1(-1.0, -1.0);
result += mat4(0.14025575, 0.030043123, 0.07131405, -0.0675702, 0.17274232, 0.17896765, -0.4741036, 0.35670453, 0.03911085, 0.079387054, 0.04420335, -0.040182803, 0.078871965, 0.16641952, -0.101532914, -0.07683543) * go_1(-1.0, 0.0);
result += mat4(0.09527535, -0.014889733, 0.003928801, -0.0144131305, 0.16238941, -0.073573746, -0.18349837, 0.057071213, -0.056580186, -0.048254594, -0.02551881, 0.13056543, 0.15681924, 0.11329136, 0.026496707, -0.15252273) * go_1(-1.0, 1.0);
result += mat4(-0.20110673, -0.17727304, 0.16747122, -0.060028642, -0.03426759, 0.34928, -0.16542526, -0.03665969, -0.11838656, 0.050624777, -0.11309917, 0.17241085, 0.07320429, -0.19349192, 0.36426768, -0.09952723) * go_1(0.0, -1.0);
result += mat4(-0.44797856, 0.13166381, 0.19358242, -0.17328072, 0.277866, 0.2704677, -0.3897292, -0.09388379, -0.11871803, 0.059352446, 0.02593061, 0.1112078, -0.44574997, -0.20000082, -0.06038736, 0.11825317) * go_1(0.0, 0.0);
result += mat4(0.035831098, 0.03203473, 0.007270905, -0.2803515, -0.07803025, -0.044999845, 0.05503914, 0.02849373, -0.019534718, 0.109557584, -0.057618562, -0.22376212, 0.037630744, 0.07285683, -0.10327242, 0.15022281) * go_1(0.0, 1.0);
result += mat4(-0.22891119, -0.07055901, -0.06924297, 0.091851085, 0.079149276, 0.072282575, 0.1054971, -0.055115294, 0.15652373, -0.18508117, -0.044487055, -0.09513059, -0.007512581, 0.04595113, -0.16729085, -0.038352273) * go_1(1.0, -1.0);
result += mat4(-0.33190495, 0.024579005, 0.3356564, -0.24311046, -0.12634008, 0.08820384, -0.028739989, 0.0871991, -0.011547642, 0.07184339, 0.098442815, 0.13700496, -0.0665544, 0.18513693, 0.0956979, -0.15374076) * go_1(1.0, 0.0);
result += mat4(0.18756114, -0.21920492, 0.06407122, -0.24816798, -0.061943263, -0.054488074, -0.081633896, 0.0920547, -0.08880129, -0.18094197, 0.006789256, 0.094598, 0.17799775, -0.26764068, -0.02588948, 0.17095666) * go_1(1.0, 1.0);
result += mat4(-0.17086025, -0.035769157, -0.11523461, 0.20404252, -0.0398533, -0.19902702, 0.0072308285, -0.099984154, -0.1378846, -0.14236672, 0.40502122, 0.13498029, 0.057273205, -0.06250679, 0.035283897, 0.01703995) * go_2(-1.0, -1.0);
result += mat4(0.12786144, -0.23442458, -0.047862124, -0.12505807, -0.23584808, -0.064344, 0.07848756, 0.08764069, 0.34468293, -0.29927257, -0.18664125, -0.20938, 0.07196786, -0.0116679, 0.16299239, -0.076479614) * go_2(-1.0, 0.0);
result += mat4(0.08299449, -0.065809734, 0.12079292, -0.14469329, -0.0102624465, 0.04364353, 0.080220595, -0.025435027, 0.010015513, -0.03863331, 0.28750968, -0.07637218, 0.049731467, -0.062238537, 0.04295189, -0.028037619) * go_2(-1.0, 1.0);
result += mat4(-0.3443906, -0.04198392, -0.1612832, 0.2218389, -0.01519015, 0.093942635, -0.15996122, -0.00093763386, 0.024008257, 0.035953972, -0.15771267, -0.07148778, 0.044501238, -0.14950006, 0.087219894, -0.05831199) * go_2(0.0, -1.0);
result += mat4(0.22099696, 0.117263354, -0.09403858, -0.20318906, 0.18389364, 0.13026148, 0.08169665, -0.014347075, -0.16660765, 0.026503418, 0.058967166, 0.26847002, -0.39771244, 0.36704144, 0.18202503, 0.15385705) * go_2(0.0, 0.0);
result += mat4(-0.015089774, 0.120200686, 0.114723265, 0.12578037, 0.16593805, 0.040399004, 0.11654924, 0.0025250788, -0.2342627, 0.05865, -0.16680475, -0.06301523, 0.07027856, 0.18853764, 0.5213158, -0.3325365) * go_2(0.0, 1.0);
result += mat4(-0.046818264, 0.04336355, 0.020795586, 0.09917639, -0.028305013, -0.14843199, 0.16168857, -0.18567303, 0.010514865, 0.06331522, 0.064430796, 0.034681283, 0.041065965, 0.06522019, 0.055882502, -0.015027999) * go_2(1.0, -1.0);
result += mat4(0.18064371, -0.17903666, -0.24589087, 0.072444126, 0.13745096, -0.011904026, -0.19597653, 0.023044739, 0.01585197, -0.1759934, 0.2287553, -0.20533411, -0.2898527, 0.42946577, -0.07443011, 0.052736074) * go_2(1.0, 0.0);
result += mat4(0.043961097, 0.10761276, -0.0034299751, 0.10491056, 0.004527805, 0.077598244, 0.077725716, 0.030323742, -0.20945124, -0.2235839, 0.05397613, 0.2072019, 0.008769854, 0.30513015, -0.104206346, -0.20982127) * go_2(1.0, 1.0);
result += mat4(0.0858221, -0.013858144, 0.11189161, -0.005996965, 0.13058044, 0.23954146, -0.29756296, 0.1801562, -0.034966737, 0.16073282, -0.06920962, 0.16596314, -0.06746436, 0.18948093, -0.17374122, 0.035474796) * go_3(-1.0, -1.0);
result += mat4(-0.23172139, -0.062111232, 0.028210253, -0.022090558, 0.2854972, 0.015097004, -0.2057132, -0.19835956, 0.14960685, 0.09755452, -0.17077617, -0.10259408, -0.11695073, 0.071428165, 0.18146773, 0.22237262) * go_3(-1.0, 0.0);
result += mat4(-0.008571818, 0.2160462, 0.20442474, 0.008256999, -0.0054347264, -0.036963176, -0.023052184, -0.27406418, 0.0155730015, 0.13230084, 0.028925262, -0.22739749, -0.07608481, -0.059095357, -0.17677523, 0.020464322) * go_3(-1.0, 1.0);
result += mat4(0.09186881, 0.10612606, -0.29759738, 0.04590405, 0.042567376, 0.77174157, -0.3156031, 0.22815126, -0.0745266, -0.08352131, -0.03825007, -0.14752272, 0.14866033, -0.07303083, 0.01180863, 0.12170875) * go_3(0.0, -1.0);
result += mat4(-0.033268124, -0.08281718, 0.040441882, -0.05514993, 0.07650108, 0.5294327, -0.22229794, 0.049523506, 0.021545604, 0.03359928, 0.032059934, -0.0082821995, 0.036441952, -0.5097175, 0.38215104, 0.33496317) * go_3(0.0, 0.0);
result += mat4(-0.18900043, 0.3539563, 0.25134736, 0.21487151, 0.22043267, 0.13304482, -0.17353508, -0.15632114, -0.067851126, -0.08173108, 0.0035601144, 0.16791934, -0.07563204, -0.07128694, 0.10757592, 0.26915342) * go_3(0.0, 1.0);
result += mat4(0.1761959, 0.025833737, 0.09164757, -0.030622564, -0.22870748, 0.11929823, -0.24930833, 0.07446655, -0.17372188, -0.66051316, 0.15344264, 0.20571554, 0.0620721, 0.08122408, -0.0952373, 0.04144613) * go_3(1.0, -1.0);
result += mat4(-0.053072393, -0.15877937, -0.065579735, 0.09932804, 0.06803561, 0.11719737, -0.0639249, -0.14433555, 0.1210262, 0.057197437, -0.19896421, 0.2387559, 0.35206345, -0.36237878, -0.12187686, 0.24411117) * go_3(1.0, 0.0);
result += mat4(-0.44384086, -0.063816145, 0.14313193, 0.042119484, 0.13939157, 0.02742546, -0.010837158, -0.11953808, 0.083049394, 0.22100104, 0.12818006, -0.27883413, -0.22672728, 0.28484213, 0.053133663, -0.2364556) * go_3(1.0, 1.0);
result += vec4(-0.021096209, -0.016017085, 0.009604813, -0.023907887);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.0028523596, -0.03346185, 0.30194005, 0.26316985, -0.108354695, 0.19872186, -0.14200853, 0.28833616, 0.009908957, 0.049258288, 0.18224198, -0.10260487, -0.011250263, -0.027236924, -0.03667901, 0.035038423) * go_0(-1.0, -1.0);
result += mat4(-0.10311966, -0.07219459, 0.13850203, -0.07606934, 0.16186213, 0.20828444, -0.113131486, 0.21757083, -0.14668499, -0.015719058, -0.24257174, 0.33343476, 0.042950086, 0.014013289, -0.095338345, -0.10305408) * go_0(-1.0, 0.0);
result += mat4(-0.054802764, -0.03977167, 0.058000274, 0.06520257, -0.06657145, 0.09240672, 0.18538313, -0.057592865, 0.11657067, 0.1435708, -0.10273095, -0.12743765, 0.031955425, -0.032504886, -0.043181136, -0.033146795) * go_0(-1.0, 1.0);
result += mat4(0.17017461, 0.023741657, 0.12772968, 0.054186005, -0.06654799, 0.13280976, -0.08608028, -0.18274061, -0.14409089, -0.07336282, -0.21611233, 0.3030394, -0.22331606, -0.04621103, 0.008330136, 0.13817237) * go_0(0.0, -1.0);
result += mat4(0.12490482, -0.15037048, -0.308773, 0.015911192, -0.23533738, -0.3296806, -0.16643348, -0.18637176, 0.3725922, 0.22720487, 0.101118185, -0.1130553, 0.14583476, 0.25240546, 0.07148758, -0.023047412) * go_0(0.0, 0.0);
result += mat4(-0.21086755, 0.10873368, 0.23762812, -0.12715688, 0.07081291, -0.13914634, 0.23084821, -0.027778924, -0.011987815, -0.27076182, -0.037216157, -0.028230239, -0.055693954, -0.1835301, -0.19994727, -0.05208119) * go_0(0.0, 1.0);
result += mat4(0.0063535348, -0.047104187, 0.16425404, -0.003719743, -0.048529398, -0.17317753, -0.048431315, 0.12659106, -0.10488035, 0.14231968, -0.042716738, -0.20889871, -0.17258343, -0.1703121, -0.08134935, -0.08982632) * go_0(1.0, -1.0);
result += mat4(-0.047956906, 0.02809404, -0.23035078, 0.017211597, 0.056016855, -0.16766964, 0.024528379, 0.15064329, -0.20351112, -0.16514936, -0.013601919, 0.056769293, -0.4962774, -0.315249, -0.11879433, 0.24711494) * go_0(1.0, 0.0);
result += mat4(0.11659998, 0.23360188, -0.037019785, 0.01478414, -0.0056206854, -0.058505666, 0.05248197, 0.048921894, 0.014286839, -0.05282425, 0.12870628, 0.12335835, -0.2298834, -0.34117943, 0.07997886, 0.026714392) * go_0(1.0, 1.0);
result += mat4(-0.061862264, -0.024006715, 0.1239327, -0.06400159, -0.1736359, -0.13043079, -0.047287256, 0.092979684, -0.052144498, 0.046599787, 0.03391796, 0.10504723, 0.12802011, 0.05123276, 0.15974, 0.052002482) * go_1(-1.0, -1.0);
result += mat4(0.22270438, -0.15555483, 0.10334453, -0.033303298, -0.13101499, 0.37030843, -0.6013731, 0.22835553, 0.17596579, -0.0012125646, 0.000731955, -0.03726906, -0.033959538, 0.10808315, 0.043731548, 0.12308547) * go_1(-1.0, 0.0);
result += mat4(-0.02969512, 0.029882276, -0.04630252, -0.029674841, 0.15309821, 0.35859957, -0.15453109, 0.12228518, -0.062312573, -0.030289005, 0.10737798, 0.01659783, -0.07855408, 0.090425, -0.07134876, 0.10678761) * go_1(-1.0, 1.0);
result += mat4(0.068100914, -0.16862309, 0.2094642, -0.02229975, -0.1045019, -0.043305863, 0.18030378, -0.085608065, -0.13514027, 0.11298315, -0.009570404, -0.03180812, 0.19233464, -0.058786966, -0.06211013, 0.1411384) * go_1(0.0, -1.0);
result += mat4(0.025985425, 0.08034115, 0.14352584, 0.039992746, -0.034363434, 0.27888498, -0.21407174, -0.15813926, -0.10999899, -0.15183197, -0.23127002, 0.10193841, 0.029217485, 0.069463246, 0.093416885, -0.17118438) * go_1(0.0, 0.0);
result += mat4(-0.34840858, 0.18985972, 0.1336286, 0.11525281, -0.12827359, -0.14426456, 0.13312757, -0.06653705, 0.050836112, 0.06430556, 0.14759327, 0.043341596, 0.17556888, -0.14065917, 0.046736937, -0.01075016) * go_1(0.0, 1.0);
result += mat4(0.13843128, -0.07928894, 0.09180436, -0.17497942, -0.0075141867, -0.13388832, 0.07851216, 0.16109377, 0.190535, -0.05877419, -0.010671232, 0.056779247, 0.005048462, 0.084110186, 0.053035934, -0.18244119) * go_1(1.0, -1.0);
result += mat4(0.2849969, -0.045472432, -0.007433944, 0.1180168, 0.060636494, 0.13299662, -0.14055575, 0.045158602, -0.08960926, 0.013875276, -0.01840017, -0.06518111, -0.062131494, 0.13034189, -0.086812675, -0.302895) * go_1(1.0, 0.0);
result += mat4(0.116545, 0.19018339, 0.015378095, 0.11349383, 0.097009905, 0.08176944, 0.033653412, -0.08137759, 0.03190533, 0.0014444767, -0.110253245, -0.075649016, -0.19349468, -0.22105742, -0.026897507, 0.11604942) * go_1(1.0, 1.0);
result += mat4(-0.1504224, -0.17498577, -0.111215115, -0.18127528, 0.01749777, 0.02000031, 0.10482995, 0.0281041, 0.14524435, 0.032341465, -0.1431526, 0.035199255, 0.07964384, 0.12253888, -0.04288506, 0.08354433) * go_2(-1.0, -1.0);
result += mat4(0.12756018, -0.09853538, -0.14765038, -0.14513035, -0.1674001, 0.041217312, 0.1293034, -0.14122911, 0.22340834, 0.026480576, 0.30324772, -0.14868121, -0.007565819, -0.118748344, 0.13285564, 0.00254272) * go_2(-1.0, 0.0);
result += mat4(0.049038395, -0.053402808, -0.20165808, -0.023086373, 0.11763773, -0.06335101, -0.033782937, 0.04164607, -0.18420623, -0.19549052, 0.046879902, 0.009774202, 0.01943834, 0.0056786705, -0.076153725, 0.02122122) * go_2(-1.0, 1.0);
result += mat4(-0.26325268, -0.031591017, -0.009897877, 0.1264021, 0.17001875, -0.0703141, 0.09623203, -0.3370359, 0.18430787, 0.27577603, 0.24643779, -0.0070356624, 0.14593714, -0.0370321, -0.09890827, -0.2308416) * go_2(0.0, -1.0);
result += mat4(-0.07015072, 0.096860155, 0.237449, 0.02297801, 0.055075265, 0.27420217, 0.020077437, 0.18272734, -0.33312458, 0.10344985, -0.2324171, 0.065973476, -0.20755117, -0.27599007, -0.5285744, -0.4155286) * go_2(0.0, 0.0);
result += mat4(0.07746828, -0.05007699, -0.0768586, 0.20854229, -0.03390625, 0.030966418, -0.019005757, -0.044068232, 0.107805826, 0.27990255, 0.20861949, -0.13380727, 0.11099171, -0.24434194, -0.44939178, 0.09977314) * go_2(0.0, 1.0);
result += mat4(-0.025078122, 0.1578438, -0.087854326, 0.20194288, 0.09858984, 0.05664248, 0.007542862, -0.08403176, 0.1984592, -0.18137619, 0.008725761, 0.1726853, -0.05140944, 0.011235891, -0.043068934, 0.0055390405) * go_2(1.0, -1.0);
result += mat4(0.11204605, 0.12672849, 0.21329713, 0.022434214, 0.18346484, 0.15253071, -0.07683229, -0.023870528, 0.15187134, 0.16080903, -0.20011483, -0.055256322, 0.2351501, -0.10940274, 0.3296904, -0.08561938) * go_2(1.0, 0.0);
result += mat4(-0.116775244, -0.034662195, 0.09385859, 0.015938438, 0.04321025, 0.07417467, -0.020254206, -0.021971289, 0.082221195, -0.17118677, -0.0803086, -0.04383127, -0.040375095, 0.19555633, -0.02246454, -0.039880734) * go_2(1.0, 1.0);
result += mat4(0.091371894, 0.07079164, -0.061235007, -0.074043915, -0.07527448, 0.20644194, -0.025892835, 0.288527, -0.0681896, -0.18799694, -0.02397431, -0.20931835, -0.23740639, -0.21364078, -0.066721395, 0.046312522) * go_3(-1.0, -1.0);
result += mat4(0.028192231, -0.076668344, -0.048378978, 0.08975191, 0.11627764, 0.1206538, 0.13604914, -0.32365093, -0.3457084, 0.038705852, -0.11968679, -0.03261415, -0.08069945, 0.06448551, -0.04925646, -0.112106614) * go_3(-1.0, 0.0);
result += mat4(0.02704155, -0.38007632, -0.12648691, 0.0065948786, -0.107972704, -0.07776103, -0.09248745, -0.034419768, 0.08890347, 0.005535876, -0.17764446, 0.01000324, 0.09786164, 0.0046856827, 0.071132, -0.07665281) * go_3(-1.0, 1.0);
result += mat4(0.084308736, 0.12159227, 0.09618809, -0.095442675, -0.19964129, 0.12708808, 0.13591234, -0.08824806, 0.13553478, 0.116799936, 0.2792844, 0.3961157, -0.21412137, 0.35075518, -0.4579121, 0.13404456) * go_3(0.0, -1.0);
result += mat4(0.14321525, -0.2190369, -0.0017736118, 0.04966717, -0.21058443, 0.03795149, 0.024490742, 0.16852312, 0.23549259, 0.098397486, 0.39796385, -0.17331013, 0.57935876, 0.14168213, 0.10026468, 0.12272344) * go_3(0.0, 0.0);
result += mat4(0.23204985, -0.13793765, -0.09148106, -0.24824184, 0.03669933, 0.40166143, -0.26450562, 0.1297136, -0.0033718192, -0.14882618, -0.027010696, 0.15510502, -0.13116877, 0.13243876, 0.29493085, -0.159246) * go_3(0.0, 1.0);
result += mat4(0.14412704, -0.043252222, 0.038036022, 0.21720204, 0.16157351, 0.25108346, 0.05750981, -0.11665398, 0.15858066, 0.13024889, -0.30726764, -0.017599456, -0.13654993, 0.16810633, -0.22028227, 0.054728623) * go_3(1.0, -1.0);
result += mat4(0.04761309, -0.1425047, 0.121673144, -0.0067104516, 0.13617267, 0.11343255, 0.14773287, -0.111807466, 0.29447448, 0.043634728, 0.040583152, -0.22446026, -0.17453341, -0.1746306, -0.27435815, 0.1823859) * go_3(1.0, 0.0);
result += mat4(0.0914674, -0.1296898, 0.081237026, -0.03182429, -0.082685776, 0.08469174, -0.014075701, 0.043630067, -0.02028655, 0.043165345, 0.14293486, 0.03086512, 0.16910627, 0.32537475, -0.022409504, -0.15651123) * go_3(1.0, 1.0);
result += vec4(-0.010434646, -0.007589305, 0.03614506, 0.017320616);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.13837793, -0.05485083, -0.11455316, -0.23340753, -0.0019060506, 0.014073009, -0.006939684, 0.013028122, 0.0070730825, 0.07576272, -0.046580516, -0.10440529, -0.14514132, 0.118322305, 0.15771718, -0.10368211) * go_0(-1.0, -1.0);
result += mat4(0.0033887655, 0.105515614, -0.022994144, 0.20720185, 0.014884114, 0.04068789, 0.14153919, -0.20556916, -0.106429465, 0.15578473, 0.17493904, 0.27673894, 0.068228535, -0.17600566, 0.117449455, 0.1464803) * go_0(-1.0, 0.0);
result += mat4(-0.13132714, 0.057890475, -0.15540479, -0.05904855, 0.10353088, -0.014439668, 0.10086415, -0.035871122, 0.15052663, -0.017041713, 0.039761867, -0.20937371, 0.034573525, -0.10553617, 0.054362305, -0.1131222) * go_0(-1.0, 1.0);
result += mat4(0.043574177, -0.12957309, 0.06257102, 0.059841774, 0.025344899, -0.08974694, -0.02106646, -0.083086155, 0.044729084, 0.07391884, 0.026620472, 0.029281206, 0.0439835, -0.040075477, 0.20127645, 0.08995277) * go_0(0.0, -1.0);
result += mat4(0.4999535, -0.16519144, -0.082569085, 0.08618579, 0.20361039, -0.16703975, 0.013153, 0.19670624, 0.2853662, -0.11533776, -0.109247334, 0.06345074, 0.0635587, 0.104548655, 0.31481677, 0.2264137) * go_0(0.0, 0.0);
result += mat4(0.029020509, 0.24992752, 0.5356852, 0.16753946, -0.057788625, 0.02481026, 0.2059601, 0.16616577, -0.078577444, 0.307072, -0.08813778, 0.09565001, 0.02336261, -0.1928066, -0.0876608, -0.15015014) * go_0(0.0, 1.0);
result += mat4(0.079325944, 0.062302455, -0.10960886, -0.0025239969, 0.02924214, 0.026142644, 0.0821952, 0.008034841, 0.121127814, 0.109858714, -0.053383715, 0.22161359, 0.03572371, 0.013655175, -0.27442926, 0.038870957) * go_0(1.0, -1.0);
result += mat4(-0.057337154, 0.03110442, 0.07781571, 0.17697155, 0.10287903, 0.10192227, -0.036485553, -0.07374302, 0.081604324, 0.1566476, 0.23592737, 0.09747013, -0.095862515, -0.1456753, 0.057745866, -0.17291927) * go_0(1.0, 0.0);
result += mat4(-0.070838295, 0.15307118, -0.16363588, 0.08716062, -0.012117197, 0.09717453, -0.057428412, 0.019387208, -0.011734471, 0.28442237, -0.0138647, 0.1619097, 0.046210334, -0.06327717, 0.035489302, -0.055681925) * go_0(1.0, 1.0);
result += mat4(0.03013589, -0.16602181, 0.00417107, -0.022452664, 0.03615902, 0.09972378, -0.043409757, -0.028448848, -0.055032104, 0.08841848, -0.12667881, -0.06865927, -0.020555131, -0.09292043, 0.03676055, 0.1469838) * go_1(-1.0, -1.0);
result += mat4(-0.03413294, 0.1853497, -0.21196875, -0.2122292, -0.046451584, 0.33640862, 0.11074589, 0.0038315703, -0.32845765, -0.018679257, -0.24653831, 0.15887207, 0.018353334, -0.32828686, 0.070055164, 0.22649562) * go_1(-1.0, 0.0);
result += mat4(-0.11916958, -0.11415976, 0.10442459, 0.026471134, 0.15098315, 0.030927312, 0.08758737, 0.04333666, -0.40113255, -0.22881064, -0.18026584, 0.010727328, 0.04185913, -0.033592816, 0.019705769, -0.09931264) * go_1(-1.0, 1.0);
result += mat4(-0.024548884, 0.070657834, 0.04315053, -0.09292352, -0.023722034, -0.06946775, -0.017095754, 0.14835307, -0.030104019, 0.13317905, 0.052319784, 0.18717423, 0.024163181, 0.04198584, 0.024550296, 0.09124823) * go_1(0.0, -1.0);
result += mat4(0.36571705, 0.28200173, -0.031241365, 0.32836193, 0.15685938, 0.14499408, -0.03710283, -0.105348445, 0.2111411, -0.14371765, 0.22234774, 0.12241296, 0.12288187, -0.29133305, -0.23992771, 0.102442585) * go_1(0.0, 0.0);
result += mat4(-0.30764952, -0.38244587, -0.021552043, 0.02371933, -0.043024007, -0.09969857, -0.08754052, -0.05584622, 0.32374346, 0.21340463, 0.110945925, -0.19904156, -0.1425847, -0.16605812, -0.14231746, -0.14958249) * go_1(0.0, 1.0);
result += mat4(0.07996341, 0.036993798, 0.013508032, 0.015037227, -0.05188829, -0.08953449, 0.024801137, 0.20462893, -0.013199976, -0.19138044, -0.056084607, 0.14518543, -0.029846137, 0.033994604, 0.006321045, -0.19919403) * go_1(1.0, -1.0);
result += mat4(0.09230355, 0.17356168, -0.057000663, -0.10861382, 0.038658872, 0.01218888, 0.19109936, 0.021123217, 0.042241503, 0.008514072, 0.031998653, 0.014464009, -0.036506813, 0.27310863, -0.052563597, -0.21396813) * go_1(1.0, 0.0);
result += mat4(-0.036255296, -0.11269877, -0.07659167, -0.09690911, -0.027218975, 0.105712906, 0.05750272, 0.14222133, 0.016676722, 0.0962918, 0.05514509, -0.023851087, -0.07117767, -0.020666543, -0.23072378, -0.043072045) * go_1(1.0, 1.0);
result += mat4(0.1542571, -0.13077767, -0.0881844, -0.00536349, 0.019526271, -0.1529528, -0.11660246, -0.1698449, 0.019345785, -0.039716557, 0.14421196, 0.08003151, 0.15334103, -0.16667187, 0.006088769, 0.13378714) * go_2(-1.0, -1.0);
result += mat4(-0.08746076, 0.060209457, 0.051582757, 0.02863364, 0.1454257, 0.42194176, 0.09892967, 0.26043537, -0.06934357, -0.1020657, 0.23833197, 0.15991127, 0.09294198, 0.017690487, 0.11748737, -0.2849694) * go_2(-1.0, 0.0);
result += mat4(0.12285264, 0.073884204, -0.027040116, 0.03438263, -0.060739577, 0.17927702, 0.16900496, 0.3545027, 0.1545223, -0.09951323, 0.42339948, 0.14226453, 0.10644413, 0.15645456, -0.03346077, -0.009488195) * go_2(-1.0, 1.0);
result += mat4(-0.080912456, 0.16929491, 0.027275667, -0.020797532, 0.05746718, -0.071174294, 0.3193612, 0.055932105, 0.031726856, -0.03390961, 0.13757136, -0.017296424, -0.041106436, 0.02487556, -0.29788992, -0.29300368) * go_2(0.0, -1.0);
result += mat4(-0.32740706, 0.4221705, 0.35447162, 0.13970987, 0.07307587, 0.65598255, 0.7267268, 0.35669217, -0.24410655, 0.30564576, -0.033510603, 0.20394838, -0.012135275, -0.12212605, 0.00741055, -0.12938774) * go_2(0.0, 0.0);
result += mat4(0.17577599, -0.075835876, -0.06821395, -0.19289997, 0.048764437, 0.11093425, 0.15844633, 0.21540429, -0.14261006, -0.12678951, -0.05380409, 0.21502183, -0.053737447, -0.23268248, 0.077271536, -0.11794149) * go_2(0.0, 1.0);
result += mat4(-0.06283879, -0.11581014, -0.0077474653, -0.051150266, 0.017263902, -0.12403667, 0.13689952, -0.13955206, -0.036969677, 0.04593233, 0.31484202, -0.021023672, 0.006109164, -0.022175733, 0.32699695, -0.26805824) * go_2(1.0, -1.0);
result += mat4(0.07529928, -0.020912366, -0.14532542, -0.13928838, 0.07875855, -0.18651104, 0.47042093, 0.342289, -0.06575549, -0.13776249, 0.21936299, 0.124723375, 0.05280059, -0.07600857, 0.0027616988, 0.11619774) * go_2(1.0, 0.0);
result += mat4(0.06760704, -0.11735106, 0.07262433, -0.040624633, 0.35947633, 0.29390943, 0.025136888, -0.12812558, 0.17102966, -0.15462054, 0.37353945, 0.030337518, -0.01959842, -0.07917661, 0.036980435, -0.008516924) * go_2(1.0, 1.0);
result += mat4(-0.07072042, 0.19770962, -0.039348952, 0.06489617, -0.03382829, -0.11054973, -0.035438936, 0.011020459, -0.050599303, -0.07308136, -0.029521624, 0.0694216, 0.021597218, 0.07275136, 0.1196986, -0.021191286) * go_3(-1.0, -1.0);
result += mat4(0.027155813, -0.024280313, -0.1322834, 0.219577, 0.013412778, 0.027934693, -0.10113296, 0.16649272, 0.029343246, 0.08333487, -0.09067474, -0.06318277, 0.016611677, 0.22737436, 0.11019619, -0.11105013) * go_3(-1.0, 0.0);
result += mat4(-0.10233781, 0.04936236, -0.12536384, 0.1270058, -0.07842266, 0.0018531404, 0.021235077, -0.13014361, -0.06192502, -0.07054751, -0.05475905, 0.053059015, 0.15269022, 0.11485296, -0.09188326, -0.13495958) * go_3(-1.0, 1.0);
result += mat4(-0.038748156, 0.17470013, 0.008070423, 0.47245374, 0.14041074, 0.0029743444, 0.09280988, -0.16300924, 0.025588343, 0.042092193, 0.021749513, -0.07912978, -0.08887605, -0.06223286, -0.017056612, 0.11412155) * go_3(0.0, -1.0);
result += mat4(-0.62907135, -0.054125126, -0.3091851, -0.2599738, 0.24917828, 0.36420155, 0.07772076, 0.039711658, -0.25157338, -0.023638945, -0.054642107, 0.25950512, -0.26855794, 0.16737756, -0.011335203, -0.383141) * go_3(0.0, 0.0);
result += mat4(0.019852921, 0.2599611, -0.17794183, 0.086149536, 0.27634904, 0.21865687, -0.047085866, -0.08818839, 0.013813605, 0.21364933, -0.22009525, -0.030338509, -0.1512191, 0.042633552, -0.17577383, 0.0662118) * go_3(0.0, 1.0);
result += mat4(-0.15513746, -0.07846239, -0.13220623, 0.106471166, 0.05573645, 0.16334842, -0.07945537, -0.19104981, -0.013032576, 0.08952008, 0.055789266, -0.035824023, -0.017594192, -0.04652965, -0.30483812, 0.054347165) * go_3(1.0, -1.0);
result += mat4(0.054959666, -0.055990525, 0.142193, 0.09890494, 0.047798425, 0.15105279, -0.16933344, -0.08214855, -0.11551477, 0.06605292, -0.20606443, -0.04266445, 0.01709317, -0.097884715, -0.21919689, 0.024738865) * go_3(1.0, 0.0);
result += mat4(0.009435747, -0.0011143036, 0.08239794, 0.06413721, -0.09412612, -0.07816752, 0.0070877066, -0.054295234, -0.02152047, -0.057394918, -0.02919309, 0.020081067, -0.03086805, -0.056924064, 0.026491363, 0.015115628) * go_3(1.0, 1.0);
result += vec4(0.0012513401, 0.026057906, 0.010539876, 0.009830541);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf1
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.057580933, 0.01911187, -0.008719538, -0.017969212, -0.24201718, -0.058988657, -0.0025294814, -0.011815471, -0.10723921, -0.19644037, 0.020027963, 0.035667516, 0.08559372, 0.27885816, 0.064953476, -0.05350714) * go_0(-1.0, -1.0);
result += mat4(0.045166798, -0.10751055, 0.053228382, 0.12519331, 0.25117958, 0.06537292, -0.15587787, -0.07206778, 0.06837826, -0.043205425, -0.12318706, -0.15438488, 0.03246428, 0.074852064, 0.062248066, -0.009753593) * go_0(-1.0, 0.0);
result += mat4(0.09432274, 0.011490796, -0.04061421, -0.16661306, 0.05983951, -0.020288106, 0.029864697, 0.013547436, 0.021477815, -0.07964464, 0.045970913, 0.16307391, -0.04462305, 0.046968628, 0.029862186, 0.11649774) * go_0(-1.0, 1.0);
result += mat4(-0.14416671, 0.12803924, -0.18187119, -0.15840115, -0.10262368, 0.043705128, -0.10072281, -0.06468493, -0.043781534, -0.015372785, -0.16681372, 0.05544772, 0.03745967, -0.30812827, 0.007939141, -0.14296778) * go_0(0.0, -1.0);
result += mat4(-0.10959357, -0.23731256, 0.17797269, 0.1566764, -0.04658083, -0.08226227, 0.065335095, 0.12799698, -0.04347693, 0.07439239, 0.124068074, -0.12433461, 0.39953944, -0.4547675, -0.15020098, 0.029323136) * go_0(0.0, 0.0);
result += mat4(0.008521254, -0.42012635, -0.103437595, -0.14140712, -0.13161388, -0.04296955, -0.03418078, -0.11619488, -0.113280736, -0.04337926, -0.15152383, -0.025833655, -0.037376937, 0.028724195, 0.035038933, 0.07584188) * go_0(0.0, 1.0);
result += mat4(-0.0015208189, 0.02739281, 0.07880385, -0.05264596, 0.0006570586, -0.053559244, -0.060818747, 0.0014127572, -0.12706065, -0.22151639, 0.0050813453, 0.03868026, 0.017800469, 0.08653453, 0.12580872, 0.10975057) * go_0(1.0, -1.0);
result += mat4(-0.016247116, 0.060199317, 0.08806292, -0.0053588278, -0.036467995, 0.14757904, 0.010754306, 0.060899615, -0.1110678, -0.050623085, -0.021320427, -0.1970179, 0.1138183, 0.02913883, 0.011708719, -0.0031000238) * go_0(1.0, 0.0);
result += mat4(-0.07490824, 0.26012638, 0.023562372, -0.04637545, 0.015996248, -0.02646302, 0.0035619289, 0.009863964, 0.004463742, -0.13282667, 0.04664953, -0.07782132, 0.026051573, -0.13182716, -0.03470513, 0.082064465) * go_0(1.0, 1.0);
result += mat4(-0.04953172, 0.055778302, -0.007956572, 0.06453463, -0.112365015, 0.031204617, -0.031123973, 0.13237885, -0.08588153, -0.15947914, 0.25160727, -0.0101198545, -0.09021632, 0.0047894586, -0.008986191, -0.11622616) * go_1(-1.0, -1.0);
result += mat4(-0.07868324, -0.03463213, 0.011006695, 0.0033356217, 0.032993857, -0.10459223, -0.11331984, -0.17686851, -0.13263261, -0.22213052, 0.10728409, -0.1332059, -0.0019830016, -0.062202223, -0.12468388, -0.102955) * go_1(-1.0, 0.0);
result += mat4(0.06774758, -0.019607622, -0.054707706, -0.032572657, -0.056999106, 0.0063034142, -0.0040720105, 0.04574635, 0.21903323, 0.13402393, -0.07107346, -0.08973124, 0.020255536, -0.021238161, -0.104306765, -0.009237116) * go_1(-1.0, 1.0);
result += mat4(0.10643413, -0.116414584, -0.097003944, -0.07626372, -0.28920346, 0.023803055, 0.07691808, 0.015008518, -0.1373578, 0.01935071, -0.07574301, 0.052712873, 0.09657614, -0.02497193, -0.0043158466, -0.09333523) * go_1(0.0, -1.0);
result += mat4(-0.25414145, -0.26243624, 0.12937985, -0.17944777, 0.3664257, -0.06487048, -0.10509681, -0.10630014, 0.075283855, 0.4662916, -0.0014712083, -0.29535007, -0.13022043, 0.25766194, 0.14769283, 0.10512634) * go_1(0.0, 0.0);
result += mat4(0.0689302, 0.022661772, -0.043984957, 0.13596754, -0.06885858, 0.059424106, 0.017230453, 0.08873089, 0.32940426, -0.12071059, -0.08323642, 0.23238598, -0.06291085, 0.09859973, -0.00700876, 0.12986307) * go_1(0.0, 1.0);
result += mat4(-0.060717613, 0.030503884, -0.06323549, 0.0059739, 0.08190414, 0.047006775, -0.0023143853, -0.027005509, -0.17168896, 0.20450558, 0.047933526, -0.03124133, 0.14688456, 0.044616744, -0.07474459, 0.13730273) * go_1(1.0, -1.0);
result += mat4(0.16486372, 0.13952915, 0.1093748, -0.031850196, -0.14090009, -0.120079, 0.023628023, -0.077027865, 0.09811187, -0.033171307, -0.03331771, -0.038893215, 0.011286584, -0.15111947, -0.017341943, 0.0015878569) * go_1(1.0, 0.0);
result += mat4(-0.09481133, 0.107053526, 0.047643233, 0.16805217, -0.0678524, -0.07519125, -0.02258995, -0.13705339, 0.16563395, -0.16972524, 0.04326224, 0.024816778, 0.010601283, -0.041156873, 0.062542215, 0.047571044) * go_1(1.0, 1.0);
result += mat4(0.12500185, -0.006936863, 0.024489427, 0.1740798, -0.036525737, -0.12511401, 0.07990025, 0.02839474, -0.12753619, -0.06010621, 0.08279232, -0.081194244, -0.09039855, -0.18112564, -0.26476932, -0.031485114) * go_2(-1.0, -1.0);
result += mat4(-0.100102335, 0.22857793, 0.14938287, -0.014803003, -0.17217094, -0.62685734, 0.095959224, 0.17851897, 0.06559054, 0.10896349, 0.0067452556, -0.07877991, 0.15820199, -0.19860643, -0.23554341, 0.108216554) * go_2(-1.0, 0.0);
result += mat4(-0.06440183, -0.086768515, 0.06501931, -0.013325654, 0.048092242, -0.2516782, -0.07378936, -0.5093634, -0.21180914, 0.028729467, 0.097722694, -0.10443471, 0.087278105, -0.13554108, -0.07925715, 0.025918096) * go_2(-1.0, 1.0);
result += mat4(0.101379745, -0.098901495, 0.088425554, 0.10312074, -0.06832467, -0.14247051, -0.06577163, 0.038505282, -0.058837283, -0.041290045, 0.024700344, -0.03952513, 0.050091445, 0.20111398, -0.12729187, 0.17162229) * go_2(0.0, -1.0);
result += mat4(-0.14357474, -0.52516335, -0.28848764, -0.25948864, -0.6469683, -0.25461218, -0.12740892, -0.23631012, -0.14096075, -0.28670883, 0.12026559, -0.17575467, 0.40593022, 0.09236864, 0.11895183, -0.21580887) * go_2(0.0, 0.0);
result += mat4(-0.027686533, -0.014736693, 0.11776454, 0.104835264, -0.1122669, -0.10067572, 0.054669123, -0.3256272, -0.1618158, 0.24705333, 0.07530265, -0.16693603, 0.11981224, -0.01764311, 0.035309367, 0.18991415) * go_2(0.0, 1.0);
result += mat4(0.075753845, 0.030512655, -0.033218108, -0.0020751022, -0.059813447, 0.13577273, -0.17669228, -0.015658198, -0.03524086, -0.027248759, 0.011696296, -0.13176118, 0.13976848, -0.11381985, -0.069327734, -0.04551793) * go_2(1.0, -1.0);
result += mat4(0.025345126, -0.017192554, -0.10062235, 0.19348828, -0.1404843, 0.19161314, -0.266943, -0.30460906, -0.25685784, 0.023311002, -0.21997964, -0.04452797, 0.039271735, -0.0077815196, 0.05758964, 0.08804478) * go_2(1.0, 0.0);
result += mat4(0.04886391, -0.017406208, -0.038027596, 0.012643386, 0.14007851, 0.0012767792, -0.115759425, 0.097489856, 0.17599659, -0.050711423, -0.084151536, -0.15770845, -0.08287477, 0.120081306, 0.015947923, -0.06668065) * go_2(1.0, 1.0);
result += mat4(-0.10980535, 0.12270783, 0.063907675, -0.07847296, 0.10355225, -0.31747913, -0.10403689, 0.005290646, 0.07667107, -0.10277437, -0.08069292, -0.02559804, -0.047999926, 0.29834297, -0.036717292, -0.05650061) * go_3(-1.0, -1.0);
result += mat4(-0.103821196, -0.009593053, 0.066295676, -0.38370672, -0.037927628, -0.2711836, 0.1377398, -0.08418159, -0.0737972, -0.039782777, 0.13933297, 0.04516865, -0.06268818, 0.337236, -0.121655226, -0.008400626) * go_3(-1.0, 0.0);
result += mat4(-0.15113829, 0.0017028727, -0.02523152, 0.020020628, 0.14301538, -0.20421621, -0.07266804, 0.04835691, -0.03385325, 0.06579219, -0.026479365, -0.037032843, 0.038153037, 0.014210751, -0.03542229, 0.0710242) * go_3(-1.0, 1.0);
result += mat4(0.0054667736, 0.01744876, 0.3065127, 0.049586684, 0.18856415, 0.2730343, -0.2333077, 0.0068653813, 0.3263104, 0.1581569, -0.067741506, -0.10893117, -0.23163976, 0.0029724934, 0.21427019, -0.05729933) * go_3(0.0, -1.0);
result += mat4(0.2783585, 0.17852917, -0.1389073, 0.1369532, -0.10491301, 0.3753245, -0.2739856, 0.18703647, -0.64889586, 0.06298504, -0.29364008, 0.17944366, 0.09733316, -0.21755181, 0.090409346, -0.022404745) * go_3(0.0, 0.0);
result += mat4(-0.08643692, 0.043516237, 0.07125337, -0.23520306, 0.042653214, 0.058355685, -0.13027787, -0.0015239809, 0.06168663, 0.04952333, 0.03217504, -0.094814256, 0.25104445, 0.06959146, -0.14522897, -0.034003105) * go_3(0.0, 1.0);
result += mat4(0.10193368, 0.109207876, 0.06922978, -0.035177775, 0.08234648, -0.24269609, 0.05216447, 0.07194904, 0.08424774, -0.023948545, 0.1292036, -0.16073976, -0.11004149, -0.14011864, 0.05699544, 0.08603814) * go_3(1.0, -1.0);
result += mat4(-0.159505, 0.011439578, 0.031358175, -0.074699186, 0.16425711, -0.29734048, 0.06415531, 0.09782104, -0.047154855, -0.053923853, 0.13791925, 0.01920221, 0.2510621, 0.011180524, -0.02389365, 0.22188987) * go_3(1.0, 0.0);
result += mat4(-0.052833233, -0.0011790307, 0.01832988, -0.087143995, 0.16383314, -0.018386772, 0.018473852, 0.022136362, 0.00095872144, 0.059976995, 0.00461632, 0.006194564, -0.05576084, 0.19239509, 0.07017777, -0.0542914) * go_3(1.0, 1.0);
result += vec4(-0.03782637, -0.0035752894, -0.010155095, -0.025359483);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_last_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.02066797, -0.013601862, -0.007048889, -0.010436224, -0.013475746, 0.017484829, 0.003569871, 0.010704422, -0.013622159, 0.0051929723, -0.01672668, -0.011980923, 0.03233822, -0.008870257, 0.024951939, 0.011703474) * go_0(-1.0, -1.0);
result += mat4(0.09294306, 0.0014346406, 0.08119577, -0.008968148, -0.003100696, 0.026659792, -0.012744048, 0.02888033, -0.032950055, 0.016204342, -0.017369213, 0.022491494, 0.049124617, -0.027378289, 0.02111168, -0.037705775) * go_0(-1.0, 0.0);
result += mat4(-0.008216952, -0.021160914, 0.040945128, -0.010472813, -0.005768232, 0.0016923469, -0.0061864546, 0.0007168136, -0.014967856, -0.0013775446, -0.03696006, -0.0011331941, 0.006405253, 0.0030893548, 0.052975312, -0.0077081146) * go_0(-1.0, 1.0);
result += mat4(0.1026977, 0.06607977, -0.025372373, -0.03354179, -0.034359697, -0.046674587, -0.012842571, 0.0041260347, 0.0189941, -0.029389031, 0.028211223, 0.010089593, -0.0057367194, 0.053311557, -0.037211698, 0.0035831304) * go_0(0.0, -1.0);
result += mat4(0.21819879, 0.24159485, 0.25479653, 0.22689046, -0.14693534, -0.101709016, -0.12968269, -0.11193918, -0.17564386, -0.09321151, -0.1088182, -0.098540194, 0.016255755, 0.11983511, 0.07260058, 0.11377339) * go_0(0.0, 0.0);
result += mat4(-0.0065045636, -0.014916138, 0.08657154, 0.08976987, -0.013105138, -0.014341284, -0.07822386, -0.05141758, -0.008127414, -0.023220202, -0.07729052, -0.05847569, -0.014462153, -0.008247349, -0.029479884, 0.053986717) * go_0(0.0, 1.0);
result += mat4(-0.05111642, 0.013267287, -0.010962933, -0.0062592067, 0.031603336, 0.017792836, 0.040512457, 0.021096494, 0.025952626, 0.03858803, 0.009819873, 0.014087486, -0.016874991, -0.021088999, 0.0048008533, -0.014261808) * go_0(1.0, -1.0);
result += mat4(-0.054689944, 0.019172559, -0.10202758, 0.01563535, 0.024953881, -0.042438734, 0.03068713, -0.019600231, 0.0026854384, -0.08990359, 0.038635172, -0.0014791996, -0.045267813, -0.06297795, -0.050205074, -0.036708377) * go_0(1.0, 0.0);
result += mat4(-0.009820029, -0.007953665, -0.0030171487, 0.025994476, 0.0055633057, 0.0023106632, -0.0011157666, -0.032652337, 0.02231576, 0.0150678335, -0.00035031908, -0.049004823, -0.0048957765, -0.007189859, -0.022652647, -0.039600767) * go_0(1.0, 1.0);
result += mat4(-0.025157524, 0.005564745, 0.0077270563, -0.007929144, 0.07835409, -0.03961485, 0.0042581395, -0.012796515, 0.018968092, 0.0065416014, -0.018439304, -0.031132344, -0.008802365, -0.019820224, -0.053818177, 0.019140625) * go_1(-1.0, -1.0);
result += mat4(0.024769353, -0.016378574, 0.11481205, -0.026075391, -0.028652724, -0.008835214, 0.06427986, -0.04859151, -0.014552956, -0.028410029, 0.111585446, 0.009804185, -0.042241797, 0.0019805022, 0.03361954, -0.017370641) * go_1(-1.0, 0.0);
result += mat4(0.034053475, 0.038674638, -0.04696516, -0.0045251776, -0.0039383816, -0.0021523088, -0.021408198, -0.0003014931, -0.023644248, 0.020932276, -0.108067356, 0.030942762, -0.026552102, -0.0056460355, 0.008178258, -0.0009253607) * go_1(-1.0, 1.0);
result += mat4(0.078304745, 0.011302627, -0.036976036, -0.013908656, -0.10690595, 0.016818136, 0.015758326, -0.016121918, -0.037873853, 0.00037048876, -0.009456388, -0.016097274, 0.057774395, 0.15647416, 0.00012419945, -0.085859895) * go_1(0.0, -1.0);
result += mat4(-0.2873381, -0.16951321, 0.14959157, 0.36375824, -0.16162755, 0.30172205, -0.28958184, 0.2487593, -0.10533105, 0.42946494, -0.20263031, 0.23740861, 0.023840647, -0.06442918, -0.29647085, -0.12943329) * go_1(0.0, 0.0);
result += mat4(0.0029997546, 0.023317888, -0.023340696, -0.09114311, -0.05119816, -0.08453361, -0.041490365, 0.006037165, 0.016185664, -0.08495001, 0.08690409, 0.10635855, -0.0121372985, -0.0061607, -0.03049874, 0.03893408) * go_1(0.0, 1.0);
result += mat4(-0.010922993, 0.03413124, -0.011615248, -0.016528865, 0.015621528, 0.08856427, 0.01220382, 0.0052098404, 0.04833281, 0.037831176, 0.026502393, 0.0107578635, 0.029293455, -0.0051649977, 0.007572071, 0.010101437) * go_1(1.0, -1.0);
result += mat4(0.0016892543, -0.086751014, -0.0041350387, -0.06005637, 0.041606825, -0.19200447, 0.028292444, -0.017876074, 0.0101423515, -0.08625792, 0.09077659, 0.024676733, -0.046471898, -0.021680003, 0.007921834, -0.079603985) * go_1(1.0, 0.0);
result += mat4(0.017057033, -0.008013634, -0.018102577, -0.01345755, 0.0620006, -0.025968201, 0.07138734, -0.09975251, -0.005465781, -0.011184834, -0.0651285, -0.079556055, -0.00055764546, -0.007492052, -0.029603545, -0.07078825) * go_1(1.0, 1.0);
result += mat4(-0.10589389, 0.021210285, -0.028930133, 0.016055413, -0.18338472, -0.051082015, 0.1020663, 0.014365114, 0.11688869, -0.039388333, 0.009866559, -0.03795289, 0.013310502, 0.023231732, 0.007659133, -0.0027602138) * go_2(-1.0, -1.0);
result += mat4(0.0025395593, 0.0073232944, -0.04352944, 0.019918712, 0.020041449, -0.073162615, 0.096950345, 0.021914015, -0.17350666, 0.12829295, 0.07900105, 0.03115375, -0.012729986, 0.025017815, -0.19016227, 0.03532046) * go_2(-1.0, 0.0);
result += mat4(-0.004561337, 0.018127436, -0.03147566, 0.014196702, 0.016791651, -0.0021540376, -0.021546744, -0.006671925, -0.008601794, 0.0384946, -0.16477007, 0.122372, -0.03592093, -0.016040638, 0.025269061, 0.023783052) * go_2(-1.0, 1.0);
result += mat4(0.17777547, -0.29313773, 0.15184408, -0.026345825, 0.046505112, -0.2121665, 0.08373203, 0.1717021, -0.028687157, -0.07293457, -0.062076677, 0.056581914, -0.19576493, -0.1566389, 0.11269683, 0.12300568) * go_2(0.0, -1.0);
result += mat4(-0.2722888, -0.23436427, -0.1575821, -0.48185775, 0.38314724, 0.34028763, -0.22216766, 0.007053101, 0.43936196, -0.106232345, 0.3447898, -0.23145236, 0.17801034, 0.107395455, -0.10301275, -0.37671486) * go_2(0.0, 0.0);
result += mat4(0.027849002, 0.005493108, -0.07151169, -0.037706394, -0.030193258, 0.010484296, 0.12785462, 0.013065869, -0.02244137, 0.07738321, 0.1428445, 0.113706514, -0.016278854, -0.042375315, -0.014864632, 0.009536567) * go_2(0.0, 1.0);
result += mat4(0.016663784, 0.05133444, -0.036621124, -0.008492059, 0.006291255, 0.11044035, -0.06309081, -0.069970004, -0.080658376, 0.09237095, -0.034645274, 0.008006193, 0.0027648888, -0.055031255, 0.03726407, 0.04109432) * go_2(1.0, -1.0);
result += mat4(0.020757113, -0.037167564, 0.10940448, 0.10017512, -0.0557746, 0.068767264, 0.004170172, -0.13714421, -0.03749213, 0.06711421, -0.106826246, 0.11498757, 0.04753172, 0.10241908, 0.029435748, 0.07990668) * go_2(1.0, 0.0);
result += mat4(0.006560853, 0.023810847, -0.024475241, -0.058117945, -0.035195846, -0.04271988, 0.049571864, 0.15042038, -0.007620832, -0.025544636, 0.008050735, 0.01056782, 0.003100258, 0.004679245, 0.006587324, 0.018110644) * go_2(1.0, 1.0);
result += mat4(-0.02249566, 0.007422409, 0.012279647, 0.010022545, 0.009818794, -0.0038862806, 0.0011564652, -0.0012341562, 0.025019286, -0.0007220492, 0.0124062635, -0.0023235283, 0.007858289, 0.005228454, -0.012827192, -0.007885503) * go_3(-1.0, -1.0);
result += mat4(-0.006161589, -0.00088863634, -0.023869669, 0.0018966346, -0.029431801, -0.02086368, -0.0028806294, -0.018974712, -0.061033156, 0.0062700063, -0.013323617, -0.002422788, 0.006092313, 0.023675537, 0.024895974, 0.028143935) * go_3(-1.0, 0.0);
result += mat4(-0.01571405, -0.011126691, -0.023274293, -0.011942278, 0.008145339, 0.002989056, -0.009912996, 0.003355017, 0.027048714, -0.0027421801, -0.017191814, 0.011846277, -0.0014130942, -0.007118815, -0.006929838, 0.0016808703) * go_3(-1.0, 1.0);
result += mat4(-0.008867632, -0.054621387, 0.00521757, -0.001299046, -0.011991457, 0.01253288, 0.007283377, 0.008240456, -0.0328741, 0.030364394, 0.020916186, 0.046377357, -0.0025963385, 0.01801948, 0.017200526, 0.00594781) * go_3(0.0, -1.0);
result += mat4(0.049747035, -0.019024936, -0.037307423, -0.08635432, 0.06362242, -0.031690367, 0.0065028532, -0.008046128, -0.05511954, -0.10017574, -0.105036125, -0.07040073, 0.17360815, 0.01423494, 0.08344793, 0.034444667) * go_3(0.0, 0.0);
result += mat4(0.017059349, 0.018542623, 0.08186985, 0.032335408, 0.025869634, 0.05591529, 0.06690499, 0.03575357, -0.012014303, 0.0105476575, 5.6129655e-05, -0.048691276, 0.018272987, 0.006864036, 0.07919666, 0.011271695) * go_3(0.0, 1.0);
result += mat4(0.0083691375, 0.019432282, -0.0020216214, 0.010078488, -0.010552234, -0.018613037, -0.01894401, -0.019692581, -0.018510802, -0.05016945, -0.019306058, -0.026060628, -0.022509305, -0.026064832, -0.022758938, -0.0126465075) * go_3(1.0, -1.0);
result += mat4(0.014892795, 0.05182727, 0.029640755, 0.042491425, 0.002331018, 0.049497634, 0.023474293, 0.03618418, 0.042020023, 0.022141129, -0.01769678, -0.05579617, 0.01911445, 0.12306055, -0.01590528, 0.034323514) * go_3(1.0, 0.0);
result += mat4(0.006270243, 0.007303163, 0.00036148846, 0.03448912, -0.012123668, -0.009662251, -0.024768578, 0.011880113, 0.022290664, 0.020946119, 0.080712624, 0.07576267, -0.019421795, -0.0020419061, 0.018644858, 0.06175357) * go_3(1.0, 1.0);
result += vec4(-0.0010649486, -0.00016483334, -0.0012494534, -0.00068970193);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_last_tf1
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.0035857174, 0.0015660138, 0.020620639, 0.005492695, 0.001423522, -0.0054458505, 0.012705879, -0.0034037326, 0.0149765, 0.013593896, -0.010144564, -0.0033618324, -0.025044372, -0.015873099, 0.004778018, 0.0032093422) * go_0(-1.0, -1.0);
result += mat4(-0.048154887, 0.0020999224, -0.025491469, 0.006954485, 0.033840816, -0.004235974, -0.0017972046, -0.016532846, 0.021911, -0.019167153, 0.028508998, -0.009081471, -0.007042987, 0.01162185, -0.04339448, 0.0007982697) * go_0(-1.0, 0.0);
result += mat4(0.00692694, 0.0055899867, -0.023532946, -0.005534464, 0.0065109115, -0.0013627014, 0.030455293, -0.0042733895, 0.003067062, -0.0019513131, 0.006832627, -0.009393006, -0.000787669, 0.0077676126, 0.017214414, 0.0005746928) * go_0(-1.0, 1.0);
result += mat4(0.04131343, 0.0061334246, 0.04663622, 0.034750223, 0.08184925, 0.054405987, 0.024695259, 0.049768113, 0.018208977, -0.008268458, -0.0025095541, -0.008479898, -0.024029268, -0.010577515, -0.005219355, 0.018835438) * go_0(0.0, -1.0);
result += mat4(-0.06885562, -0.093354285, -0.048095718, -0.09125787, 0.010425496, 0.05662435, 0.063850805, 0.052370857, 0.005560605, 0.10203871, 0.011031155, 0.0477262, -0.18752532, -0.11192383, -0.101294495, -0.109485805) * go_0(0.0, 0.0);
result += mat4(0.036398027, 0.014735432, 0.016239874, -0.01584611, -0.01778564, -0.004402638, -0.023574408, 0.02128348, -0.0046439893, -0.009485744, 0.0150541775, 0.042738233, 0.002258786, -0.0077040903, -0.10126805, -0.032423664) * go_0(0.0, 1.0);
result += mat4(-0.017738108, -0.005236546, 0.017476387, 0.024146654, -0.008857861, 0.030536365, 0.00078645826, -0.0040980624, 0.011337365, 0.02425144, 0.00035175736, -0.006825428, 0.0052930177, -0.0023696972, 0.005261922, -0.005584412) * go_0(1.0, -1.0);
result += mat4(9.1015834e-05, -0.025756188, -0.03374904, -0.04208741, -0.0063595036, -0.013884236, -0.01298973, 0.017781528, 0.00026187245, -0.03274113, 0.02486941, 0.028255679, 0.035963513, -0.0581295, 0.035199746, -0.0104088895) * go_0(1.0, 0.0);
result += mat4(-0.01260853, 0.0062392578, -0.003071281, 0.01035934, 0.0057190065, -0.0017513676, -0.0026357982, -0.017834812, 0.00678827, 0.008202837, -0.009278475, -0.020972013, 0.010203599, 0.001279875, 0.011321498, -0.041021187) * go_0(1.0, 1.0);
result += mat4(-0.016318664, 0.010274144, 0.0058704168, -0.0003722195, 0.08622261, -0.056748323, 0.012796814, -0.015498583, -0.014841128, -0.013023518, -0.017376468, -0.011344732, -0.0011321327, -0.004839438, -0.065831445, 0.0170905) * go_1(-1.0, -1.0);
result += mat4(0.029771782, -0.029376734, 0.12636128, -0.041424155, -0.037272833, -0.028138392, 0.05147389, -0.071253724, -0.058589596, -0.0038131222, 0.07219576, -0.018886834, -0.03175935, 0.022464748, 0.04460918, 0.007712493) * go_1(-1.0, 0.0);
result += mat4(0.031791184, 0.03750064, -0.04815924, -0.0037787687, 0.027883058, 0.0017699281, 0.00868531, -0.00061983714, 0.014328159, 0.011008469, -0.1027948, 0.061321545, -0.0232413, -0.0036074712, 0.013003957, 0.005047646) * go_1(-1.0, 1.0);
result += mat4(0.061875354, 0.013966958, -0.057976823, -0.027396917, -0.07729206, 0.037510768, 0.05148819, 0.013505393, -0.009836167, 0.017979803, 0.014434765, 0.011236566, 0.038901612, 0.14647634, 0.023550952, -0.05943926) * go_1(0.0, -1.0);
result += mat4(-0.2863236, -0.16270663, 0.13858683, 0.38562158, -0.18246396, 0.30728486, -0.30314833, 0.23621106, -0.09020211, 0.39363787, -0.14761628, 0.27088004, 0.023005886, -0.10956146, -0.33344752, -0.20269877) * go_1(0.0, 0.0);
result += mat4(0.032677263, 0.04735152, 0.013321085, -0.07145408, -0.0017462671, -0.02075628, -0.005706266, 0.07966981, 0.003467664, -0.07971056, 0.053607278, 0.04101255, -0.035280924, -0.01813141, -0.044000223, 0.025542235) * go_1(0.0, 1.0);
result += mat4(-0.008210569, 0.019704876, -0.015133452, -0.03008762, 0.0049174884, 0.08061308, 0.0038117717, -0.002029503, 0.042190753, 0.032804105, 0.014783755, -0.002336826, 0.054137956, 0.005509952, 0.008481185, 0.009885271) * go_1(1.0, -1.0);
result += mat4(0.013837548, -0.07767153, 0.022879202, -0.056488827, 0.065868095, -0.18863344, 0.03467011, -0.010413688, 0.021961903, -0.081908144, 0.088906504, 0.03597804, -0.00019099779, 0.031379074, 0.058308717, -0.026305178) * go_1(1.0, 0.0);
result += mat4(0.0014572622, -0.011619552, -0.026434032, -0.0043500545, 0.047792483, -0.024726411, 0.06545127, -0.11275325, 0.013236977, -0.00022499474, -0.029280944, -0.06866851, 0.006890194, -0.011312297, 0.0012165548, -0.04664351) * go_1(1.0, 1.0);
result += mat4(-0.047752246, 0.0029728701, -0.05373465, -0.005998469, -0.22396794, -0.029485608, 0.09026242, 0.02158353, 0.109403, -0.05481592, 0.010041409, -0.04743197, 0.055757776, 0.02585569, 0.02746905, -0.0030442658) * go_2(-1.0, -1.0);
result += mat4(0.099528484, -0.015010706, 0.100571565, -0.0034939381, 0.012570407, -0.043869816, 0.086886376, 0.05987024, -0.22607432, 0.16655043, 0.061426442, 0.05697152, 0.064990446, -0.005531908, -0.14511855, 0.0076572066) * go_2(-1.0, 0.0);
result += mat4(-0.012711154, -0.003635479, -0.0075224554, -0.0052927425, 0.0028822776, 0.0072370963, -0.056621686, 0.0026998962, -0.03712505, 0.042426053, -0.22980946, 0.14261132, -0.03626141, -0.039392795, 0.085727766, 0.012577211) * go_2(-1.0, 1.0);
result += mat4(0.2062136, -0.19833934, 0.07369608, -0.09740325, -0.034611486, -0.32579082, 0.07641666, 0.15784128, -0.039162353, -0.07734512, -0.033959284, 0.084764875, -0.1607926, -0.11135721, 0.10387057, 0.1112244) * go_2(0.0, -1.0);
result += mat4(0.042789772, 0.07384808, 0.13794817, -0.10090421, 0.22263366, 0.2233975, -0.42347354, -0.17161362, 0.277786, -0.30926275, 0.22161394, -0.37332773, 0.3831451, 0.37317204, 0.079320274, -0.17581266) * go_2(0.0, 0.0);
result += mat4(-0.008462805, -0.017743077, 0.006631768, 0.02413771, -0.03139262, -0.016224122, 0.08141759, -0.057388183, -0.031753678, 0.048525933, 0.058724694, -0.0065176883, -0.022200955, -0.042803597, 0.038398843, 0.10740149) * go_2(0.0, 1.0);
result += mat4(-0.02273882, 0.02042988, -0.04352726, -0.04365105, 0.031618606, 0.12397989, -0.0446275, -0.047745094, -0.07272708, 0.087981805, -0.022883464, 0.021518158, -0.033805974, -0.061570108, 0.029978301, 0.047310177) * go_2(1.0, -1.0);
result += mat4(-0.024014544, 0.03312975, 0.013067503, 0.11282178, -0.024482794, 0.008091268, 0.06432778, -0.15766713, -0.048687667, 0.0051038596, -0.10650007, 0.074438654, -0.031920508, 0.07880885, -0.063074075, 0.053531222) * go_2(1.0, 0.0);
result += mat4(-0.007602651, 0.003247358, -0.010531292, -0.014522784, -0.045127477, -0.04641428, 0.034592852, 0.11708857, 0.016080456, -0.010862374, 0.012204836, -0.019624028, -0.005596978, 0.002570303, -0.01718452, 0.007036096) * go_2(1.0, 1.0);
result += mat4(-0.03400744, 0.0074553913, 0.0043038665, 7.957602e-05, 0.014352309, -0.003674803, -0.014835324, -0.0055977562, 0.033462152, 0.0068732416, 0.0065420493, -0.0026703794, 0.011938421, 0.001983706, -0.0049862997, 0.00021165576) * go_3(-1.0, -1.0);
result += mat4(-0.0033091118, 0.018994803, -0.026634768, 0.020428555, -0.020792423, 0.009742637, 0.032050136, 0.0071278135, -0.052302815, 0.013190179, -0.004127084, 0.009925822, -0.009661492, -0.0073792427, 0.019004244, 0.00037218904) * go_3(-1.0, 0.0);
result += mat4(-0.009932352, -0.00995933, -0.02146786, -0.0038179306, -0.016922737, -0.000982855, -0.03880165, 0.0100428425, 0.018592497, -0.011936452, -0.00839573, 0.012914954, -0.0023291495, 0.0014392055, -0.013602821, -0.00075313775) * go_3(-1.0, 1.0);
result += mat4(0.005934442, -0.067556374, 0.022733796, -0.00048716593, -0.03944287, -0.0031405275, -0.021329157, -0.023225859, -0.048807576, 0.013591428, -0.0012470218, 0.012172492, -0.01362018, 0.01908229, -0.009989492, -0.013456593) * go_3(0.0, -1.0);
result += mat4(0.0331533, -0.038016763, -0.024796762, -0.097570956, 0.040756926, -0.038999844, 0.004969716, 0.02203622, -0.07773537, -0.095957406, -0.13685504, -0.08225932, 0.21070166, 0.06672545, 0.12035284, 0.0874353) * go_3(0.0, 0.0);
result += mat4(-0.011405352, 0.008514039, 0.04049351, 0.003270972, -0.01190376, -0.00082049094, 0.011982737, -0.03732464, -0.008393462, 0.019479843, -0.0030869786, -0.028394854, 0.008670484, 0.0026366632, 0.07985739, 0.020958235) * go_3(0.0, 1.0);
result += mat4(0.009845008, 0.039659, -0.0024999548, 0.025727686, -0.008037673, -0.020821366, -0.016814344, -0.023053886, -0.0108242845, -0.03981645, -0.0041943905, -0.0074299327, -0.040454514, -0.05054933, -0.0098485295, -0.015317222) * go_3(1.0, -1.0);
result += mat4(0.0010468375, 0.035403077, 0.008057769, 0.041717537, 0.01396972, 0.04731576, 0.025122687, 0.038469587, 0.0198318, -0.012237324, -0.030784154, -0.08214199, -0.0328875, 0.080247246, -0.06950492, -0.015201896) * go_3(1.0, 0.0);
result += mat4(0.011373379, 0.00011919624, 0.0068450207, 0.0220856, 0.0008673803, -0.011897817, -0.0020893042, 0.0056429924, 0.021536274, 0.017342292, 0.06635433, 0.056875907, -0.03351322, -0.008332283, -0.015365816, 0.037228417) * go_3(1.0, 1.0);
result += vec4(-0.0009943815, -0.0009860148, -0.0010532598, -0.0012024855);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_last_tf2
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.009554673, -0.0051532127, 0.016102737, 0.0012649148, 0.0077584987, -0.0057105157, 0.014400071, -0.003925339, 0.017135408, 0.013764417, -0.009086141, -0.0025339578, -0.03264511, -0.016280945, 0.00085838477, 0.0019880894) * go_0(-1.0, -1.0);
result += mat4(-0.076804005, -0.0037365195, -0.050517682, 0.0020104242, 0.043787587, -0.0023654283, 0.008199321, -0.016990408, 0.042490408, -0.010710564, 0.040960148, -0.0044487948, -0.019470902, 0.010283459, -0.05382899, 0.0012054538) * go_0(-1.0, 0.0);
result += mat4(0.005319574, 0.008546302, -0.037447132, -0.006825204, 0.012196145, 0.0007432002, 0.03959715, -0.00010419698, 0.010211025, -0.00066449976, 0.023840206, -0.0033524157, -0.003079352, 0.010155542, 0.008363695, 0.00091413554) * go_0(-1.0, 1.0);
result += mat4(0.020189503, -0.01584555, 0.048491407, 0.03190471, 0.09146135, 0.066083826, 0.026668968, 0.0508916, 0.025873413, 9.346497e-05, -0.0008600848, -0.0056697717, -0.02856373, -0.023208767, -0.0029442043, 0.015996031) * go_0(0.0, -1.0);
result += mat4(-0.1150775, -0.14330095, -0.09502353, -0.13884564, 0.03178533, 0.07732762, 0.08540057, 0.07563651, 0.024709824, 0.122676425, 0.025598785, 0.062055748, -0.19433355, -0.13121647, -0.1121546, -0.12868516) * go_0(0.0, 0.0);
result += mat4(0.029061472, 0.0073350146, -0.009606754, -0.043715715, -0.018559197, -0.0032290102, -0.01473082, 0.030312086, 0.0055792383, 0.0023610878, 0.03392709, 0.0651179, -0.004296543, -0.016898727, -0.1092547, -0.05084782) * go_0(0.0, 1.0);
result += mat4(-0.016137538, -0.012792734, 0.017391363, 0.026128957, -0.010817838, 0.032218445, -0.0013944196, -0.004525187, 0.009840227, 0.027271513, -0.0024920607, -0.007501888, 0.009476934, 0.00032995836, 0.0041257427, -0.005625152) * go_0(1.0, -1.0);
result += mat4(0.0126353195, -0.03399586, -0.016907396, -0.04899062, -0.007695538, -0.00612431, -0.017332746, 0.021991903, -0.00045945324, -0.02436651, 0.022777557, 0.032261726, 0.050632916, -0.04296159, 0.049930036, 0.0025758578) * go_0(1.0, 0.0);
result += mat4(-0.017934766, 0.0015081838, -0.007909493, -0.00010294505, 0.014974485, 0.0058351695, 0.0057603214, -0.0069939885, 0.00735945, 0.011284126, -0.008253157, -0.013189189, 0.011712553, 0.004176325, 0.019821197, -0.031529877) * go_0(1.0, 1.0);
result += mat4(-0.01832641, 0.011409, 0.0062228036, 0.0012198171, 0.087020114, -0.048004452, 0.019594414, -0.008977235, -0.021853259, -0.025875412, -0.015291018, -0.017832348, -0.0019894738, -0.003139117, -0.05734562, 0.019568626) * go_1(-1.0, -1.0);
result += mat4(0.019767432, -0.032121878, 0.10731837, -0.04160946, -0.038930662, -0.023509357, 0.04353874, -0.06393884, -0.07079979, -0.011297704, 0.055680044, -0.031674873, -0.02432217, 0.022975061, 0.044791207, 0.008831304) * go_1(-1.0, 0.0);
result += mat4(0.026333796, 0.027133184, -0.05641698, -0.015003387, 0.036531202, 0.001104644, 0.017913498, 0.00035784056, 0.010045828, 0.009374881, -0.112320945, 0.055523388, -0.017043058, -0.0012098805, 0.01718199, 0.0069912164) * go_1(-1.0, 1.0);
result += mat4(0.05305516, 0.0041708737, -0.05804445, -0.028278397, -0.07342492, 0.038176447, 0.045486677, 0.014904428, -0.0017618206, 0.02097501, 0.019868117, 0.019373845, 0.052739795, 0.14912929, 0.037314087, -0.041035987) * go_1(0.0, -1.0);
result += mat4(-0.2646953, -0.15668106, 0.12151133, 0.34568876, -0.16625103, 0.28626326, -0.2804781, 0.22248842, -0.09251715, 0.35097396, -0.13397448, 0.244039, 0.02513416, -0.09538499, -0.29833388, -0.17769372) * go_1(0.0, 0.0);
result += mat4(0.04070677, 0.052483205, 0.024028141, -0.06267387, 0.010479897, -0.006137579, 0.005726815, 0.084615536, 0.0029081039, -0.08204673, 0.040788963, 0.018049795, -0.031891953, -0.019043325, -0.041718785, 0.021308724) * go_1(0.0, 1.0);
result += mat4(-0.001575907, 0.022952983, -0.012997063, -0.02844319, 0.0009266049, 0.06976445, -0.0020330409, -0.008372886, 0.028383447, 0.028487694, 0.0039281887, -0.0070809238, 0.041292112, 0.0025322342, -0.002103223, 0.0054210713) * go_1(1.0, -1.0);
result += mat4(0.024716897, -0.05894056, 0.033999596, -0.044356048, 0.063092224, -0.18046258, 0.033589583, -0.014151911, 0.015899418, -0.07901728, 0.073378325, 0.03326658, 0.0032687644, 0.035330176, 0.05457883, -0.017820554) * go_1(1.0, 0.0);
result += mat4(0.001996882, -0.004963775, -0.020151457, 0.0057843816, 0.040995013, -0.019961083, 0.05682041, -0.10547617, 0.02503235, 0.0036294905, -0.013947642, -0.060715917, 0.01876786, 0.0032777768, 0.01927007, -0.025088508) * go_1(1.0, 1.0);
result += mat4(-0.029518202, 0.0065702717, -0.04704605, -0.0048227045, -0.22110744, -0.029372428, 0.08053116, 0.018663822, 0.105733156, -0.04344413, 0.012286602, -0.038484503, 0.060564645, 0.02851022, 0.032352086, -0.001444222) * go_2(-1.0, -1.0);
result += mat4(0.11888213, -0.007396298, 0.12236374, 0.0014036719, 0.006478195, -0.039041974, 0.07476124, 0.05907462, -0.2318871, 0.15429306, 0.048975263, 0.058071293, 0.07446568, -0.0038836622, -0.12506978, 0.006849885) * go_2(-1.0, 0.0);
result += mat4(-0.007815376, -0.0046987617, 0.0045718704, -0.00088239316, -0.006927552, -0.0014817615, -0.060644537, -0.001377785, -0.052053373, 0.030922025, -0.24218674, 0.121679045, -0.025974795, -0.033550926, 0.09225413, 0.015534639) * go_2(-1.0, 1.0);
result += mat4(0.21073256, -0.14790624, 0.06557328, -0.07896083, -0.048564, -0.32713607, 0.070434004, 0.1443138, -0.046067085, -0.08069691, -0.030934528, 0.0787659, -0.1532774, -0.10070167, 0.088510044, 0.10279543) * go_2(0.0, -1.0);
result += mat4(0.08564646, 0.11520261, 0.17513204, -0.039576255, 0.17702763, 0.18044637, -0.434279, -0.1977341, 0.22995597, -0.3259109, 0.17992231, -0.37692067, 0.376483, 0.3755724, 0.09422753, -0.13918276) * go_2(0.0, 0.0);
result += mat4(-0.0013641209, -0.0061978037, 0.030735753, 0.04674489, -0.01888518, -0.0114997085, 0.072051995, -0.059909277, -0.029514287, 0.037226655, 0.03950886, -0.030156244, -0.017026234, -0.029231733, 0.049310546, 0.12158501) * go_2(0.0, 1.0);
result += mat4(-0.01796674, 0.021739075, -0.035811454, -0.04138176, 0.032448296, 0.11651916, -0.03788447, -0.03756297, -0.06638623, 0.07866896, -0.020593246, 0.021115394, -0.03838543, -0.065531924, 0.024438148, 0.038348224) * go_2(1.0, -1.0);
result += mat4(-0.032326736, 0.041176587, -0.0014080614, 0.110470615, -0.030802252, -0.012258527, 0.059453994, -0.16016562, -0.03715787, -0.0005157213, -0.08924785, 0.06535089, -0.043620374, 0.06014967, -0.07529656, 0.03737166) * go_2(1.0, 0.0);
result += mat4(-0.005197623, 0.0025410433, -0.0057371682, -0.005702406, -0.047433604, -0.045016363, 0.022881668, 0.097284265, 0.0050103525, -0.017835459, 0.002082661, -0.031085419, -0.0127113415, -0.010034892, -0.029547364, -0.008159356) * go_2(1.0, 1.0);
result += mat4(-0.030834803, 0.0057913456, 0.0045642396, -0.0023247486, 0.013091116, -0.0019978182, -0.016291631, -0.0063495245, 0.03679821, 0.0111187175, 0.006293907, -0.00159841, 0.008976987, 0.0016699543, -0.002045872, 0.0021225133) * go_3(-1.0, -1.0);
result += mat4(-0.0015449662, 0.018941572, -0.0231217, 0.019913983, -0.02159856, 0.011715352, 0.03145841, 0.011557888, -0.04381463, 0.016269097, 0.003801907, 0.017497942, -0.01846834, -0.011969666, 0.0077923136, -0.00425442) * go_3(-1.0, 0.0);
result += mat4(-0.006369402, -0.0054975, -0.016373185, 0.0015303852, -0.018976817, -0.0020408076, -0.04186448, 0.00862744, 0.013957444, -0.016489068, -0.00876064, 0.0072258003, -0.0065470496, -0.002731135, -0.01953136, -0.0069286725) * go_3(-1.0, 1.0);
result += mat4(0.01150196, -0.057684112, 0.025627816, 0.0045186444, -0.043896675, -0.0073078806, -0.024036214, -0.025075085, -0.041793358, 0.014898103, -0.0012467141, 0.009073226, -0.025522837, 0.0077871215, -0.016588857, -0.016728807) * go_3(0.0, -1.0);
result += mat4(0.03427146, -0.03154995, -0.014622754, -0.083448716, 0.037077904, -0.042196143, 0.0002654827, 0.016835919, -0.05883882, -0.07723022, -0.12151369, -0.06892644, 0.18169776, 0.04656827, 0.09332061, 0.06265968) * go_3(0.0, 0.0);
result += mat4(-0.020037629, 0.0017381558, 0.028106472, -0.0037192027, -0.015639286, -0.0048114993, 0.006957652, -0.04234011, -0.0035926187, 0.02475383, 0.009671758, -0.013367782, 0.009844827, 0.004127156, 0.072107606, 0.018165117) * go_3(0.0, 1.0);
result += mat4(0.0024197982, 0.034167156, -0.00615297, 0.022378683, -0.005956443, -0.0206202, -0.014193571, -0.0220195, -0.004417834, -0.030854845, 0.0032532495, -0.0012370368, -0.031531993, -0.049196836, -0.0011905541, -0.011573349) * go_3(1.0, -1.0);
result += mat4(-0.012435409, 0.023669207, -0.007541224, 0.030453008, 0.009036608, 0.04195238, 0.019962423, 0.033735633, 0.017467575, -0.008318013, -0.0268461, -0.07455821, -0.035670403, 0.06528855, -0.064557284, -0.022101114) * go_3(1.0, 0.0);
result += mat4(0.011575822, -0.0029453707, 0.0029919853, 0.014933897, -0.00034664775, -0.015719024, -0.002594161, 0.0012937526, 0.006969654, 0.008678383, 0.04876611, 0.049061276, -0.037455864, -0.013019295, -0.02504076, 0.024031559) * go_3(1.0, 1.0);
result += vec4(-0.00052569207, -0.0009582512, -0.00071018364, -0.0011515211);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(L)-Depth-to-Space
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_last_tf
//!BIND conv2d_last_tf1
//!BIND conv2d_last_tf2
//!SAVE MAIN
//!WIDTH conv2d_last_tf.w 2 *
//!HEIGHT conv2d_last_tf.h 2 *
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
vec4 hook() {
vec2 f0 = fract(conv2d_last_tf_pos * conv2d_last_tf_size);
ivec2 i0 = ivec2(f0 * vec2(2.0));
float c0 = conv2d_last_tf_tex((vec2(0.5) - f0) * conv2d_last_tf_pt + conv2d_last_tf_pos)[i0.y * 2 + i0.x];
vec2 f1 = fract(conv2d_last_tf1_pos * conv2d_last_tf1_size);
ivec2 i1 = ivec2(f1 * vec2(2.0));
float c1 = conv2d_last_tf1_tex((vec2(0.5) - f1) * conv2d_last_tf1_pt + conv2d_last_tf1_pos)[i1.y * 2 + i1.x];
vec2 f2 = fract(conv2d_last_tf2_pos * conv2d_last_tf2_size);
ivec2 i2 = ivec2(f2 * vec2(2.0));
float c2 = conv2d_last_tf2_tex((vec2(0.5) - f2) * conv2d_last_tf2_pt + conv2d_last_tf2_pos)[i2.y * 2 + i2.x];
float c3 = c2;
return vec4(c0, c1, c2, c3) + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Upscale_CNN_x2_M.glsl
+300
View File
@@ -0,0 +1,300 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.010995803, 0.077095956, -0.043992598, 0.06048717, 0.1164834, -0.11689607, 0.072985925, -0.078805886, 0.01182932, 0.054985743, -0.09018186, 0.044907484, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.1813623, -0.14752422, 0.025720436, -0.17639883, 0.15697388, 0.10445984, -0.1843076, 0.5264643, 0.047516696, -0.097305484, 0.09740847, -0.29619336, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.014534763, 0.09486465, 0.046173926, 0.039391946, 0.09609376, -0.060574662, 0.042200956, -0.3269777, 0.051006425, 0.059818447, 0.04366627, 0.17699827, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.04268535, -0.08152529, 0.10577459, -0.036936995, -0.051562306, 0.054872766, 0.09194519, 0.0025066638, -0.01073954, 0.00064474024, 0.10038221, 0.02131141, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.51751363, -0.40028602, 0.3469574, 0.5933738, -0.91357684, -0.67692596, 0.57815677, 0.39809322, -0.16341521, -0.27169713, 0.12232366, 0.4318641, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.12601124, -0.06263236, -0.45907676, -0.41514075, 0.3330334, -0.1929565, -0.6333532, -0.6552794, -0.045809917, 0.046351526, -0.26173338, -0.30252662, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.0030332592, 0.012103107, 0.010537323, -0.02038607, 0.095558085, 0.097704545, 0.083433494, 0.026790185, 0.01943357, -0.061712462, -0.00015703632, -0.032268334, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.016870102, 0.5215812, -0.11525501, 0.027527615, -0.09045733, 0.61310345, -0.1575268, 0.1905386, 0.020172214, 0.3503187, -0.08209157, -0.051328037, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.005494087, -0.010656317, 0.07682753, -0.08116042, -0.03934524, 0.16589017, 0.101483546, -0.066603065, 0.03494657, -0.07885597, 0.074227594, 0.0016264897, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(0.014463938, -0.0031906287, 0.007015422, -0.003888468);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_tf
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.08532478, -0.14302494, -0.017921071, -0.0032664281, -0.09841952, 0.024187077, 0.10701477, 0.14110753, -0.05714981, -0.10897174, 0.073803626, 0.103992954, 0.07914382, 0.032193683, -0.18346278, -0.09723936) * go_0(-1.0, -1.0);
result += mat4(-0.034482613, -0.10742312, -0.047286414, -0.08641124, -0.33896688, -0.036533825, -0.48337597, 0.034040943, -0.13598205, -0.080917805, 0.08540263, -0.012667689, -0.009171425, -0.120026454, -0.20536867, -0.032149274) * go_0(-1.0, 0.0);
result += mat4(0.18687321, 0.066278316, 0.024327392, 0.08816582, -0.08017908, 0.09488853, 0.26018232, -0.101504356, 0.17487666, 0.31057635, 0.14785016, -0.09622089, -0.07537452, -0.13844088, -0.05810814, 0.09907489) * go_0(-1.0, 1.0);
result += mat4(-0.04183032, 0.15207712, 0.005002397, 0.32277516, -0.16169126, -0.119836345, -0.04068436, -0.096728764, 0.11943901, 0.1789597, -0.20412198, 0.19009817, 0.36630696, 0.06946421, -0.5254373, -0.11896399) * go_0(0.0, -1.0);
result += mat4(-0.31916487, -0.98911583, 1.0728644, -0.39280394, 0.33458877, -0.17325239, -0.645045, -0.28524077, -0.14512783, 0.24996442, -0.09837877, 0.05468934, 0.31559715, -0.020504637, -0.026724018, 0.24507573) * go_0(0.0, 0.0);
result += mat4(-0.23759829, -0.08530173, -0.16665787, -0.22463752, 0.109896734, 0.13446991, -0.049552456, -0.02385489, -0.01245375, 0.3833208, 0.05758832, 0.1528937, 0.0501858, -0.19651426, 0.0076587177, -0.03297025) * go_0(0.0, 1.0);
result += mat4(0.14554465, -0.01826686, 0.10284085, -0.19152659, -0.017585073, -0.05511482, 0.06362406, 0.023924058, -0.0018977845, -0.103172876, 0.03287086, -0.20085956, 0.36062446, 0.10749464, -0.20984372, 0.018256644) * go_0(1.0, -1.0);
result += mat4(-0.005534592, 0.3709197, -0.18287498, 0.1720451, 0.030155553, -0.023265475, 0.0058617783, -0.031765483, 0.037328955, -0.2730994, 0.35090837, -0.3269043, -0.028477207, 0.32756507, -0.15989502, 0.12158258) * go_0(1.0, 0.0);
result += mat4(0.10873739, 0.19583772, 0.060394943, 0.09410379, -0.04739245, 0.026561242, 0.022990001, 0.1093272, -0.01071349, -0.022938967, -0.046423864, 0.2385325, -0.0319821, 0.046962265, 0.09081178, -0.11001857) * go_0(1.0, 1.0);
result += mat4(0.13012704, 0.112289295, 0.030790284, -0.050499484, 0.11784853, 0.08107028, -0.07556717, -0.15643, 0.015249331, 0.015299608, 0.07748125, 0.054485757, 0.044857923, 0.12161275, -0.048292994, -0.033995003) * go_1(-1.0, -1.0);
result += mat4(0.12931514, 0.15114146, 0.070513315, 0.11246343, 0.4142387, 0.213479, -0.5439916, 0.07776645, 0.13109331, 0.2021147, 0.25932786, -0.22157331, 0.02377734, -0.014970623, -0.1943276, 0.18440372) * go_1(-1.0, 0.0);
result += mat4(-0.22365458, -0.19829084, -0.06881161, -0.06468993, 0.17202774, 0.0048758537, -0.09235021, 0.18941896, 0.064125344, -0.09067088, 0.09748182, 0.13561936, -0.05876288, -0.0122420965, -0.054380875, -0.17743628) * go_1(-1.0, 1.0);
result += mat4(0.18582906, -0.09263032, -0.08210888, -0.20515606, 0.11484005, 0.08557595, 0.0009253741, -0.051202174, -0.18535301, -0.1529345, -0.13092944, 0.03770747, -0.020947013, 0.19187425, -0.15494856, -0.048979875) * go_1(0.0, -1.0);
result += mat4(-0.38131633, 0.4278787, 0.19763695, 0.27655518, -0.08711912, 0.07374453, -0.064803004, 0.5983854, 0.2361923, -0.057221692, -0.37138999, -0.24259573, 0.13890724, 0.25706333, -0.54021406, 0.08095518) * go_1(0.0, 0.0);
result += mat4(0.0991328, -0.022651536, -0.029148921, -0.009812537, -0.09523686, -0.15704902, 0.052389514, 0.21561539, 0.1950314, -0.08572602, 0.0016523858, 0.14125621, -0.030999828, 0.12009709, 0.0373512, -0.105043754) * go_1(0.0, 1.0);
result += mat4(-0.11251988, 0.12106985, 0.011923068, 0.3662747, 0.004800994, 0.017972551, 0.004761366, -0.07934206, -0.13755941, -0.022852683, 0.1502225, 0.009758547, -0.16964264, 0.00984782, 0.07855833, 0.035730787) * go_1(1.0, -1.0);
result += mat4(0.01964957, -0.27226487, 0.033933397, -0.117632054, -0.009058229, 0.047830686, -0.01125145, 0.136628, 0.0056388285, 0.3028781, -0.12286517, 0.23498532, -0.009319075, -0.444048, 0.16174883, -0.06367683) * go_1(1.0, 0.0);
result += mat4(0.02343933, -0.010915871, -0.058680378, -0.21886891, -0.010750894, -0.06671997, 0.0602906, -0.07903071, 0.066891186, 0.06650588, 0.14362891, -0.101870626, 0.02264628, -0.06940821, -0.077616625, 0.110911585) * go_1(1.0, 1.0);
result += vec4(0.032014452, -0.020821465, 0.0826416, -0.002838458);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_1_tf
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.06963679, -0.07560548, -0.069522075, 0.0038078027, -0.08002613, 0.13671301, 0.084461786, -0.039376218, 0.19136548, -0.123174496, 0.26566333, -0.16583005, -0.18664864, -0.023539122, -0.21928434, -0.026818147) * go_0(-1.0, -1.0);
result += mat4(0.16660932, -0.18558703, 0.37230486, 0.118128106, -0.14098641, 0.14659132, -0.22217897, 0.12952235, -0.4139033, -0.04308319, 0.12885277, -0.17986743, -0.23556231, -0.08351981, -0.43240538, 0.019033253) * go_0(-1.0, 0.0);
result += mat4(-0.18008037, -0.04448665, 0.011906908, -0.023056917, 0.18136618, -0.04723555, -0.0050158803, -0.14823224, -0.2105281, 0.023047728, -0.14040631, -0.03178526, -0.13477588, -0.01820428, 0.058358394, 0.23792502) * go_0(-1.0, 1.0);
result += mat4(0.07363309, -0.061728477, 0.03573137, -0.0050971056, -0.012813505, -0.17236637, 0.1697835, 0.055788577, -0.22263195, 0.10324512, 0.58971673, -0.4872246, -0.1555681, 0.032747746, -0.096495196, 0.070196226) * go_0(0.0, -1.0);
result += mat4(0.14174286, 0.099460006, -0.088765986, 0.58350676, -0.025177564, -0.46004987, 0.37007022, -0.11437029, -0.5164534, -0.60465246, 0.38859612, -0.32846406, 0.050266482, -0.20334712, 0.18316261, -0.19327633) * go_0(0.0, 0.0);
result += mat4(-0.09377763, -0.0012762006, -0.028991895, -0.26523829, 0.20173682, 0.037923716, -0.03174243, 0.07103378, -0.10764164, -0.30752546, 0.20556998, -0.1892279, 0.08115748, -0.023550175, -0.07627362, 0.11746628) * go_0(0.0, 1.0);
result += mat4(-0.06998859, -0.017997518, 0.069938794, -0.14943017, -0.14179112, 0.16643842, -0.110231474, 0.08895815, -0.24074875, 0.3277253, -0.07435203, -0.23452802, 0.039962552, -0.07145652, -0.022511544, -0.04571222) * go_0(1.0, -1.0);
result += mat4(-0.059785757, -0.23771374, -0.030571314, 0.25222278, 0.106601834, 0.34398326, 0.14511436, -0.03867526, -0.38982397, -0.11944689, 0.12997924, -0.13079585, 0.005729482, 0.012653905, -0.063693404, 0.09632285) * go_0(1.0, 0.0);
result += mat4(-0.04933823, 0.0547175, 0.050636575, -0.10060694, 0.1344485, 0.19752938, -0.100068115, -0.028829506, -0.14096203, -0.079092234, 0.092109434, 0.011606209, -0.04052607, -0.008347507, 0.06956573, -0.028109524) * go_0(1.0, 1.0);
result += mat4(0.21918017, -0.11115073, 0.2262453, -0.06889667, -0.11256312, -0.07438075, -0.088454485, 0.13672407, -0.06905764, 0.08128395, 0.016103368, 0.050190717, 0.09691516, 0.05845721, 0.4886816, 0.041121427) * go_1(-1.0, -1.0);
result += mat4(-0.3449472, 0.09711974, -0.13881907, -0.018265123, 0.27855873, -0.07030004, 0.29545054, 0.37216932, 0.08657718, 0.099066615, -0.10574013, -0.17667885, -0.14855732, -0.11351448, 0.66945946, 0.11312157) * go_1(-1.0, 0.0);
result += mat4(0.2526151, -0.04594331, -0.06606611, 0.09104881, 0.06857995, -0.075284235, -0.17664689, 0.21578754, 0.0696524, 0.09142951, 0.080997564, -0.0682772, -0.0011445724, -0.11736295, 0.2519232, -0.101926275) * go_1(-1.0, 1.0);
result += mat4(-0.12913518, 0.058357026, 0.195421, -0.15651494, 0.2877076, 0.0033844314, -0.07831594, 0.052855384, -0.031295884, 0.03301088, -0.18408822, 0.06732994, 0.23742151, -0.12568143, 0.22810535, -0.11545694) * go_1(0.0, -1.0);
result += mat4(-0.49203303, -0.22656603, 0.1723193, -0.51250046, -0.09742038, 0.758559, -0.3387505, -0.6193586, 0.14136684, 0.27679884, -0.050113205, 0.31041816, -0.36475047, -0.48746544, 0.3233227, 0.4579754) * go_1(0.0, 0.0);
result += mat4(0.46636763, 0.1507748, -0.2581362, 0.15413165, -0.17160143, 0.14256273, -0.074575804, -0.099299066, -0.0017214464, 0.13778336, -0.07378213, -0.15489665, -0.10533715, -0.0011083825, 0.39584312, 0.0023906573) * go_1(0.0, 1.0);
result += mat4(0.026959421, -0.06391859, 0.0034752619, 0.14521928, -0.0010877338, -0.032619733, 0.005375293, -0.018952755, 0.03381545, -0.007652831, 0.034141563, 0.046016496, 0.11219674, 0.030913852, 0.077403754, 0.17192438) * go_1(1.0, -1.0);
result += mat4(0.040326044, 0.17290725, -0.1220239, -0.09594783, -0.025229257, 0.17913155, -0.26623353, -0.033396784, -0.03075146, 0.009143897, -0.0136083895, -0.13886899, 0.075683735, -0.11584183, 0.22182357, 0.19350322) * go_1(1.0, 0.0);
result += mat4(0.15726025, -0.10215694, -0.060057458, 0.26487043, -0.04075552, -0.016496127, 0.0015382086, 0.108562306, 0.026795091, 0.0441233, -0.08754318, -0.0460157, 0.048422016, 0.14107347, 0.07986661, 0.1047697) * go_1(1.0, 1.0);
result += vec4(0.0766796, 0.08115133, -0.05703058, 0.14025708);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_2_tf
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.18038331, 0.21830973, -0.10019419, -0.022745568, -0.14944611, -0.15669158, 0.46361133, -0.07289843, 0.02976627, -0.09000817, 0.113060996, 0.05635241, 0.012762965, -0.022688959, 0.01629751, 0.061114635) * go_0(-1.0, -1.0);
result += mat4(0.024338024, -0.10004009, -0.13709056, -0.0851965, 0.23927099, -0.024349794, -0.16574804, 0.084686354, -0.047885604, 0.09688507, -0.12733915, 0.06980246, 0.11480734, 0.014669346, -0.07505829, 0.04676309) * go_0(-1.0, 0.0);
result += mat4(0.054203495, 0.011881634, -0.036115017, -0.0686298, -0.13682245, -0.15678032, 0.057050128, -0.03368558, 0.13011025, 0.033391044, -0.09841339, -0.027057761, -0.18701133, 0.20852546, -0.13660902, 0.0005817616) * go_0(-1.0, 1.0);
result += mat4(-0.08077834, 0.35952288, -0.07647382, -0.0033230998, 0.13929126, -0.09155619, 0.14128102, 0.16005981, 0.18161216, -0.09485738, 0.0029118075, 0.052682754, 0.03242074, 0.08299826, 0.073796146, -0.06446532) * go_0(0.0, -1.0);
result += mat4(-0.36655015, 0.4606936, 0.19073649, 0.31655258, -0.006838053, -0.579939, 0.089126326, -0.14021218, -0.3437716, 0.16714323, 0.17705944, -0.22418492, -0.3883696, -0.2302651, 0.2581861, 0.21983066) * go_0(0.0, 0.0);
result += mat4(0.0992383, -0.014257871, -0.023896435, 0.19868234, 0.0408007, 0.07995299, 0.16102871, -0.11668251, 0.22458278, -0.05587917, 0.19373615, -0.016202094, -0.25106144, 0.15634494, 0.11624891, -0.2930768) * go_0(0.0, 1.0);
result += mat4(0.024616942, 0.36248252, -0.14779098, -0.019894283, -0.007111256, 0.010641561, -0.09541178, 0.21236233, 0.009501827, 0.08132797, -0.13983901, 0.027207611, 0.038444366, -0.013995817, -0.16242191, 0.03294123) * go_0(1.0, -1.0);
result += mat4(0.0131698875, -0.18124102, -0.13503514, -0.06099072, 0.07422735, -0.20906176, -0.049005672, 0.08739405, -0.031758767, -0.1978915, 0.23094437, 0.54512614, 0.21338555, -0.011205669, -0.23727885, -0.29533875) * go_0(1.0, 0.0);
result += mat4(-0.0010255767, -0.07168225, -0.033568826, 0.22161655, -0.087293416, 0.11350447, 0.13653576, 0.061226424, -0.13074352, 0.058425818, 0.038460605, 0.2749964, -0.012814839, 0.085885845, -0.038151987, -0.17960808) * go_0(1.0, 1.0);
result += mat4(0.19728905, -0.040724937, -0.18270236, 0.046735186, 0.03507326, 0.119867206, -0.12691991, 0.18119748, -0.052895024, 0.11348764, -0.043787055, 0.004703516, 0.006752757, -0.06939761, -0.009801806, -0.075640485) * go_1(-1.0, -1.0);
result += mat4(0.051735226, 0.1732299, -0.10672899, 0.0320877, -0.4913656, 0.2102274, 0.43920282, 0.059108034, 0.08349019, -0.16517872, 0.15436842, -0.1075667, 0.022741623, -0.26693836, 0.3645307, 0.017874828) * go_1(-1.0, 0.0);
result += mat4(0.034464058, 0.014929155, 0.054227423, 0.14167373, -0.0023630706, -0.08904212, 0.11918041, -0.034539603, 0.06048089, -0.06807333, 0.14447778, 0.035260547, 0.09979546, -0.1924939, 0.14596114, -0.12069667) * go_1(-1.0, 1.0);
result += mat4(-0.04427228, -0.23673469, 0.010357103, -0.2907043, -0.06845721, -0.078984015, 0.06867713, -0.058163825, -0.12154615, 0.08430951, 0.1922373, 0.030108064, -0.43081748, -0.38715646, -0.022240646, -0.15403675) * go_1(0.0, -1.0);
result += mat4(0.46885306, -0.33421394, -0.6695223, -0.41841158, 0.30317923, 0.24244753, -0.1047785, -0.18656285, 0.06261881, -0.4405616, 0.24233986, 0.40070608, 0.81440526, 0.11305212, -0.8826317, -0.023478031) * go_1(0.0, 0.0);
result += mat4(-0.07879348, -0.024378026, -0.041883785, -0.17030984, 0.23229122, -0.011237109, 0.12058088, 0.20766267, -0.36519575, 0.09599417, -0.1271098, 0.06990154, 0.21161246, 0.041002538, -0.36046275, 0.007304667) * go_1(0.0, 1.0);
result += mat4(0.10873893, 0.003872542, -0.13476561, -0.036068805, -0.054637462, 0.02304618, 0.04707738, -0.2856381, 0.07124422, 0.010866545, 0.20484549, -0.008342406, -0.43660247, -0.041055538, 0.33536008, -0.060022205) * go_1(1.0, -1.0);
result += mat4(0.1966458, 0.0016302796, -0.25712642, -0.09639119, -0.006955351, 0.10882133, 0.1107341, 0.062697805, -0.1074494, 0.17361663, 0.6429869, -0.39846307, -0.26302996, 0.048710946, 0.40387508, 0.4299715) * go_1(1.0, 0.0);
result += mat4(0.18948616, 0.24086732, -0.064474985, -0.11069709, 0.1279659, -0.13438123, -0.028438117, 0.125883, 0.018153818, -0.21942288, 0.020390838, -0.22797634, -0.10821287, -0.17175092, 0.122016855, 0.20699544) * go_1(1.0, 1.0);
result += vec4(-0.05101961, -0.060740646, -0.024465766, 0.058471628);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_3_tf
//!SAVE conv2d_4_tf
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.14533128, 0.07266841, 0.13238011, -0.23328504, 0.031516243, 0.058471266, -0.06394412, 0.090752736, -0.0042359144, 0.12357294, -0.04377495, 0.0011743477, 0.05412243, -0.08146249, 0.04002749, -0.032876283) * go_0(-1.0, -1.0);
result += mat4(-0.036972385, -0.15238069, -0.3453321, -0.36025128, 0.07597202, -0.02368151, -0.3889606, 0.34607083, 0.3133179, -0.21712309, -0.4210954, 0.21450534, 0.15226828, 0.25326282, 0.45327064, -0.3350824) * go_0(-1.0, 0.0);
result += mat4(0.019018406, -0.33060563, -0.092601225, 0.14970545, 0.1441509, -0.19228427, -0.032771986, 0.26331595, 0.052981265, -0.06627376, -0.08634131, 0.038706224, 0.13403937, -4.4842476e-05, 0.049002815, -0.12719193) * go_0(-1.0, 1.0);
result += mat4(0.17527401, -0.0035254909, -0.047959115, -0.4526988, -0.07510284, 0.0013256798, -0.07539148, 0.24220634, -0.08708839, -0.14494033, -0.17085724, -0.099797316, 0.0068515535, -0.08918779, 0.27164719, -0.1702649) * go_0(0.0, -1.0);
result += mat4(0.31848368, 0.48983255, -0.44140294, -0.65174145, -0.004199057, 0.19494705, 0.5196497, -0.027118586, 0.032509074, -0.23900363, -0.14489244, 0.36314297, -0.23168536, -0.20960593, 0.61471456, 0.12401275) * go_0(0.0, 0.0);
result += mat4(-0.24317405, 0.21560913, 0.15564032, 0.11606844, -0.15039803, -0.59578896, 0.14100945, -0.026194477, 0.37237462, -0.49472088, -0.15215331, -0.38820064, -0.25089455, -0.29643852, -0.09513793, 0.019779462) * go_0(0.0, 1.0);
result += mat4(0.12498539, 0.0710632, -0.25012368, -0.2272255, -0.08647026, 0.12277892, 0.011025097, -0.12168395, -0.13489573, 0.016708186, -0.15583871, -0.057124946, 0.1216943, 0.019803725, 0.06952334, -0.032985855) * go_0(1.0, -1.0);
result += mat4(0.28794885, 0.33783793, -0.14469545, -0.081780486, -0.50320613, -0.067601606, -0.06847453, -0.021648854, -0.34295765, 0.15071863, -0.06619896, -0.084465064, 0.31909832, 0.015414661, 0.14930317, -0.11295768) * go_0(1.0, 0.0);
result += mat4(0.24530606, 0.25526014, 0.09971985, -0.07749641, -0.2361951, -0.07997673, 0.03617294, 0.02959561, -0.4498983, -0.014073485, -0.20587012, 0.06396779, 0.1262825, 0.027433183, 0.14469334, 0.011538011) * go_0(1.0, 1.0);
result += mat4(-0.038572453, -0.023108613, -0.039481267, -0.012160024, -0.004521989, -0.028665857, 0.04295255, 0.10580258, 0.05439479, -0.072261885, 0.11030243, 0.08934696, 0.09133867, 0.017547369, 0.097613186, 0.05491059) * go_1(-1.0, -1.0);
result += mat4(-0.09972817, 0.057730395, 0.12665828, 0.32861367, -0.16186063, 0.0745509, 0.2394045, -0.08687853, -0.034404907, -0.05843572, 0.0684561, -0.1355754, 0.19248672, -0.60372186, 0.12583947, 0.4388962) * go_1(-1.0, 0.0);
result += mat4(0.10341107, 0.061113223, 0.08773817, -0.082504354, -0.16612078, 0.2681751, 0.019737698, -0.17122322, -0.135949, 0.3048101, 0.087803006, 0.11373851, 0.013192192, -0.27022064, 0.35529897, -0.15321451) * go_1(-1.0, 1.0);
result += mat4(-0.032835662, 0.11123062, -0.11322452, -0.17300649, 0.04680824, 0.12849288, 0.17269878, -0.048671383, 0.05189037, -0.009078046, 0.22105052, 0.013008137, -0.009738674, 0.15391739, 0.20969556, 0.14189166) * go_1(0.0, -1.0);
result += mat4(-0.47377753, 0.3038031, 0.18604809, 0.1931698, -0.2964668, -0.12287907, -0.7107761, 0.26619422, -0.33923018, 0.19200724, 0.013786281, -0.17496964, 0.079325035, -0.3694445, 0.0054486147, -0.33018264) * go_1(0.0, 0.0);
result += mat4(0.14903802, -0.028043179, 1.5238678e-05, 0.021232028, 0.16025065, 0.14746875, -0.22831628, -0.12177345, 0.038778774, 0.32188168, -0.042017702, 0.27155936, 0.17920609, 0.04099755, 0.28527525, 0.074623376) * go_1(0.0, 1.0);
result += mat4(0.057019282, -0.112741895, 0.030361209, 0.14567861, 0.056265317, -0.01573537, -0.06707608, 0.016657263, 0.09829025, -0.026795063, 0.023042196, 0.09438241, -0.025483066, -0.052787006, 0.19730279, 0.021218104) * go_1(1.0, -1.0);
result += mat4(0.19868211, -0.01531125, 0.108596824, -0.035456363, 0.0033609823, 0.057961613, -0.013726211, 0.101742364, 0.33357215, 0.14468077, 0.29711527, -0.24662566, -0.119014986, -0.1899639, 0.11246697, -0.0035374009) * go_1(1.0, 0.0);
result += mat4(-0.05602109, -0.15539522, 0.010730943, 0.057116497, -0.02037749, 0.084210664, -0.028235348, 0.10574697, 0.056925274, 0.07922333, -0.090088, 0.1615985, -0.0044301567, -0.089945644, 0.024176618, -0.041844133) * go_1(1.0, 1.0);
result += vec4(0.0015292584, -0.043625206, -0.09429898, -0.06280405);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_4_tf
//!SAVE conv2d_5_tf
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.06051604, -0.028152643, -0.21418124, 0.13032125, 0.42565975, -0.09571944, -0.34494513, 0.30004, -0.073245734, -0.028659137, 0.0032105136, -0.05009555, -0.048971225, 0.04814533, 0.002843805, -0.046224426) * go_0(-1.0, -1.0);
result += mat4(-0.07495975, 0.018714864, 0.21229684, -0.13614887, 0.79988647, -0.0697328, 0.38232988, 0.24165109, 0.25947478, -0.0009418982, -0.17369923, 0.10007766, 0.024117598, 0.028611807, 0.15090801, -0.06344829) * go_0(-1.0, 0.0);
result += mat4(-0.07982219, 0.0900347, 0.007609254, -0.0034791247, 0.013611781, -0.13560618, 0.09685799, 0.06276075, 0.134693, -0.14370437, -0.25175703, -0.0016138123, -0.0075672898, -0.13325731, -0.061100446, 0.0059743375) * go_0(-1.0, 1.0);
result += mat4(-0.039018434, -0.19668463, -0.43018532, 0.31886247, 0.4965479, 0.114569925, 0.19110382, 0.27343535, 0.0707728, -0.11877004, -0.25827697, 0.37012872, 0.1474777, 0.07056952, -0.14965728, 0.061595406) * go_0(0.0, -1.0);
result += mat4(0.506543, -0.16268773, 0.455319, -0.0702646, 0.70102173, -0.14041683, 0.70184857, 0.4817842, -0.3389246, -0.14463086, 0.13763213, -1.1259074, 0.47722015, 0.38352612, -0.04293366, -0.5604627) * go_0(0.0, 0.0);
result += mat4(0.17606944, 0.15897374, 0.13499324, 0.29241478, -0.032824475, 0.11128662, -0.22204424, -0.051803727, 0.013195331, -0.42040786, -0.3950585, 0.70745844, 0.38646924, -0.19080774, -0.15171832, -0.10742828) * go_0(0.0, 1.0);
result += mat4(-0.039278325, 0.18421806, -0.044948544, 0.07902063, -0.2149251, 0.09913459, -0.09743655, -0.26899317, -0.002695496, -0.07554527, -0.22373366, 0.17830558, -0.047994815, -0.06789183, -0.06755918, -0.104452066) * go_0(1.0, -1.0);
result += mat4(-0.0493473, -0.30411786, -0.056439694, -0.06582185, -0.21309847, 0.100670904, -0.22966193, -0.045954112, 0.12728062, -0.25081897, -0.094699375, -0.4036555, 0.060854495, -0.64373237, -0.21522263, -0.6683476) * go_0(1.0, 0.0);
result += mat4(0.063481025, 0.11744312, -0.043330096, 0.33817932, -0.06679828, -0.23207302, -0.10188898, -0.10590511, 0.058780864, 0.047292337, -0.11834696, 0.10076128, -0.036641665, 0.30200714, -0.0002892557, -0.10303763) * go_0(1.0, 1.0);
result += mat4(-0.10842604, 0.042055763, 0.29702973, -0.07409644, -0.030164458, -0.012098744, -0.06396587, -0.08787527, 0.051854923, 0.12997511, 0.11468497, 0.15022379, 0.007814715, 0.014517445, 0.025484756, 0.01078619) * go_1(-1.0, -1.0);
result += mat4(-0.29229385, 0.040265664, -0.15376821, 0.075579196, -0.05593569, -0.045405343, 0.12099204, 0.1571252, 0.17841713, 0.04673325, 0.14550509, 0.08603346, -0.049786013, 0.06121843, -0.16273825, -0.13857752) * go_1(-1.0, 0.0);
result += mat4(0.06903744, 0.2628764, -0.13582836, -0.35678583, -0.13821034, -0.019381443, -0.19570538, -0.09298511, 0.08965436, 0.09745909, 0.20055099, 0.024967568, 0.08144204, 0.004633625, 0.12809834, -0.009431525) * go_1(-1.0, 1.0);
result += mat4(0.09784006, 0.010729353, 0.046643205, -0.110926524, -0.21556224, 0.00016300633, 0.122175336, 0.15004392, 0.013864355, 0.24767809, 0.13865592, 0.0155424485, -0.1450483, -0.15688781, -0.06195043, -0.13745981) * go_1(0.0, -1.0);
result += mat4(0.018991318, 0.55401963, 0.11709872, -0.028442185, -0.46035343, -0.10215539, -0.60193926, 0.47882316, -0.23346989, 0.037200127, 0.22814943, -0.08231696, -0.36430013, -0.011152757, 0.48752213, 0.29796222) * go_1(0.0, 0.0);
result += mat4(-0.07258066, -0.023222538, 0.23230423, -0.30317304, 0.03942911, -0.06899803, 0.23778579, 0.07418621, -0.17443737, 0.33387753, 0.007354842, -0.123447575, -0.1745315, 0.11071779, -0.11949625, -0.22832453) * go_1(0.0, 1.0);
result += mat4(-0.024909232, -0.0308135, 0.12170621, -0.13298757, 0.045828197, -0.1532345, -0.06633672, 0.23591088, 0.04964077, 0.14091493, 0.038343724, -0.029780807, 0.05762822, -0.048930667, -0.02434709, 0.07109019) * go_1(1.0, -1.0);
result += mat4(-0.16039175, 0.3004474, -0.17278233, 0.13677922, 0.18838613, 0.15054552, 0.32901475, -0.1288333, 0.26378244, -0.05119892, 0.34533516, 0.25180495, 0.19452183, 0.0843233, -0.08029368, 0.39877903) * go_1(1.0, 0.0);
result += mat4(-0.07097129, -0.26492423, -0.055032317, -0.093516104, -0.11795062, 0.04086253, -0.07989471, 0.059686553, 0.09378249, 0.45851848, 0.2510942, 0.19599153, 0.019765077, -0.02920918, -0.04125142, -0.13859107) * go_1(1.0, 1.0);
result += vec4(0.04400571, -0.04015565, 0.0140529545, 0.05474095);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_5_tf
//!SAVE conv2d_6_tf
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.014236042, -0.0031431736, -0.1551387, 0.12515116, -0.28528872, 0.36161992, 0.15750743, -0.17111474, 0.13792591, -0.0657419, -0.17471549, 0.14650472, 0.034169197, -0.019157575, 0.23520657, -0.20358163) * go_0(-1.0, -1.0);
result += mat4(0.02015035, 0.12993371, 0.11199667, -0.09854378, 0.5001741, 0.03462961, 0.24919736, 0.08505297, -0.20902094, -0.24141377, -0.15360375, 0.049974803, -0.037157424, -0.048510186, 0.20106035, -0.118480384) * go_0(-1.0, 0.0);
result += mat4(0.086798504, -0.009607818, 0.034812123, -0.005187592, 0.0351509, 0.021755, -0.04996161, -0.041231696, 0.0020545553, 0.015730752, -0.07507172, 0.018597523, -0.02393343, 0.07624775, 0.03892451, -0.0025574185) * go_0(-1.0, 1.0);
result += mat4(0.035725456, 0.06809103, 0.51926994, -0.39983147, -0.16402833, -0.1243394, -0.25922915, 0.28285915, 0.15959994, -0.2351732, 0.2650535, -0.30193794, -0.11468332, 0.050777763, -0.51894253, 0.4408367) * go_0(0.0, -1.0);
result += mat4(-0.27042082, 0.22243942, 0.14902467, 0.38428563, 0.46612173, 0.5169912, -0.22330502, -0.11300288, -0.36141354, 0.0668681, 0.2984152, 0.1275798, -0.24121419, 0.2952039, -0.45109174, -0.3822957) * go_0(0.0, 0.0);
result += mat4(0.26543504, -0.05742226, -0.052103903, -0.013124308, -0.14358385, -0.04024543, 0.07665455, -0.012301872, -0.18752757, -0.03913891, 0.038205814, -0.006583095, -0.25550908, -0.25725332, -0.12454206, -0.0058936924) * go_0(0.0, 1.0);
result += mat4(-0.0018946569, 0.019746022, -0.13080788, 0.11450627, -0.013743845, -0.027179785, -0.14425103, 0.07109661, 0.023703793, 0.086905524, 0.03151253, 0.0132474145, 0.041018624, 0.04548913, 0.2718715, -0.20008296) * go_0(1.0, -1.0);
result += mat4(-0.076830454, 0.11652955, 0.5068201, -0.3082819, 0.058615055, -0.006765798, -0.057522714, 0.049981344, -0.006897243, -0.21763432, 0.16896053, -0.21176189, -0.061227098, 0.03566485, 0.08901554, -0.050980624) * go_0(1.0, 0.0);
result += mat4(0.02327798, 0.07662976, 0.034811985, -0.03238033, -0.0021881019, -0.030997375, -0.069672935, 0.04040273, -0.1217442, 0.104173124, 0.09862539, 0.020557549, -0.022286594, 0.10287763, -0.021694934, 0.07542515) * go_0(1.0, 1.0);
result += mat4(0.124069154, -0.08579466, -0.07816314, 0.11332851, -0.034682628, -0.11038275, 0.04750615, -0.096100725, 0.039588403, -0.15149672, -0.05529172, 0.034304325, -0.022520235, -0.05023852, -0.2674731, 0.21886522) * go_1(-1.0, -1.0);
result += mat4(-0.1948599, -0.14946899, -0.39548838, 0.18042913, -0.007919619, 0.19826505, 0.23789087, 0.009140256, 0.11857748, 0.18215668, 0.13606293, -0.09209675, -0.080678545, -0.020431137, -0.07728839, -0.051353537) * go_1(-1.0, 0.0);
result += mat4(-0.07616472, -0.0032800382, -0.045657665, -0.039144326, -0.37786487, -0.08877774, 0.053579114, -0.070886396, 0.011311804, 0.107276045, 0.013236154, 0.009832061, 0.08292063, 0.12258811, 0.0005569043, -0.009806432) * go_1(-1.0, 1.0);
result += mat4(-0.28062925, 0.15946878, -0.1021801, -0.06471589, -0.26999477, 0.21230288, -0.14243907, 0.2555922, -0.09608517, 0.26339412, 0.20891234, -0.23538485, 0.33958244, -0.12569186, 0.43289876, -0.33462036) * go_1(0.0, -1.0);
result += mat4(0.16265294, 0.2625464, -0.34452894, 0.2233622, 0.13850005, -0.42999864, -0.5385177, -0.11035979, 0.51662, -0.78238726, -0.09422375, 0.83759475, 0.44468537, 0.14301361, 0.108906105, 1.1596143) * go_1(0.0, 0.0);
result += mat4(-0.73757625, -0.12369605, 0.23523071, 0.006587637, -0.15445381, 0.22757277, 0.052819528, 0.10183905, -0.07912228, -0.16998893, -0.13360223, 0.014348178, -0.17778571, -0.41047302, 0.10241381, -0.08526306) * go_1(0.0, 1.0);
result += mat4(0.14712952, 0.048995696, 0.05299946, -0.06817572, 0.1498064, -0.079825334, 0.40354064, -0.31789717, -0.1998377, 0.00955295, -0.32318407, 0.30898204, -0.039571725, -0.026203401, -0.16292085, 0.08574385) * go_1(1.0, -1.0);
result += mat4(-0.6353329, -0.56000775, -0.17279743, 0.18198174, -0.19555812, 0.056538377, 0.34365895, -0.07799055, 0.19011354, -0.13952748, 0.029196098, -0.19596763, -0.069196045, -0.17402656, 0.07948411, -0.016226962) * go_1(1.0, 0.0);
result += mat4(0.25592864, 0.083498634, -0.28515807, 0.10789751, 0.0043962947, 0.07085363, 0.048724182, -0.025131436, -0.0049440865, -0.033094388, -0.032935806, 0.04266025, 0.20026933, 0.0927841, -0.006839351, -0.013012285) * go_1(1.0, 1.0);
result += vec4(0.02021373, 0.0014037411, 0.0012718709, 0.017278494);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Conv-4x1x1x56
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_1_tf
//!BIND conv2d_2_tf
//!BIND conv2d_3_tf
//!BIND conv2d_4_tf
//!BIND conv2d_5_tf
//!BIND conv2d_6_tf
//!SAVE conv2d_last_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_2 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_4 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_5 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_6 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_8 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_9 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_10 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_12 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_13 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(-0.0067711817, 0.08160003, 0.0247279, 0.03084815, -0.026977416, -0.02120602, -0.025078611, -0.029852165, -0.011627478, -0.012742972, 0.022736797, -0.0028815821, -0.007515677, 0.0172887, -0.023259213, 0.009608947) * g_0;
result += mat4(-0.028660107, -0.014015208, -0.027838672, -0.013171922, 0.0029435428, 0.027047642, -0.017478354, 0.022834882, -0.037572853, -0.0034044068, -0.0149029335, -0.013362301, 0.009827443, -0.015742151, -0.0074795415, -0.0022266617) * g_1;
result += mat4(-0.07579662, -0.039754186, -0.066026606, -0.046816852, 0.1099032, 0.043956704, 0.073109835, 0.04680284, -0.06896613, -0.008838632, -0.044584926, -0.01319039, -0.0021152915, -0.04503326, 0.027061926, -0.028334105) * g_2;
result += mat4(0.15458213, 0.059769996, 0.09327123, -0.028782733, 0.023459995, -0.15390377, -0.13432898, -0.1127775, 0.072764635, -0.0020463336, 0.034736466, -0.0012086042, -0.05847183, -0.029952323, 0.052969377, 0.09590908) * g_3;
result += mat4(-0.07476772, -0.016574614, 0.04131183, 0.017335678, 0.009654406, 0.072183535, -0.002266456, 0.086873695, 9.310129e-05, 0.0056416965, -0.004188391, 0.023132093, -0.05183336, -0.025825873, -0.03684392, -0.0075729224) * g_4;
result += mat4(0.00878842, 0.03869637, -0.035759524, 0.003345386, -0.064184256, -0.034568302, -0.06672922, -0.0686381, -0.06794392, -0.10685906, 0.04679947, -0.012535639, 0.006932529, -0.007783515, 0.109123886, 0.13804391) * g_5;
result += mat4(-0.03160699, 0.050473, -0.09030729, 0.0649397, 0.11466501, 0.17912874, -0.0081851315, 0.052244574, 0.051632743, 0.061941486, 0.06546816, 0.12174249, -0.05104755, -0.018193979, -0.032196652, -0.035292786) * g_6;
result += mat4(0.013612735, -0.0024100312, -0.068611205, -0.07369285, -0.019647537, -0.066944756, -0.010012875, -0.06785739, -0.062246565, -0.087313406, -0.044278186, -0.09368995, 0.052555013, 0.13604961, 0.05645059, 0.08763303) * g_7;
result += mat4(0.04218486, -0.05028401, 0.059086576, -0.03545452, 0.027737848, 0.0043074046, 0.0011001764, -0.073026665, -0.04094988, 0.044061556, -0.009812515, 0.06841999, -0.06612581, 0.037223976, -0.07759491, -0.04356598) * g_8;
result += mat4(-0.027558247, 0.014248466, -0.019813016, -0.058107473, -0.016717663, -0.020424338, 0.0053625097, -0.009917319, 0.013678771, 0.0113340765, 0.0061787106, -0.036083996, -0.020179711, -0.011310535, 0.054827053, -0.0008278952) * g_9;
result += mat4(0.028690035, -0.012079616, 0.11931408, -0.048533775, 0.069336995, 0.0049852817, 0.013774468, 0.035233382, -0.07384821, 0.0003354423, -0.0059171803, -0.04503906, 0.08727279, 0.005138857, -0.17724465, 0.055782065) * g_10;
result += mat4(-0.20744391, 0.24348328, -0.3145766, 0.17026486, -0.022870807, -0.01648648, -0.05912279, -0.012555373, -0.066004686, 0.03182394, 0.16285324, -0.1221846, -0.31816196, 0.007928748, 0.43180224, -0.015949022) * g_11;
result += mat4(0.16363169, 0.14781676, -0.2377973, -0.1571377, -0.09038187, 0.0046504294, 0.033955004, -0.051421452, 0.046735536, 0.006827522, -0.121338, 0.12671822, 0.15833299, -0.1858712, -0.1942371, 0.17336044) * g_12;
result += mat4(-0.018145572, -0.015550516, 0.044410378, 0.046016492, 0.084021375, 0.05327457, -0.008270992, -0.045435544, 0.07185879, -0.131923, 0.26721445, -0.26745328, -0.07093472, 0.042701527, 0.13793674, -0.095621444) * g_13;
result += vec4(0.016836504, 0.010161949, 0.021351453, 0.01278978);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(M)-Depth-to-Space
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_last_tf
//!SAVE MAIN
//!WIDTH conv2d_last_tf.w 2 *
//!HEIGHT conv2d_last_tf.h 2 *
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
vec4 hook() {
vec2 f0 = fract(conv2d_last_tf_pos * conv2d_last_tf_size);
ivec2 i0 = ivec2(f0 * vec2(2.0));
float c0 = conv2d_last_tf_tex((vec2(0.5) - f0) * conv2d_last_tf_pt + conv2d_last_tf_pos)[i0.y * 2 + i0.x];
float c1 = c0;
float c2 = c1;
float c3 = c2;
return vec4(c0, c1, c2, c3) + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Upscale_CNN_x2_S.glsl
+158
View File
@@ -0,0 +1,158 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(S)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.0057322932, 0.12928207, -0.056848746, 0.18680117, -0.0306273, 0.25602463, 0.053723164, 0.20419341, 0.0018709862, 0.022848232, -0.04105527, 0.10169034, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.009471417, -0.12957802, 0.096014425, 0.21836184, 0.00021601951, -0.22997683, 0.23666254, 0.41192335, 0.021762101, 0.0047863554, 0.008233427, 0.108514786, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.01156376, -0.18988979, 0.04614705, -0.044767227, 0.01050636, -0.26426336, 0.23741047, 0.0027636609, -0.027718676, -0.14202335, -0.016650287, -0.06637125, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.057809234, -0.11033858, 0.056533534, -0.06292466, 0.13880666, -0.18710336, 0.2441031, -0.25326246, 0.0032683122, -0.026437074, 0.0023248852, 7.640766e-05, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.49110603, 0.4429004, -0.44015464, -0.41174838, -0.87738293, 0.7808468, -1.0929365, -0.59699076, -0.18409836, 0.185138, -0.11773224, -0.17097276, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.10580959, -0.055947904, -0.03431237, -0.080236495, 0.14862584, -0.15393938, -0.18872876, -0.3170681, 0.03559387, -0.003990826, 0.021298569, 0.012844483, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(-0.040715586, -0.25781113, 0.08896714, -0.1225879, -0.15790503, -0.54010904, 0.29588607, 0.10401059, 0.003413123, -0.108357325, 0.0112870345, -0.11888622, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.0049315444, 0.02376202, -0.08224771, 0.121118225, -0.041512914, -0.027994309, -0.585988, -0.069672115, -0.017247835, 0.0056576864, 0.04319012, 0.055003505, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.37521392, 0.15916082, 0.059708964, 0.19046007, 0.8120325, 0.38343868, 0.3436578, 0.5287958, 0.16570656, 0.06957687, 0.014022592, 0.074799836, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.01050964, -0.00939481, 0.17684458, 0.027366742);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_tf
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.011029496, 0.05866063, -0.09460646, -0.017664742, -0.022488879, 0.18384217, -0.00397663, -0.064733066, 0.08466802, 0.10667488, 8.0212536e-05, 0.0908869, 0.13580276, 0.00097438256, 0.12176522, -0.08218466) * go_0(-1.0, -1.0);
result += mat4(0.16062798, -0.10190268, 0.03280682, 0.05621916, -0.009684231, -0.08464307, 0.17058301, -0.096469186, 0.1967505, -0.1450099, 0.093607284, -0.28240147, -0.21377413, 0.10079291, -0.1741522, 0.17330575) * go_0(-1.0, 0.0);
result += mat4(-0.060160473, 0.06316997, 0.0046929033, -0.049405966, 0.13851729, 0.06830702, -0.0586872, -0.040827133, 0.007052838, -0.03576886, -0.111261636, 0.039155316, -0.07380389, -0.09369825, 0.04471156, 0.09678487) * go_0(-1.0, 1.0);
result += mat4(-0.36683616, -0.035950605, -0.24414362, -0.009159744, 0.19335322, -0.099253505, 0.075083904, -0.00076695543, 0.65291303, -0.25599423, 0.19827642, 0.065899536, -0.07423247, -0.068967685, 0.0050554527, -0.060272824) * go_0(0.0, -1.0);
result += mat4(-0.020688485, -0.83178276, 0.11104878, 0.26454413, 0.13655476, 0.37675047, -0.22219229, -0.01751935, 0.44552696, 0.92510307, 0.16063261, -0.62011045, 0.19366647, -0.06996067, -0.2504841, 0.00803723) * go_0(0.0, 0.0);
result += mat4(0.0051537007, -0.057168536, -0.16110587, 0.25232598, -0.04447099, 0.11997351, 0.14808103, -0.34443566, -0.26212573, -0.21970181, 0.2724405, 0.21050811, -0.07949061, -0.064808235, -0.21208277, -0.0042361654) * go_0(0.0, 1.0);
result += mat4(-0.0888952, -0.20169449, 0.19144905, -0.016882861, -0.013283103, 0.07552998, -0.24686803, 0.012453213, -0.065454446, -0.016123284, -0.47316182, 0.070926026, 0.09219782, 0.13118166, 0.074736096, 0.0077910526) * go_0(1.0, -1.0);
result += mat4(0.5832154, 0.1138069, -0.039765622, 0.3182784, -0.25497997, 0.0013993139, 0.39285088, -0.48511526, -0.39891505, -0.19094779, -0.082146175, -0.20826934, 0.020590555, -0.0012490178, -0.4398621, 0.14377014) * go_0(1.0, 0.0);
result += mat4(0.21917395, 3.4314657e-05, 0.25734863, -0.3433305, 0.015720673, 0.2676127, -0.06807297, 0.15040149, -0.23638041, -0.0050233034, -0.13666134, 0.4542111, -0.033572577, -0.08450588, -0.23341487, 0.053490847) * go_0(1.0, 1.0);
result += mat4(-0.17482175, 0.057647135, 0.33135444, 0.0850751, -0.1718849, -0.0854123, 0.036795795, -0.13874969, -0.10903869, -0.19007301, -0.06064334, -0.03786032, -0.036696054, 0.07844446, 0.012523185, -0.01562906) * go_1(-1.0, -1.0);
result += mat4(-0.04411997, -0.10331819, 0.10050193, 0.12406485, 0.07431592, 0.30109692, -0.17511666, -0.13263564, -0.10192587, 0.07821255, -0.22415096, 0.25552443, 0.17881326, -0.13914281, 0.109979235, -0.0016463579) * go_1(-1.0, 0.0);
result += mat4(-0.01911644, -0.15412527, 0.028903123, 0.20831817, 0.00375175, 0.08110953, 0.074919395, -0.17581624, -0.015677985, 0.06504228, 0.08817818, -0.12518327, -0.09537373, 0.028905088, -0.051288474, 0.054334078) * go_1(-1.0, 1.0);
result += mat4(0.2852779, -0.28924024, 0.36805123, 0.21079305, -0.28336474, 0.1679663, -0.08641141, -0.10699407, -0.16090055, 0.1287612, -0.15910125, 0.05734755, 0.15883245, 0.0053026294, 0.080674745, 0.0505137) * go_1(0.0, -1.0);
result += mat4(0.17639062, 0.3790122, -0.19588692, -0.020314282, 0.26197383, 0.09014768, 0.19696823, -0.41025418, -0.08308115, -0.33279485, -0.22528782, 0.06172439, -0.1365661, -0.13094363, -0.005086559, 0.089024484) * go_1(0.0, 0.0);
result += mat4(0.05262993, 0.0006296959, 0.1657725, -0.32591924, 0.12126701, 0.061543245, -0.10526848, 0.041583937, 0.094976954, 0.09416157, -0.22019257, -0.058390073, -0.2073888, 0.057273377, 0.19558284, 0.004208022) * go_1(0.0, 1.0);
result += mat4(0.30005738, 0.18478931, -0.23342943, 0.22455733, -0.016488122, 0.099634305, 0.31620836, -0.15731157, 0.09595808, 0.0013774688, 0.48273298, -0.07027936, -0.18764344, -0.26194447, -0.11794225, -0.012173601) * go_1(1.0, -1.0);
result += mat4(0.117986746, -0.13846518, -0.019614812, -0.3011192, 0.5501164, 0.3408611, -0.40090847, 0.15706886, 0.13050972, 0.051776595, 0.20792943, 0.23389706, -0.22965533, -0.053367328, 0.3911586, -0.032988597) * go_1(1.0, 0.0);
result += mat4(0.054753624, -0.008485731, -0.2451672, 0.17528129, 0.13657846, 0.010480436, 0.07651423, -0.43316832, 0.12736236, 0.13804524, 0.12529011, -0.30946237, -0.14423579, 0.08403089, 0.24335162, 0.057288036) * go_1(1.0, 1.0);
result += vec4(0.012077211, 0.013045883, 0.0380778, -0.02908858);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_1_tf
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.036115196, -0.06971895, -0.07508942, 0.016036168, 0.12120111, 0.24536026, 0.044755507, -0.20663576, 0.029635755, -0.15427187, 0.027148994, -0.20795093, 0.10170582, 0.077919215, 0.66063017, -0.4632968) * go_0(-1.0, -1.0);
result += mat4(-0.0052889925, -0.019060908, -0.08660142, -0.022095207, -0.08097976, -0.015142803, -0.18552722, -0.078493506, -0.16293915, -0.20099808, -0.08370822, 0.3701389, 0.09094984, 0.2487225, 0.24338846, 0.044003833) * go_0(-1.0, 0.0);
result += mat4(-0.061406493, -0.017232792, -0.10917424, 0.11203319, 0.040699825, -0.019294346, 0.084953666, -0.018133596, 0.07209552, 0.016069936, 0.17805555, -0.089537814, 0.15809004, 0.1027023, 0.15044671, -0.15530108) * go_0(-1.0, 1.0);
result += mat4(0.0948676, -0.040305693, -0.005591629, -0.048048403, -0.07547777, 0.056606572, 0.021390207, 0.32600567, -0.20805131, -0.099587254, 0.029613169, 0.0092129605, -0.29429698, -0.09898621, 0.44470885, -0.89487344) * go_0(0.0, -1.0);
result += mat4(-0.122259885, 0.11445877, 0.06666907, 0.1869428, -0.1553992, -0.1658741, 0.2988138, -0.57746625, -0.34609964, 0.11169158, -0.41877756, 0.38075635, 0.21293911, 0.09640372, -0.12754214, -0.08026104) * go_0(0.0, 0.0);
result += mat4(0.15128808, 0.050087795, 0.09219755, -0.18080945, 0.0044571217, -0.046019405, -0.1289922, 0.20305426, 0.19601224, 0.04667917, 0.17465587, 0.027672665, 0.18441725, 0.06845396, 0.11288585, -0.23283863) * go_0(0.0, 1.0);
result += mat4(-0.072962, -0.06639447, 0.049347494, -0.1386401, 0.10396071, 0.08187777, -0.04280746, 0.07390891, 0.06628344, 0.037797406, 0.021885803, -0.013147403, 0.22376558, 0.36243078, 0.12874891, -0.0023783944) * go_0(1.0, -1.0);
result += mat4(0.074945286, 0.16045591, -0.11798349, 0.12910712, 0.054760084, -0.095626175, -0.047832094, 0.03493912, 0.11817307, 0.037452437, -0.14301221, -0.027356789, -0.052390423, 0.11373512, 0.07686775, 0.010008694) * go_0(1.0, 0.0);
result += mat4(-0.023999173, -0.091900624, 0.02388157, 0.03173873, 0.0065633506, -0.033716757, -0.1198324, 0.12057766, 0.026465805, -0.07517131, -0.07760598, 0.060463097, 0.07345541, 0.046037503, 0.21101558, -0.26785463) * go_0(1.0, 1.0);
result += mat4(0.15544604, -0.03902825, 0.04630384, -0.25173616, -0.0691359, 0.07476507, 0.009071253, 0.089964196, -0.26539803, -0.3958477, -0.22155671, 0.20735882, -0.105860494, -0.003996804, -0.044815883, 0.39544627) * go_1(-1.0, -1.0);
result += mat4(0.6169709, 0.23717614, -0.37884676, -0.7484867, 0.020169826, -0.30718836, 1.0965588, -0.20711036, -0.39149985, -0.06843563, -0.06522909, 0.103805855, 0.03265825, -0.15137726, 0.12837899, -0.01294922) * go_1(-1.0, 0.0);
result += mat4(-0.23638196, -0.4560866, -0.11948684, -0.1464144, 0.10690008, 0.007835961, 0.11864342, -0.13101323, -0.16509797, 0.075027354, 0.08122998, 0.13451207, 0.0011890623, 0.052157886, 0.08372405, -0.07085038) * go_1(-1.0, 1.0);
result += mat4(-0.21997726, -0.16488647, -0.0291317, 0.17997476, 0.1493211, 0.027494298, 0.0034613227, -0.3207727, 0.18699001, 0.14728633, -0.042895135, -0.07612043, 0.125076, -0.14714554, -0.03480009, -0.22753975) * go_1(0.0, -1.0);
result += mat4(-0.5342686, -0.7426105, -0.38294584, 0.42549992, 0.46053204, 0.7867879, 0.106234804, -0.041163098, 0.5198579, -0.5219404, 0.14809476, -0.41802374, 0.06810794, -0.15122683, -0.047409, 0.13178343) * go_1(0.0, 0.0);
result += mat4(-0.50428164, 0.18220626, 0.35510704, -0.081787474, 0.03155813, 0.019284263, 0.0032388573, -0.20513348, -0.05385551, 0.17803182, -0.26206362, 0.2870375, 0.008557827, 0.08401449, -0.027598893, -0.010791235) * go_1(0.0, 1.0);
result += mat4(0.16657415, 0.067647465, 0.093076974, -0.14438486, -0.10017002, 0.0022367141, 0.03250936, -0.052794546, -0.009178676, -0.019673595, -0.0016697067, -0.15424626, -0.112123474, -0.11079971, 0.011987111, -0.11747758) * go_1(1.0, -1.0);
result += mat4(-0.023021797, -0.058703423, -0.037978355, -0.062433913, -0.13130441, 0.048656322, 0.056839373, 0.109036915, -0.07823158, 0.14785293, 0.058555078, -0.11679035, -0.14002073, 0.07395252, 0.098268874, -0.06710464) * go_1(1.0, 0.0);
result += mat4(0.14906375, 0.030001195, -0.10338215, 0.0662968, -0.161953, -0.13682815, 0.09563142, 0.009514228, -0.009491218, 0.06737101, -0.1393389, 0.15231515, -0.073147796, 0.00767062, 0.028675212, 0.014213088) * go_1(1.0, 1.0);
result += vec4(0.018736731, -0.0026039074, 0.050130025, -0.055364225);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_2_tf
//!SAVE conv2d_last_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.019100675, -0.014241565, 0.004667036, -0.03865062, 0.106731094, 0.026099661, 0.014594411, -0.011881356, 0.0040967264, -0.004626336, 0.006469508, 0.010875305, -0.033909045, -0.085905954, 0.07861378, 0.019452631) * go_0(-1.0, -1.0);
result += mat4(0.20777655, -0.060354974, 0.0023840065, -0.064121604, -0.17397617, 0.019293457, -0.09707183, 0.080641985, 0.01025124, -0.017382381, 0.008661793, -0.010995665, 0.21943407, -0.115574986, 0.14471593, -0.068836235) * go_0(-1.0, 0.0);
result += mat4(0.057942886, -0.06311754, 0.2253396, -0.04159292, -0.020731755, 0.007877151, 0.041525815, 0.025278691, 0.03041967, -0.025137542, 0.024364179, -0.024543528, 0.029438615, -0.015506873, 0.081686, -0.07812221) * go_0(-1.0, 1.0);
result += mat4(0.054237515, 0.0676094, -0.0047708177, 0.0043467237, -0.10032304, -0.020498628, 0.04240586, 0.07272254, 0.0784221, 0.017945962, -0.022310399, -0.013134622, 0.015638694, -0.10001543, 0.1043031, 0.05898838) * go_0(0.0, -1.0);
result += mat4(-0.021652509, 0.35796642, 0.059497777, 0.23948468, 0.15454951, -0.10017235, -0.19072174, -0.44812536, -0.03974552, 0.04529369, 0.22207436, 0.026222564, -0.09705454, 0.5623026, -0.3354105, -0.017278556) * go_0(0.0, 0.0);
result += mat4(-0.053682446, -0.03411237, -0.09399936, 0.15128824, -0.07463, -0.042020727, 0.0031783928, 0.13481957, -0.07731454, 0.044114403, -0.23085599, 0.060444202, -0.15015422, 0.0018040676, -0.18684982, 0.2812511) * go_0(0.0, 1.0);
result += mat4(0.0029329916, 0.001596018, 0.0007512241, 0.016544111, -0.04876942, -0.05272409, 0.037884697, 0.049948208, 0.015518177, 0.11368592, -0.03815777, -0.013149978, -0.027638039, 0.107719295, -0.04115787, 0.02745414) * go_0(1.0, -1.0);
result += mat4(0.016691081, 0.010204119, 0.04078854, 0.01613337, 0.03325829, 0.0114824055, -0.017286912, -0.07284126, -0.110984206, -0.21041764, 0.0089543555, 0.18986733, 0.01537506, -0.2059135, 0.029074017, 0.013117443) * go_0(1.0, 0.0);
result += mat4(0.013965926, 0.029871881, 0.0034499036, -0.011343668, 0.022120327, -0.0068748263, 0.009324342, -0.039081004, 0.08032371, 0.050809264, 0.035050742, -0.2032847, 0.06305391, -0.021958945, 0.038569167, -0.22465245) * go_0(1.0, 1.0);
result += mat4(0.046307724, -0.012419472, 0.007673863, -0.042344846, 0.011042414, 0.016994251, -0.018166406, -0.016955731, -0.13240299, 0.01768431, -0.027607648, 0.0699927, -0.02840628, 0.004414203, 0.0049618417, 0.011084679) * go_1(-1.0, -1.0);
result += mat4(-0.119954154, -0.007455482, -0.031108133, -0.009946449, 0.0077065965, 0.01660345, 0.032943666, 0.016376585, 0.10273124, 0.1556573, -0.24643841, 0.107307844, -0.068235755, 0.0561896, -0.0104672015, 0.042693343) * go_1(-1.0, 0.0);
result += mat4(-0.01634601, 0.04195375, -0.10401894, 0.047641944, -0.034602515, -0.0034419263, -0.010457858, 0.015194475, -0.03962551, -0.030031368, 0.16036317, 0.019283568, -0.05877721, 0.016504882, -0.15523468, 0.018161612) * go_1(-1.0, 1.0);
result += mat4(-0.08083991, 0.0024665035, -0.049373373, 0.030371357, 0.0113322195, -0.014676956, 0.011646689, -0.01142667, 0.124930486, 0.06625774, -0.045840867, -0.009693036, -0.012649251, -0.07388084, 0.008790075, 0.0013844534) * go_1(0.0, -1.0);
result += mat4(-0.33941835, -0.2763476, -0.118311435, -0.063535266, 0.20936015, 0.13731301, 0.13443594, 0.07464433, 0.059650812, -0.36973104, 0.16444235, -0.37082872, 0.06432777, -0.18283032, -0.044489607, -0.13895285) * go_1(0.0, 0.0);
result += mat4(0.13533665, 0.08268915, -0.03675727, -0.14348659, 0.0186255, -0.05051692, 0.056702953, 0.0061717895, 0.047663026, -0.088188455, 0.23254345, -0.014015464, 0.08400204, -0.0073777726, 0.2202068, -0.12366078) * go_1(0.0, 1.0);
result += mat4(0.04361004, 0.046543695, 0.0064863074, -0.03358146, -0.022602187, 0.018138997, -0.011071864, 0.010244091, -0.019814799, -0.17250171, 0.040823266, -0.040131986, 0.010125854, 0.020660749, 0.0020435036, -0.010819304) * go_1(1.0, -1.0);
result += mat4(-0.004810193, -0.11286074, 0.051985834, 0.04788631, -0.023950428, 0.036145125, -0.038203828, 0.052401308, 0.022986965, 0.26420745, -0.06076917, -0.09252999, 0.03164547, 0.15652153, -0.037934, -0.0035418556) * go_1(1.0, 0.0);
result += mat4(0.03358366, -0.005219482, 0.007060882, -0.06569114, -0.02941682, 0.00966056, -0.0153679885, 0.019905418, -0.107232265, -0.03405676, -0.044340115, 0.26892832, -0.04723829, -0.02589829, 0.004563232, 0.19318114) * go_1(1.0, 1.0);
result += vec4(-0.00346731, -0.0046263863, -0.004627155, -0.0057769152);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(S)-Depth-to-Space
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_last_tf
//!SAVE MAIN
//!WIDTH conv2d_last_tf.w 2 *
//!HEIGHT conv2d_last_tf.h 2 *
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
vec4 hook() {
vec2 f0 = fract(conv2d_last_tf_pos * conv2d_last_tf_size);
ivec2 i0 = ivec2(f0 * vec2(2.0));
float c0 = conv2d_last_tf_tex((vec2(0.5) - f0) * conv2d_last_tf_pt + conv2d_last_tf_pos)[i0.y * 2 + i0.x];
float c1 = c0;
float c2 = c1;
float c3 = c2;
return vec4(c0, c1, c2, c3) + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Upscale_CNN_x2_UL.glsl
+1702
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shaders/Anime4K_Upscale_CNN_x2_VL.glsl
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@@ -0,0 +1,969 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.3053028, -0.037464816, 0.113983095, 0.12537485, -0.18630321, 0.084269725, -0.01351514, -0.20190673, -0.12298384, -0.037622184, -0.070214555, -0.19367279, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.41849324, 0.099702746, -0.04276645, -0.047299717, 0.20074473, 0.14217933, 0.15571699, 0.19553481, 0.21868695, -0.053848714, 0.016413521, 0.14117444, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.030540446, -0.052293833, 0.0715466, -0.31160545, 0.07808315, -0.16860045, 0.032828577, -0.2955024, -0.110374965, 0.04043687, -0.014024628, 0.058699366, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.10727635, 0.054200135, 0.20853694, 0.21086875, 0.122690216, -0.091823794, 0.310609, -0.01738923, -0.0013488946, 0.10835534, -0.077265196, 0.086751856, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.77150255, 0.40530515, -0.41257596, -0.14367618, 0.46888494, 0.2650122, -0.934199, 0.40476102, 0.32293493, 0.20251967, 0.19891106, -0.29698747, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.12505147, -0.41904053, -0.065798186, 0.34075752, 0.026240354, -0.2977496, 0.032647505, -0.003566783, 0.10290523, -0.23417123, -0.06014203, 0.094735645, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.11207838, -0.04062474, 0.023897955, 0.08605987, -0.020888371, 0.045541205, -0.07231824, -0.25884083, -0.11796847, -0.002691391, 0.0050435597, 0.02756291, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.4615728, 0.041790638, 0.08971143, 0.20213957, -0.38537467, 0.19938901, 0.08594364, -0.08621994, -0.08163473, -0.133266, -0.09561729, -0.014209637, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.0787417, -0.0483673, 0.07621572, -0.060169693, -0.013465177, -0.17152289, 0.02515561, 0.17675288, -0.05173998, 0.10768042, -0.029858522, -0.013957215, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(0.0072128535, -0.05658625, 0.052939568, -0.1760861);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf1
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.112743355, 0.0422517, 0.21350034, -0.0967133, 0.16265953, 0.0022497, 0.015078242, 0.08204187, 0.035236806, -0.0468228, -0.09464228, -0.001864949, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.25631642, -0.41485596, -0.16662048, 0.13201024, 0.057921384, 0.2240005, -0.30038536, -0.08305622, 0.2228756, 0.32263795, 0.10608189, -0.18616734, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.08997524, 0.11516871, 0.19212262, -0.035154644, 0.11612274, -0.04056247, 0.14974374, 0.029173585, -0.07629641, -0.14353512, 0.041081246, 0.20230265, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.2262286, 0.055954933, -0.14499907, 0.17314723, 0.16590612, -0.06688698, -0.11118816, -0.012938116, -0.043101817, 0.026133137, 0.2958395, 0.06543993, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.07311521, -0.3041244, -0.47978505, -0.6350967, -0.17432262, 0.34965977, 0.25399777, -0.16590433, -0.49957857, 0.0549526, -0.40869385, -0.08780993, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.3014447, -0.00021343959, -0.14953177, 0.028001398, -0.14931908, -0.14910097, -0.13287953, -0.45026535, 0.17378895, 0.024704922, -0.027308129, -0.10292025, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(-0.06732655, -0.13119644, 0.066014715, 0.081011154, -0.15154321, 0.2407805, 0.07733481, 0.12312706, 0.1741804, 0.008495716, -0.14125362, -0.043644864, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.11465958, 0.42001364, 0.011069392, 0.3203028, -0.058801666, -0.37830314, -0.030540617, 0.2245139, -0.11310525, -0.14845212, 0.19957744, 0.25789997, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.16037206, 0.21326372, 0.020099448, 0.018666709, 0.122083254, -0.16033986, -0.10725163, 0.2556128, 0.1650688, -0.10475823, 0.048623525, -0.103755645, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(0.007717166, -0.027800834, 0.0795002, 0.0053199283);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.0056740534, -0.21186607, -0.18014967, 0.118979976, -0.0015611284, -0.07708486, 0.060131397, 0.11653345, 0.027150517, 0.10837246, 0.08583816, -0.14032431, 0.017552888, 0.0035846964, 0.03980114, 0.064649396) * go_0(-1.0, -1.0);
result += mat4(-0.03289318, -0.12004539, 0.26514888, -0.15079662, 0.04214227, -0.027273783, -0.027950313, 0.19614808, 0.18510003, -0.10346252, -0.029836183, 0.09174428, -0.0088710375, -0.18273513, 0.06601674, 0.009983851) * go_0(-1.0, 0.0);
result += mat4(0.08476211, 0.043996535, 0.056711517, 0.009976895, 0.07039107, -0.024862664, -0.059921104, 0.046850603, 0.04983447, 0.04863198, 0.21777405, -0.0576961, 0.045321796, -0.0060038245, 0.096396215, -0.10842004) * go_0(-1.0, 1.0);
result += mat4(-0.15746164, 0.041757874, 0.035169285, -0.1734288, -0.24219254, -0.13318908, 0.2272079, -0.02902605, 0.07750601, -0.1467191, -0.12296749, -0.07533314, -0.07073083, 0.17909113, 0.04789308, 0.17245363) * go_0(0.0, -1.0);
result += mat4(0.057547905, 0.1464685, -0.33115456, -0.26956198, -0.26298407, -0.059824817, 0.022509675, -0.09251868, 0.36277944, -0.2072429, 0.21095088, -0.45492023, 0.07428653, 0.1593302, -0.2945834, 0.12825087) * go_0(0.0, 0.0);
result += mat4(-0.1318458, 0.27804148, 0.037600737, 0.12047866, 0.0065036337, 0.0017241207, 0.060497303, -0.14786585, -0.15149063, 0.02731698, 0.048886403, -0.0025970868, -0.026979815, 0.07348884, 0.015636757, -0.107966796) * go_0(0.0, 1.0);
result += mat4(-0.079988025, -0.01626299, 0.06517438, 0.086406484, -0.1484504, 0.070595, 0.20620634, 0.09713373, -0.13620836, 0.012067949, -0.00068703433, -0.038030174, 0.22300471, -0.0012400965, -0.014827909, -0.08927486) * go_0(1.0, -1.0);
result += mat4(0.15634936, 0.052028038, 0.038081627, 0.12720168, 0.07342066, -0.04318368, -0.0065998454, 0.12109317, -0.45398173, 0.03666754, -0.17773737, 0.038516667, -0.13009632, -0.007457001, -0.013938809, 0.09776142) * go_0(1.0, 0.0);
result += mat4(0.029636936, 0.12864171, 0.11347291, -0.11812842, -0.0870342, 0.035678383, 0.050338242, 0.045754932, -0.07072752, 0.010447726, 0.039642975, -0.08795004, -0.1191525, 0.00967509, 0.13485421, -0.053204738) * go_0(1.0, 1.0);
result += mat4(-0.011072695, -0.09613245, -0.09094804, 0.028029291, -0.04031162, 0.15690295, 0.25094184, -0.21776834, 0.06524669, 0.06412185, -0.052852992, -0.08097702, -0.039127756, 0.036357917, 0.104585476, 0.25095442) * go_1(-1.0, -1.0);
result += mat4(-0.08328618, -0.006246033, 0.099708706, -0.014916097, 0.17727195, 0.4369228, 0.14760216, 0.06707674, 0.025167737, -0.022487842, -0.038962565, 0.15380669, 0.08125089, 0.09844594, 0.33538374, -0.003161368) * go_1(-1.0, 0.0);
result += mat4(-0.0128195705, -0.05475118, -0.037705053, -0.0012077648, -0.17425515, 0.091487505, -0.12909423, 0.0074876705, 0.13438368, 5.778033e-05, 0.04563314, -0.12185897, -0.053612474, -0.049824294, -0.12851205, 0.12856449) * go_1(-1.0, 1.0);
result += mat4(-0.025741795, 0.01867236, -0.00027440622, 0.10502768, 0.27042285, -0.14947751, 0.11143123, 0.2575913, -0.07414089, -0.33919522, -0.13194235, -0.20088726, 0.23121537, -0.08197353, 0.06693911, 0.015411386) * go_1(0.0, -1.0);
result += mat4(0.09143717, 0.22842278, 0.06501074, -0.20009698, -0.042117566, -0.23452093, -0.074082755, -0.10612558, 0.077631965, 0.08343657, -0.07657599, -0.43297377, 0.7092466, -0.16272525, 0.17222248, -0.056038965) * go_1(0.0, 0.0);
result += mat4(0.081200436, 0.046752565, 0.028254949, 0.18820632, 0.096592255, 0.05896745, 0.14845169, 0.034777895, 0.07195204, -0.1908046, -0.015341971, 0.02606145, -0.010377239, 0.0755547, -0.15285216, 0.047916733) * go_1(0.0, 1.0);
result += mat4(-0.06825636, -0.049540907, -0.024328846, 0.03506251, 0.2060094, 0.054119263, -0.06671269, 0.052428722, 0.055792283, -0.14336903, -0.03180757, 0.013760968, -0.037398104, -0.06880077, -0.023608573, 0.0360965) * go_1(1.0, -1.0);
result += mat4(-0.16937497, -0.30156836, 0.0021435453, 0.025772978, -0.17990975, 0.046133514, -0.32447076, -0.083382785, -0.081322014, -0.022132374, -0.05319431, 0.11794733, 0.08943906, 0.12927428, 0.105764806, -0.051034793) * go_1(1.0, 0.0);
result += mat4(-0.011012306, 0.047636557, 0.050260928, 0.051847618, 0.010985655, -0.13752967, 0.023869954, 0.07011459, -0.18244945, 0.07239806, -0.013638856, -0.026982805, 0.11395993, -0.031304818, -0.08714153, 0.077115685) * go_1(1.0, 1.0);
result += mat4(0.08707592, 0.2265186, 0.13363098, -0.039588258, -0.029561255, 0.019238092, 0.024606103, -0.0019022018, -0.062285982, -0.0629511, -0.03753033, 0.109805316, 0.016018672, -0.08284564, -0.04092752, -0.030386891) * go_2(-1.0, -1.0);
result += mat4(0.0016500859, 0.01616536, -0.099148355, 0.24161765, 0.028064307, -0.028680569, 0.054400917, -0.1978921, -0.08584302, -0.096797146, -0.06546965, -0.09342837, 0.030265866, 0.07057579, -0.02080932, 0.053178705) * go_2(-1.0, 0.0);
result += mat4(-0.030304352, 0.047440585, -0.04248429, 0.08568772, -0.051317703, 0.036739342, 0.00865767, -0.018183297, -0.07335176, 0.025001721, -0.068509035, 0.1814819, -0.09756565, -0.024179723, -0.05959287, 0.0352454) * go_2(-1.0, 1.0);
result += mat4(0.023015196, -0.022870664, -0.12028372, -0.111095205, 0.11065281, -0.19900022, -0.24012049, -0.017028643, -0.13484617, 0.050107025, 0.10741765, 0.037951697, 0.013090438, -0.0010045726, -0.029447839, -0.1859787) * go_2(0.0, -1.0);
result += mat4(0.17922719, -0.24138594, -0.44595388, -0.032014426, 0.06897096, 0.07125395, 0.1944457, -0.035794795, -0.24022278, -0.13230884, -0.1277025, 0.21229011, -0.12249393, 0.06141907, 0.2687936, -0.26896995) * go_2(0.0, 0.0);
result += mat4(0.0397242, -0.30710965, 0.28815824, -0.06642567, -0.07588877, -0.019552408, 0.0057806037, 0.11465521, 0.03560534, -0.10640553, 0.023589289, -0.16667193, 0.02066607, -0.01026633, -0.02655378, 0.082493655) * go_2(0.0, 1.0);
result += mat4(-0.007902949, -0.08501038, -0.029395591, -0.07072227, -0.01800967, -0.14564751, -0.08372804, -0.049974415, 0.1756957, -0.02042449, -0.04413007, -0.016873527, -0.2385717, -0.001741017, 0.08298281, -0.019873247) * go_2(1.0, -1.0);
result += mat4(-0.01803727, 0.0642893, 0.21513617, 0.066888265, -0.042107955, -0.123470366, 0.045296013, -0.11958806, 0.48208967, -0.027188249, 0.12136116, 0.05246265, 0.13522038, -0.016297493, 0.028486907, -0.059840377) * go_2(1.0, 0.0);
result += mat4(-0.1373251, -0.11281026, -0.06418318, 0.08444032, 0.062874556, -0.009133875, -0.049571835, -0.042995855, 0.12483249, -0.025967957, -0.11202483, 0.09862257, 0.099986054, 0.009230306, -0.09042664, 0.046612263) * go_2(1.0, 1.0);
result += mat4(0.03203309, 0.106030256, 0.045741174, -0.020529225, -0.028610658, -0.055219248, -0.21404657, 0.07746393, -0.059359375, 0.0033258004, -0.0054513607, 0.06856653, 0.18043655, -0.119936846, -0.05639265, -0.10240379) * go_3(-1.0, -1.0);
result += mat4(-0.0004331875, 0.10426754, -0.008130048, 0.012795991, -0.14372933, -0.40797862, 0.105197415, -0.0041354536, -0.079792455, 0.0914027, 0.012418237, -0.11449173, 0.020261409, -0.14681602, -0.13355242, 0.18290488) * go_3(-1.0, 0.0);
result += mat4(0.052306626, 0.010864275, -0.072627716, -0.009773121, 0.09484167, -0.09631301, 0.14896165, -0.21220942, -0.11994051, -0.002957136, -0.118194886, 0.08661347, 0.10005298, -0.029620873, 0.101668894, 0.0242806) * go_3(-1.0, 1.0);
result += mat4(-0.055188183, -0.06322889, 0.12994595, 0.03140751, -0.092755616, 0.04239107, 0.18460171, 0.08471877, 0.014203371, 0.13608724, 0.035351243, -0.07883493, -0.10067456, 0.14417742, 0.0054235114, 0.100745104) * go_3(0.0, -1.0);
result += mat4(-0.043811034, -0.16055201, -0.11927185, 0.20517266, 0.16734722, 0.27720267, 0.1205665, 0.045803893, -0.07874647, 0.06764307, -0.11157022, 0.080770165, -0.044105835, -0.03276538, -0.10945451, 0.100562036) * go_3(0.0, 0.0);
result += mat4(-0.044731796, -0.12854387, -0.061937924, -0.21604767, -0.036132332, -0.024353411, -0.16718283, 0.14903957, -0.11620588, 0.14563644, 0.23363836, 0.08400659, 0.15248756, -0.1424437, 0.112882614, -0.04096889) * go_3(0.0, 1.0);
result += mat4(-0.0486021, -0.05714939, 0.042517707, -0.06106919, -0.12970918, -0.071898215, -0.044727243, -0.026308542, 0.05687118, -0.0394057, -0.109454155, -0.0021216893, 0.018588595, 0.08061093, 0.0500373, -0.0034918839) * go_3(1.0, -1.0);
result += mat4(0.11269324, -0.17924047, -0.12965205, -0.07287767, -0.015830642, -0.044497102, 0.20014328, -0.14054494, 0.1232692, 0.2395109, 0.14093149, 0.03518561, -0.14088139, -0.09045081, -0.07283352, 0.053434785) * go_3(1.0, 0.0);
result += mat4(0.020512339, 0.026349569, -0.06666101, 0.05554806, -0.03044066, 0.26656216, 0.019155584, -0.12118906, 0.087923005, -0.1716557, 0.050843164, 0.037432503, -0.030232614, 0.030457936, 0.04232163, -0.066400655) * go_3(1.0, 1.0);
result += vec4(-0.0216415, 0.09015036, -0.030761974, -0.26541537);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.04688368, 0.13853125, 0.1714716, -0.03034447, -0.08090605, 0.1225867, 0.17535992, 0.012508419, -0.0010665918, -0.07481546, -0.15541986, 0.0671128, -0.029307734, -0.076674186, 0.03925896, -0.07140553) * go_0(-1.0, -1.0);
result += mat4(-0.13273083, 0.062933214, 0.04200143, -0.0080243945, -0.120439716, -0.090192355, -0.022639645, 0.00020024918, -0.11211478, -0.12949537, 0.025783822, 0.009155746, 0.01004339, -0.0661901, 0.10630156, 0.053137038) * go_0(-1.0, 0.0);
result += mat4(0.07113487, -0.16011865, -0.10838903, -0.0034704183, 0.110606894, -0.14915739, 0.036511585, -0.003103608, -0.0551775, -0.13140677, 0.05270299, 0.12139221, 0.02226174, 0.008415268, -0.06647426, 0.118130066) * go_0(-1.0, 1.0);
result += mat4(-0.045172617, -0.0020388453, -0.27287582, 0.002428232, -0.2833772, 0.13788106, 0.073339015, 0.10666715, 0.08455194, 0.16499293, 0.089058325, 0.008815447, 0.034657538, -0.109856166, -0.11499077, -0.02918854) * go_0(0.0, -1.0);
result += mat4(0.07910854, -0.26334837, -0.3246593, -0.08246522, 0.09211476, 0.40793833, -0.09658794, -0.14430091, -0.50632644, 0.087234974, 0.26298127, 0.3687086, 0.06492316, 0.23082961, 0.18233871, -0.09283792) * go_0(0.0, 0.0);
result += mat4(-0.022744032, 0.21690565, 0.2694824, -0.12230013, -0.07969618, 0.21595429, -0.034979805, 0.008938489, 0.21289209, -0.446482, -0.042927746, -0.13587558, -0.032581557, -0.07182814, -0.054092336, -0.009542036) * go_0(0.0, 1.0);
result += mat4(-0.0034912943, -0.080354184, -0.08577375, -0.1521193, 0.09809233, 0.034529503, -0.100664355, 0.008191219, -0.014303411, -0.02862216, -0.18669915, -0.12384598, 0.046499267, 0.093707144, 0.10661308, 0.15079576) * go_0(1.0, -1.0);
result += mat4(-0.031025652, -0.0384342, 0.14258307, 0.25531343, 0.0075049917, -0.03966595, 0.062381975, 0.19593526, -0.2868182, 0.03162008, -0.4391041, -0.524017, -0.034463473, -0.0066741486, -0.24586639, 0.10521736) * go_0(1.0, 0.0);
result += mat4(-0.07452321, -0.0227877, -0.025402244, 0.115727395, -0.039511252, -0.07785703, -0.013689458, 0.0066024344, -0.052957747, 0.011206241, -0.0021671024, 0.077190824, -0.11709912, 0.046635598, 0.123751156, -0.03712064) * go_0(1.0, 1.0);
result += mat4(0.055411004, -0.0020031065, 0.06685547, -0.018829947, -0.06378933, -0.18389674, -0.0023551763, 0.0670314, 0.13038594, 0.0601923, -0.03035789, -0.019537423, -0.014483204, -0.056800704, 0.08663347, -0.106859975) * go_1(-1.0, -1.0);
result += mat4(-0.06603686, 0.07360526, -0.0072026253, -0.06778907, -0.039178446, 0.012397263, -0.13482279, 0.05745685, -0.055182382, -0.10545766, 0.003857615, 0.041947857, -0.15239377, 0.041826613, 0.058879383, -0.0042669442) * go_1(-1.0, 0.0);
result += mat4(-0.0697229, -0.010702144, -0.032265816, 0.013317131, 0.105028264, 0.21032134, 0.06845646, -0.018358687, 0.064568676, 0.08437135, -0.000723181, 0.1324007, 0.05527932, -0.049871888, -0.10125047, -0.005040889) * go_1(-1.0, 1.0);
result += mat4(-0.006467578, -0.05120533, -0.011780779, -0.011742203, -0.34242442, -0.020819988, 0.17381702, -0.059836414, -0.028882682, 0.23210457, 0.16579404, -0.03708216, -0.23541835, -0.03290251, 0.029319672, 0.26189178) * go_1(0.0, -1.0);
result += mat4(-0.30955994, -0.06408282, -0.16872866, 0.10767772, -0.041430887, 0.051697977, 0.12523535, -0.060389146, 0.026289431, 0.06359533, 0.13526368, 0.2479901, -0.3263977, 0.10216362, -0.0030894123, 0.046437826) * go_1(0.0, 0.0);
result += mat4(0.10061438, -0.17047118, -0.21593021, -0.023389054, -0.17507865, -0.30822313, -0.22044766, 0.16078933, 0.07099252, -0.11573018, 0.24712858, -0.0659458, -0.037504572, -0.12297423, 0.03342632, -0.058119852) * go_1(0.0, 1.0);
result += mat4(-0.020957774, -0.0224927, 0.04069268, -0.07911167, 0.074009344, 0.065916434, 0.008222278, 0.11625076, -0.25299504, 0.03357169, -0.021988, 0.015821831, -0.0021187372, -0.030700417, -0.004374924, 0.027358979) * go_1(1.0, -1.0);
result += mat4(0.06549052, -0.048067164, 0.05489091, -0.28851983, 0.13378961, 0.026875904, -0.09877994, -0.19947459, -0.1274035, -0.022928834, -0.26344195, -0.025870804, 0.022505255, 0.0070861108, 0.121051334, -0.025964163) * go_1(1.0, 0.0);
result += mat4(0.059426542, -0.0327433, 0.2313695, -0.07046268, 0.20479666, 0.027021704, 0.2564928, -0.11689885, -0.07407976, -0.019611249, 0.093463086, -0.121553615, 0.035009407, -0.008135333, -0.075931996, 0.047803063) * go_1(1.0, 1.0);
result += mat4(-0.059434246, -0.1652242, -0.124611154, 0.04743711, 0.10530296, -0.13869187, -0.036534663, -0.035206333, 0.06067593, 0.06126907, 0.120151915, -0.06722673, 0.008103894, 0.037225723, -0.007520425, 0.065720856) * go_2(-1.0, -1.0);
result += mat4(-3.6759695e-05, -0.036789574, 0.013370567, -0.037871476, -0.013454664, 0.15086569, 0.10164699, 0.057703357, -0.12871023, 0.12827681, -0.055057358, -0.040753044, -0.0142621, 0.08563361, -0.04615499, -0.03130452) * go_2(-1.0, 0.0);
result += mat4(-0.117965914, 0.09056485, 0.07272314, 0.009695964, -0.11331058, 0.07467256, -0.08291521, 0.00937355, -0.04097737, 0.07752905, -0.017335521, -0.12539999, 0.039462104, -0.0007037007, 0.06034812, -0.09497377) * go_2(-1.0, 1.0);
result += mat4(0.20828065, 0.0400099, 0.047638226, -0.046423353, -0.026133502, 0.098207295, 0.056742374, 0.017029466, -0.058164768, -0.046973787, -0.17328712, -0.0012984811, 0.050085854, 0.11296557, 0.12639083, 0.058543045) * go_2(0.0, -1.0);
result += mat4(-0.098907426, 0.22031747, 0.101559944, 0.06616554, 0.026110496, 0.56487054, 0.23754556, -0.07540935, 0.31768414, -0.47653618, 0.015073956, -0.33731326, 0.087285936, -0.24593173, -0.26141426, 0.15003823) * go_2(0.0, 0.0);
result += mat4(0.046026446, -0.13767281, 0.064847544, 0.07717139, 0.08544123, -0.11092969, 0.072325274, 0.010849038, -0.3055905, 0.66436774, 0.1434729, 0.0494463, 0.07115603, 0.083811216, 0.020431712, 0.06537088) * go_2(0.0, 1.0);
result += mat4(-0.15532711, 0.030139687, 0.040853374, 0.11089222, -0.08150315, -0.015851755, -0.06787692, 0.096075505, -0.011956207, -0.0017758606, 0.1277494, 0.16156575, -0.038588695, -0.0626418, -0.041797023, -0.19467135) * go_2(1.0, -1.0);
result += mat4(0.12917455, 0.017410474, -0.20125067, -0.08040003, -0.13494664, 0.17789102, -0.19909395, 0.08441434, 0.078570575, -0.06330619, 0.23767303, 0.5442659, -0.009227878, -0.021818208, 0.14318731, -0.09042824) * go_2(1.0, 0.0);
result += mat4(0.097801, 0.09345441, 0.17846581, -0.14773296, 0.06536365, 0.07642184, -0.011880635, 0.02086135, 0.013336972, -0.053295113, -0.13410404, 0.027241753, 0.087728985, -0.044033397, -0.13098569, 0.009423933) * go_2(1.0, 1.0);
result += mat4(-0.02488427, 0.0134966355, -0.0075000813, 0.07272353, 0.015842725, 0.13765687, 0.028079558, -0.08384948, -0.06666623, -0.023220664, 0.025091043, -0.055167805, -0.18826278, 0.04423603, 0.13499942, 0.059128854) * go_3(-1.0, -1.0);
result += mat4(0.01935146, -0.030980906, -0.031569187, -0.0036869382, 0.036753897, 0.118464164, 0.15871695, -0.09842428, 0.023324292, 0.071796335, -0.07869346, -0.10751301, -0.2588698, 0.064011686, 0.17386378, -0.039197855) * go_3(-1.0, 0.0);
result += mat4(0.08590827, 0.005497696, -0.026512025, 0.015661815, 0.1102415, -0.08268483, -0.0032903247, 0.10049029, -0.008157236, -0.035823178, -0.017570151, -0.081716835, -0.3531045, 0.010005245, 0.017141227, -0.016376914) * go_3(-1.0, 1.0);
result += mat4(-0.16617337, -0.007689783, 0.00954665, 0.07117733, -0.001669262, -0.012331606, 0.051613946, 0.062780835, 0.06123557, -0.20243123, -0.19181818, 0.032895602, 0.19760677, 0.004464939, 0.12754539, -0.27360034) * go_3(0.0, -1.0);
result += mat4(0.15006685, -0.083587274, -0.03215495, -0.16992462, -0.011944293, 0.058361508, -0.088097006, 0.023880545, -0.04168166, -0.06960282, -0.092672385, -0.057278465, 0.23540072, -0.1721208, -0.018213503, -0.23494521) * go_3(0.0, 0.0);
result += mat4(-0.124885194, 0.1905868, 0.11108704, 0.03163991, 0.11383064, 0.101223364, 0.069428995, -0.14298953, -0.07609092, 0.13704266, -0.07749446, -0.0005389336, -0.04617235, 0.18011934, 0.08350316, 0.09416366) * go_3(0.0, 1.0);
result += mat4(0.073356606, 0.067966126, -0.21285574, 0.0782625, -0.0034364646, -0.032581426, -0.05538558, -0.1317288, 0.14552782, -0.1132393, 0.13063973, -0.00833602, 0.0026844777, 0.028135289, -0.02536825, -0.028372496) * go_3(1.0, -1.0);
result += mat4(-0.318728, 0.07862527, -0.12176221, 0.35010242, -0.029198067, 0.016302662, 0.17667587, 0.12605923, 0.1556697, -0.06061443, 0.05843511, 0.10891248, 0.01267106, -0.018492714, -0.15945031, -0.050723754) * go_3(1.0, 0.0);
result += mat4(-0.21555941, -0.016813517, -0.084676236, -0.07545412, -0.14518794, -0.014592766, -0.2446481, 0.0530632, 0.0847341, 0.12342537, -0.028644923, 0.083479315, -0.04179012, 0.0025225023, 0.16006976, -0.026940256) * go_3(1.0, 1.0);
result += vec4(-0.060742114, -0.037577342, 0.055704296, 0.03134311);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.13129333, -0.022117995, -0.009753253, 0.020439912, 0.044090994, -0.0916335, 0.0036765633, -0.11719207, -0.06413809, 0.04079378, -0.00085516454, -0.06306388, -0.12660664, -0.054126263, -0.005513979, 0.06364538) * go_0(-1.0, -1.0);
result += mat4(-0.028422508, 0.23270117, -0.28674677, -0.10820166, 0.024321957, -0.0811145, -0.07290707, -0.02125165, -0.064260505, 0.052076746, -0.009654081, 0.08363882, -0.02037171, 0.15006389, 0.121593125, -0.011237004) * go_0(-1.0, 0.0);
result += mat4(-0.14672333, 0.015381624, 0.1028172, -0.041823238, 0.0072677187, -0.042953942, 0.06426537, -0.0938381, -0.05990813, -0.04599802, -0.11264726, -0.027826328, -0.058160868, 0.10747306, -0.07327458, 0.07998872) * go_0(-1.0, 1.0);
result += mat4(-0.08702181, -0.03750975, -0.045659006, 0.04488332, 0.09102003, 0.066556975, -0.04353586, 0.08994567, -0.13561495, -0.10653702, 0.006989605, 0.028230097, 0.07177144, 0.2938447, -0.00943923, 0.022120917) * go_0(0.0, -1.0);
result += mat4(-0.1801194, -0.11119162, 0.1977298, -0.247902, -0.16654298, -0.07423158, 0.114130594, 0.0014401592, 0.006954727, -0.09810646, -0.051310766, 0.19487657, 0.2545855, -0.06328558, -0.04617056, 0.09444692) * go_0(0.0, 0.0);
result += mat4(0.011378825, 0.16044368, 0.017211074, 0.14472178, 0.032992378, -0.008925819, 0.035120245, -0.012409223, 0.074333005, 0.1178002, -0.128956, -0.13624239, -0.2791275, 0.21457297, -0.1476131, 0.04874687) * go_0(0.0, 1.0);
result += mat4(-0.03491764, -0.061763793, 0.05779039, 0.0054837577, -0.023937583, 0.08281698, 0.032306053, -0.014566218, 0.12738499, -0.0132100545, -0.051833414, 0.0057818824, 0.012158851, -0.20231532, -0.0043795826, 0.10285843) * go_0(1.0, -1.0);
result += mat4(-0.22269921, -0.15135509, -0.039143335, 0.033390045, 0.06770212, -0.14538582, -0.08011057, 0.03796648, -0.025913516, 0.13925864, 0.18309896, 0.012709204, -0.24912506, 0.3217706, 0.0394195, 0.017977878) * go_0(1.0, 0.0);
result += mat4(0.00080196525, 0.059145816, 0.05720508, 0.0056548906, 0.005168018, 0.09938438, 0.0200503, -0.05516137, 0.061309986, -0.019621318, -0.1541441, 0.019540716, 0.030571707, -0.09054893, 0.032851614, -0.27210873) * go_0(1.0, 1.0);
result += mat4(0.27061436, -0.114008114, -0.0020118617, -0.1656827, 0.09770587, 0.029897455, -0.03307522, -0.04661818, 0.033011347, 0.18498488, -0.05162084, 0.087471776, -0.24665618, -0.12538423, -0.08123797, -0.010210389) * go_1(-1.0, -1.0);
result += mat4(0.075188264, 0.0020608555, 0.18558815, 0.041179713, 0.11232638, 0.05507779, -0.19599183, 0.027942855, 0.06199144, 0.22141005, -0.06121163, 0.014993597, 0.24105869, -0.019737717, -0.112485714, 0.0157406) * go_1(-1.0, 0.0);
result += mat4(0.09425698, 0.0207658, 0.12074599, 0.009430481, 0.11889248, -0.025782838, 0.0034711843, 0.05113582, 0.012531833, -0.0018606635, -0.09137569, 0.018120576, 0.4051155, 0.02222076, -0.16001017, 0.10981527) * go_1(-1.0, 1.0);
result += mat4(-0.03582557, 0.014994796, -6.4688604e-05, 0.24618183, -0.11697727, 0.24388117, 0.038502026, -0.3511993, 0.101741396, -0.10748137, 0.035059888, -0.017535849, 0.09450039, 0.06541661, 0.12149035, 0.28798738) * go_1(0.0, -1.0);
result += mat4(-0.27143848, 0.017990451, -0.69144464, 0.037944376, -0.04551905, 0.09263134, 0.4259611, -0.14107811, -0.10641847, 0.23065196, 0.040813655, -0.07789163, 0.3087666, 0.08190437, 0.16409059, -0.06455426) * go_1(0.0, 0.0);
result += mat4(-0.08290655, -0.35286915, -0.18082355, -0.32229406, 0.1608227, 0.030915622, 0.09207708, 0.02655054, 0.039464593, 0.026095424, 0.052584656, 0.033881903, -0.01751319, -0.0011676399, 0.04002607, 0.1630013) * go_1(0.0, 1.0);
result += mat4(-0.012021132, 0.12163766, -0.07410629, -0.06879096, 0.017859738, -0.039261997, -0.028677614, -0.23610398, -0.15963873, -0.0006119958, 0.11275506, 0.0082659265, 0.05677582, 0.08676638, -0.08669759, -0.10475464) * go_1(1.0, -1.0);
result += mat4(0.12792721, 0.06888765, 0.31803077, 0.26002547, -0.067599155, -0.011822328, -0.2589909, -0.30024147, 0.11076704, 0.15200609, -0.018180368, -0.19146141, 0.22298847, 0.059484895, 0.034478076, 0.15610938) * go_1(1.0, 0.0);
result += mat4(0.0870121, -0.016420847, -0.011579898, 0.097182855, -0.120095566, -0.06843338, -0.043460473, -0.060684606, -0.027540063, -0.008499213, 0.033570655, -0.06866259, 0.01429712, -0.07424434, 0.0009466247, 0.09142678) * go_1(1.0, 1.0);
result += mat4(-0.03781424, 0.04587032, 0.03744051, 0.02712279, -0.051038064, 0.0669144, -0.02640278, 0.12384894, -0.0022533627, -0.010022036, 0.07536463, -0.030489929, 0.09418577, 0.155089, -0.011290433, -0.02102941) * go_2(-1.0, -1.0);
result += mat4(-0.0053278613, -0.07160643, 0.039028414, 0.04123311, -0.10693177, -0.1170874, 0.07230816, -0.033255517, -0.119176835, 0.0786526, -0.11880206, -0.11354601, -0.037539184, 0.14404313, 0.069760695, 0.024738638) * go_2(-1.0, 0.0);
result += mat4(0.03413808, -0.006487654, 0.10006853, 0.22228058, -0.13796462, -0.14042488, 0.04017443, -0.031790894, -0.06673143, 0.009888688, 0.08831443, -0.0045771743, -0.028375361, -0.04704813, 0.07128581, -0.07012518) * go_2(-1.0, 1.0);
result += mat4(-0.06954315, -0.23728988, -0.14192343, -0.08236467, -0.2552115, 0.04102959, -0.06355397, -0.08340241, 0.17617856, 0.20281969, -0.16249381, 0.10843737, -0.04392261, -0.08587206, 0.053069845, -0.15482199) * go_2(0.0, -1.0);
result += mat4(0.124981806, 0.12828638, -0.061472785, -0.20108232, -0.14905351, -0.40766275, -0.35427195, -0.13183996, 0.09307428, -0.07697028, 0.06702549, -0.22656697, 0.019868268, -0.19361132, 0.08784669, 0.20249842) * go_2(0.0, 0.0);
result += mat4(-0.004661343, -0.09333453, -0.24876262, -0.07906779, 0.110697776, -0.37069768, -0.042212646, -0.0046135853, -0.2254257, -0.023392014, 0.031476703, -0.045574382, -0.12675518, -0.076056994, -0.08228006, -0.040303517) * go_2(0.0, 1.0);
result += mat4(0.16182694, 0.0512523, 0.051189836, 0.048962783, -0.05156489, -0.17987493, -0.012037288, 0.06953726, -0.09458492, 0.1610021, -0.004063283, -0.032922342, 0.08995396, 0.1939926, -0.018710036, -0.08153231) * go_2(1.0, -1.0);
result += mat4(-0.064830944, 0.06121252, -0.18886387, -0.12976822, -0.031117212, 0.12219633, 0.19070715, 0.12495262, -0.11994464, -0.24687837, -0.08425294, -0.016920334, -0.13286817, -0.3260188, -0.11776061, 0.1651019) * go_2(1.0, 0.0);
result += mat4(-0.17652592, 0.002499805, -0.030541016, -0.01393431, 0.031418208, 0.08209422, 0.12430871, 0.4387016, -0.108871914, -0.09041422, 0.031226631, -0.1638517, 0.20756467, 0.014476537, -0.012701195, -0.03440563) * go_2(1.0, 1.0);
result += mat4(0.005320072, -0.0032291536, -0.017209187, 0.031944863, -0.2479921, -0.24433962, -0.13832912, 0.07835928, -0.17707248, 0.028202811, -0.19121435, 0.164587, 0.123152815, 0.0050288937, 0.084104605, -0.0380019) * go_3(-1.0, -1.0);
result += mat4(0.16008669, -0.018608516, -0.013778938, 0.033447385, -0.01242472, -0.070916265, 0.026909694, -0.07318777, 0.15158044, 0.12047607, -0.1709358, 0.2031767, 0.0025611701, -0.21457459, 0.2791286, 0.10159932) * go_3(-1.0, 0.0);
result += mat4(0.14320926, 0.020023825, -0.0484187, 0.011563084, -0.2640472, -0.013056275, 0.004234292, -0.095376395, 0.28363484, -0.0058227647, -0.0777649, 0.05238444, 0.41757923, -0.07081097, 0.012567031, -0.13029522) * go_3(-1.0, 1.0);
result += mat4(0.07266207, 0.042793367, -0.08212271, -0.23401663, -0.19457819, 0.4191269, -0.03095442, 0.15339781, -0.28451788, 0.09316364, 0.10231693, -0.22844811, 0.111623526, 0.120017685, 0.18777381, 0.014420896) * go_3(0.0, -1.0);
result += mat4(0.15037206, -0.29763284, 0.2601235, 0.0193363, 0.13686465, 0.009907918, -0.37781665, 0.04916627, 0.14114739, 0.5043813, 0.0447959, -0.029427614, 0.041768756, 0.27211213, 0.14163221, 0.086162075) * go_3(0.0, 0.0);
result += mat4(0.19159287, 0.21363218, 0.15053211, 0.08992885, 0.100828275, 0.09379921, 0.030783929, 0.11664482, -0.059145752, -0.19400764, -0.09351283, -0.016430443, -0.12910964, -0.067078374, 0.11760082, 0.121194765) * go_3(0.0, 1.0);
result += mat4(-0.055059325, 0.09299572, 0.06848913, 0.06334532, -0.1476285, 0.111801244, -0.033960916, 0.06474366, -0.04952303, 0.27885208, -0.052447475, 0.09226763, -0.15024844, -0.0033919013, 0.013498364, 0.09135676) * go_3(1.0, -1.0);
result += mat4(-0.017010042, -0.122343406, -0.19097193, -0.27957183, -0.18206005, 0.102321096, 0.22794476, 0.0439245, -0.23710132, -0.08070259, 0.17377135, 0.23811814, 0.17799385, 0.049567625, 0.1470908, 0.07329385) * go_3(1.0, 0.0);
result += mat4(0.0038071256, 0.19454515, -0.01222965, -0.07390379, -0.0532754, 0.03942833, 0.123840906, 0.023459576, -0.0658742, -0.023957543, -0.14682837, 0.1221027, -0.010986398, -0.066184506, 0.03026491, -0.0638446) * go_3(1.0, 1.0);
result += vec4(-0.06427697, -0.00039365015, 0.011889719, 0.060232002);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf1
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.012110923, 0.07818654, 0.07964548, 0.11885079, -0.07694473, -0.01378252, 0.006632789, -0.12876098, 0.0069211307, 0.022278586, 0.069553085, 0.16569804, -0.11123615, 0.06125189, -0.11232848, 0.1559266) * go_0(-1.0, -1.0);
result += mat4(-0.3261174, -0.25586754, 0.21129315, 0.3135101, 0.1509055, 0.0044283345, 0.024674175, -0.08000473, 0.01213029, 0.09093019, 0.04942677, 0.09806723, -0.16454464, -0.14433062, -0.058094524, -0.060819894) * go_0(-1.0, 0.0);
result += mat4(0.023174008, 0.02858724, 0.07685972, 0.036857616, -0.10415571, 0.10241035, -0.01893166, 0.02065923, 0.058356714, 0.096426114, -0.03772327, -0.1529002, 0.13740575, -0.048291504, -0.06152548, -0.15199897) * go_0(-1.0, 1.0);
result += mat4(0.029300174, -0.13222043, 0.0139825605, -0.02274408, 0.062944874, 0.028447356, 0.05960515, 0.034447193, 0.03133432, -0.019283533, -0.024591971, -0.0043914663, 0.15245225, 0.006851478, -0.051783554, 0.17453748) * go_0(0.0, -1.0);
result += mat4(-0.09125915, 0.081739366, 0.01196335, 0.23130219, -0.22557035, -0.13537665, 0.0022028848, -0.043430023, 0.22759882, 0.07920754, -0.027986467, -0.14051494, -0.19557038, -0.03585936, -0.4258294, -0.03856216) * go_0(0.0, 0.0);
result += mat4(0.18511422, -0.09368415, 0.1551229, 0.04322566, -0.023400841, -0.02261204, 0.15129441, -0.007954805, -0.10739125, 0.019459398, 0.013128325, 0.018073296, 0.20886365, -0.20662378, -0.03814699, -0.09272838) * go_0(0.0, 1.0);
result += mat4(-0.027352437, -0.039882626, 0.12598103, -0.093930446, 0.030846786, -0.09325075, -0.009084744, -0.024584265, 0.07159868, 0.14162529, 0.19019091, 0.058855128, -0.09880401, -0.01843218, 0.14753596, -0.2449532) * go_0(1.0, -1.0);
result += mat4(0.06565521, 0.09150168, -0.08654865, 0.0829788, -0.07596146, -0.01815166, -0.08786775, -0.03477514, 0.20538878, -0.012766377, 0.020719538, 0.088188395, -0.034300096, 0.29972988, -0.20005241, 0.018425167) * go_0(1.0, 0.0);
result += mat4(0.11713916, 0.024167519, 0.05167596, -0.0027117804, -0.016994188, 0.048177514, -0.012556207, 0.010979094, 0.09098878, 0.028514355, 0.06063336, -0.06624107, 0.012754856, 0.013208708, -0.061374772, -0.0025992664) * go_0(1.0, 1.0);
result += mat4(-0.09053513, 0.03183455, 0.017340872, 0.12934409, -0.022161964, -0.0015361432, -0.049972344, -0.12763855, 0.12779881, -0.04697911, 0.018968226, -0.119873665, 0.05462772, -0.13919477, -0.10226718, -0.2540179) * go_1(-1.0, -1.0);
result += mat4(-0.29912186, -0.09291771, 0.050926663, 0.49361777, 0.21372582, 0.076717265, -0.058968987, -0.1572678, 0.3194591, -0.120582424, 0.03942037, 0.023128232, 0.24321598, 0.07046334, -0.21204855, -0.648296) * go_1(-1.0, 0.0);
result += mat4(0.05366883, -0.020366706, 0.020979457, -0.06893884, 0.04837168, 0.017253762, 0.008874203, -0.020785445, -0.20425391, 0.060179923, 0.046167206, 0.09863377, -0.14381303, 0.038928367, -0.06590863, -0.18408588) * go_1(-1.0, 1.0);
result += mat4(0.07099762, 0.2029403, -0.033945918, 0.15202214, 0.0901113, -0.27336198, -0.17693861, -0.16206753, -0.17642029, 0.09400492, -0.11165698, -0.07863893, -0.16306102, -0.056210615, 0.22173557, 0.013508989) * go_1(0.0, -1.0);
result += mat4(0.08541511, -0.27093616, -0.35273993, -0.48919773, 0.038383547, -0.16013749, 0.012996215, -0.03434873, 0.07024113, -0.28971404, 0.10623425, -0.0019642068, -0.062374946, 0.3291145, 0.22468035, -0.42971882) * go_1(0.0, 0.0);
result += mat4(0.020427933, 0.15062793, 0.08308975, -0.025095072, 0.030093266, -0.09649862, -0.03382388, -0.0016017791, 0.105402954, 0.020693144, -0.051065, 0.07704679, 0.02864139, -0.00135146, 0.03762216, 0.029277142) * go_1(0.0, 1.0);
result += mat4(0.01700994, 0.12214317, 0.06749582, 0.07354159, -0.093085855, -0.065021954, 0.010773045, -0.00095128635, -0.045384295, -0.072611265, -0.043900184, 0.049471326, 0.029131187, 0.03180158, -0.13313527, 0.05280797) * go_1(1.0, -1.0);
result += mat4(0.14751251, -0.15087761, 0.09932281, -0.099232934, -0.062390897, 0.112391844, -0.09159478, 0.15856399, 0.034708973, 0.01819943, -0.02730164, -0.13562973, -0.05687333, -0.0114601655, 0.07025971, 0.02496533) * go_1(1.0, 0.0);
result += mat4(-0.0117268525, -0.026162883, 0.07481553, 0.13420302, 0.029870516, 0.07405776, -0.06379041, 0.09631234, -0.07754842, 0.035888605, 0.0034764851, -0.040771756, -0.092022054, -0.034230903, -0.02281844, -0.0028173258) * go_1(1.0, 1.0);
result += mat4(-0.059846643, 0.016772347, -0.02287152, 0.07036337, -0.024946844, 0.09826078, -0.068491876, 0.20852126, 0.073890835, -0.058288682, 0.013093785, -0.05776076, 0.0516503, 0.052794468, 0.10837015, 0.038539834) * go_2(-1.0, -1.0);
result += mat4(-0.16391893, -0.008062687, -0.35022175, 0.2510062, -0.15820411, 0.048403125, 0.024878092, 0.037888516, -0.035924178, -0.068953894, -0.025386479, 0.24405715, -0.018495679, -0.051277515, 0.14754932, -0.031538483) * go_2(-1.0, 0.0);
result += mat4(-0.038429607, -0.047140498, -0.018157095, -0.029318782, -0.04094171, -0.11870087, 0.11214255, 0.07142628, 0.021007229, -0.005681072, 0.1662777, 0.10829575, 0.112268396, 0.03567479, -0.06738845, 0.0032037434) * go_2(-1.0, 1.0);
result += mat4(-0.032217573, 0.2102397, -0.20617546, -0.07920811, 0.12918773, 0.054486286, -0.13656865, 0.05806265, 0.01963165, 0.049910642, 0.15538268, 0.10724465, -0.09697837, -0.03070673, -0.0071386313, -0.11899626) * go_2(0.0, -1.0);
result += mat4(0.130827, 0.0051715383, -0.07212691, 0.45726067, 0.2773031, 0.2973666, 0.3951691, 0.01333662, -0.14561643, 0.04508669, 0.121690124, 0.13326228, -0.22579186, 0.058161184, 0.09281702, -0.00079749606) * go_2(0.0, 0.0);
result += mat4(-0.00771113, 0.09912341, -0.41895548, -0.06705759, 0.029148718, 0.052991726, 0.18665347, -0.031787418, 0.23053595, 0.09444956, 0.10691037, -0.06325714, -0.05335701, 0.1917427, -0.0065284846, 0.032622546) * go_2(0.0, 1.0);
result += mat4(-0.056801565, -0.019131258, -0.0939022, -0.08130343, -0.11051993, 0.0035269214, -0.047361933, -0.0543875, 0.10854369, 0.06445185, 0.016828364, -0.022595318, 0.1450623, 0.033027507, -0.020425137, 0.16169788) * go_2(1.0, -1.0);
result += mat4(-0.08747717, 0.07770065, 0.018155783, 0.07160794, 0.09860347, -0.04329888, -0.0043579484, -0.2014418, -0.060260013, 0.0036374568, -0.17566042, -0.2268221, 0.001273691, -0.2609373, -0.19417606, -0.04102927) * go_2(1.0, 0.0);
result += mat4(-0.086845055, -0.114253804, -0.13433142, -0.025941795, -0.0155711295, -0.13578776, 0.12059696, -0.08760523, -0.0057348222, 0.12164273, 0.07270617, -0.06352636, 0.08894258, 0.04140841, 0.1230304, -0.030357126) * go_2(1.0, 1.0);
result += mat4(0.03320213, 0.015911903, -0.06288296, -0.121976145, 0.2713457, 0.13913193, -0.092420585, 0.105714336, 0.10294281, -0.04591945, -0.11767934, 0.032249406, -0.06506192, -0.04639334, 0.08137017, -0.031746846) * go_3(-1.0, -1.0);
result += mat4(0.13717805, 0.0071242675, -0.077256985, -0.14974317, -0.08467893, -0.20126395, -0.06240603, 0.09554399, -0.075844854, 0.28380412, 0.046030026, 0.053188596, 0.50943077, 0.1179795, 0.32203588, -0.06712207) * go_3(-1.0, 0.0);
result += mat4(-0.18528835, 0.0016975187, -0.0041140947, 0.11234392, -0.34049067, -0.056880493, -0.04325441, 0.09905571, 0.10978758, 0.009608353, -0.10801905, -0.04071131, -0.09096832, -0.12350487, 0.011801418, 0.22521795) * go_3(-1.0, 1.0);
result += mat4(0.040283076, -0.034117915, -0.026142653, -0.06058959, 0.12511659, 0.4131219, 0.59190845, 0.39758852, 0.16032091, -0.5975032, -0.14516282, 0.115154505, 0.03874097, 0.18462797, 0.22934213, 0.05285643) * go_3(0.0, -1.0);
result += mat4(-0.17804009, 0.33769128, -0.14572927, -0.029545018, 0.3897, -0.055615567, 0.15232995, 0.48788264, -0.21422523, 0.03397293, 0.0337794, -0.19830915, -0.022457365, -0.35096076, 0.42616987, -0.19268763) * go_3(0.0, 0.0);
result += mat4(-0.13191561, -0.18337126, 0.017879983, -0.070472844, -0.09409196, -0.025770849, -0.060219247, 0.10869267, -0.17341033, -0.09199785, -0.0667796, -0.093538545, -0.21300837, 0.030474098, -0.04540468, 0.041321553) * go_3(0.0, 1.0);
result += mat4(-0.0998177, -0.08669185, -0.0090886615, 0.0021083376, 0.08900095, 0.5062186, 0.45537788, 0.029077586, -0.1001008, -0.0077697043, -0.0096318, 0.11706454, 0.07401959, -0.00650215, 0.06092762, 0.037442297) * go_3(1.0, -1.0);
result += mat4(-0.18500404, 0.0024998419, -0.11761331, -0.026825588, 0.27255726, 0.093010515, 0.3281413, -0.051473666, -0.050259475, -0.17258662, -0.23394547, 0.104795866, 0.035074063, -0.061560635, 0.05975411, -0.094255395) * go_3(1.0, 0.0);
result += mat4(-0.023440497, -0.021479638, 0.0036277648, 0.004972212, 0.02416659, -0.09856867, -0.03971455, -0.27094853, 0.026615402, -0.0047890246, -0.13755885, 0.16591635, -0.0016293586, 0.133207, 0.047790572, 0.029041538) * go_3(1.0, 1.0);
result += vec4(-0.0063728676, -0.029053684, -0.052831043, 0.006475641);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.0431447, 0.047972627, 0.09522898, 0.19048582, 0.0015511789, 0.1182684, -0.065335006, 0.061233886, -0.02451869, 0.065670215, -0.015341636, 0.06836347, 0.10215459, 0.17516296, 0.0857072, 0.072732896) * go_0(-1.0, -1.0);
result += mat4(0.10117189, 0.049022958, -0.016017418, -0.12119866, 0.089112304, 0.016286526, -0.025251161, 0.03239003, -0.0783818, -0.086096615, -0.13673106, -0.15934734, -0.51308054, -0.061430074, -0.16208844, 0.2227776) * go_0(-1.0, 0.0);
result += mat4(-0.011567444, 0.025550444, -0.018439503, -0.015003767, 0.11606929, -0.11613111, -0.040906087, -0.015202219, 0.03932618, -0.1106059, 0.03703376, 0.018548314, -0.12761284, -0.038109995, -0.23577367, 0.20272344) * go_0(-1.0, 1.0);
result += mat4(0.025444161, -0.075270735, 0.10999789, 0.16305386, 0.016178958, -0.074034974, 0.1177035, -0.077481024, -0.047774278, -0.029782977, 0.23137823, -0.2389453, 0.033015423, -0.10381626, -0.16437943, 0.20906886) * go_0(0.0, -1.0);
result += mat4(-0.098473966, 0.11013442, -0.18486807, 0.1907086, -0.17564997, -0.08509439, -0.42472756, -0.17446618, 0.3440862, 0.12719585, -0.12213955, -0.02246555, 0.18982963, 0.20809166, -0.36067408, 0.51116616) * go_0(0.0, 0.0);
result += mat4(-0.019805575, 0.07812505, 0.061653323, -0.08379226, 0.026396899, 0.009063019, -0.10845824, 0.0827647, 0.045301896, -0.07748021, -0.07435832, 0.14860612, -0.077515624, 0.010588131, -0.22704287, 0.26849246) * go_0(0.0, 1.0);
result += mat4(-0.02884339, -0.09512523, -0.038564682, 0.08862835, 0.041666254, -0.10532901, 0.040582962, -0.10063983, -0.15736029, -0.03644334, -0.005061672, 0.04302295, -0.046482194, -0.05262547, 0.05110866, 0.03204655) * go_0(1.0, -1.0);
result += mat4(-0.005932702, 0.033263832, 0.0044865874, -0.02328917, 0.056534443, -0.14084046, 0.022353357, 0.015087431, -0.2734596, -0.026544483, 0.06297078, 0.11277746, 0.06127936, 0.02466357, -0.04970561, 0.02098484) * go_0(1.0, 0.0);
result += mat4(0.013603583, 0.036264602, 0.10985147, 0.01532773, -0.09012781, 0.1132652, -0.17016481, 0.025332611, -0.077462606, 0.02990799, -0.10627784, -0.006231141, -0.089164406, -0.051507175, -0.043900985, 0.09049239) * go_0(1.0, 1.0);
result += mat4(-0.15391691, 0.1915742, 0.014101639, -0.022153432, 0.06291936, -0.017871676, -0.016763045, -0.14741553, -0.011252563, -0.20720159, -0.030648025, -0.0142307645, 0.010291614, -0.09243969, -0.052940153, 0.0061574522) * go_1(-1.0, -1.0);
result += mat4(0.032283742, 0.030768922, 0.1070225, -0.027818602, 0.10032608, 0.0061178426, -0.03561339, -0.26687133, 0.14369439, -0.11362691, -0.08980895, 0.066520914, 0.33414948, 0.006998835, 0.09193012, -0.2857383) * go_1(-1.0, 0.0);
result += mat4(-0.059588976, -0.02046844, -0.042585023, 0.031939838, 0.12796514, -0.06155685, 0.03540324, 0.009929082, -0.0039611827, 0.10790477, 0.049435645, -0.083034374, 0.23874004, -0.07460337, -0.020173345, -0.2006587) * go_1(-1.0, 1.0);
result += mat4(-0.13217632, 0.052319963, -0.026713084, -0.0051368694, -0.10380872, -0.28659084, 0.0044393227, 0.005174543, -0.05092618, -0.07092548, -0.027397033, -0.01609789, 0.13699281, -0.14706929, 0.17737861, -0.23746766) * go_1(0.0, -1.0);
result += mat4(0.19268502, 0.14133929, -0.1305119, -0.4034132, 0.057504695, -0.24550998, -0.081932545, 0.45489246, -0.29331785, 0.19625074, 0.063166246, 0.15158689, 0.6715147, -0.4610189, 0.08921431, 0.17761138) * go_1(0.0, 0.0);
result += mat4(0.044718128, -0.011809122, 0.024131307, -0.30093196, -0.05607289, 0.047759805, 0.004210022, 0.098192796, 0.030430846, 0.008207501, 0.12266905, -0.10549182, 0.11584339, -0.091016166, -0.08635591, -0.13889709) * go_1(0.0, 1.0);
result += mat4(-0.19226642, 0.07147627, -0.14759602, 0.4041079, 0.0744628, -0.19612685, 0.1498252, -0.06273549, 0.017959936, 0.10858338, -0.14985329, 0.062042814, -0.13240446, -0.24362786, 0.113626175, -0.15332204) * go_1(1.0, -1.0);
result += mat4(0.08383099, -0.13935047, -0.25981048, 0.16491203, 0.07513876, -0.28346774, 0.19722275, -0.044425573, 0.020889329, -0.22140723, 0.025403097, -0.09183192, 0.014202567, -0.18666178, 0.062913105, -0.047674105) * go_1(1.0, 0.0);
result += mat4(-0.1862771, 0.25878942, -0.043018065, 0.22144824, 0.016088247, 0.12113542, -0.11965952, -0.01587184, 0.07830932, -0.16069177, 0.13421321, 0.018718706, 0.09548377, 0.018543294, 0.013614677, -0.1054485) * go_1(1.0, 1.0);
result += mat4(-0.2121733, -0.015635416, 0.027564054, -0.085904464, 0.064805664, -0.070543915, 0.08966146, -0.06359783, 0.01131311, 0.046913184, -0.09809833, -0.092063695, -0.087217696, 0.012411829, 0.0045399712, 0.027389864) * go_2(-1.0, -1.0);
result += mat4(-0.19307798, 0.09449126, 0.084036835, 0.30262446, 0.011706106, 0.029800637, 0.04612629, 0.006186647, 0.11228541, 0.055147965, 0.17659879, -0.023410015, 0.19965266, -0.06684007, -0.081968054, -0.052410994) * go_2(-1.0, 0.0);
result += mat4(-0.058564443, 0.08252549, 0.058217794, 0.0864448, -0.25663558, 0.080260284, -0.0010294432, 0.05830051, -0.07684524, 0.1820709, 0.04438993, 0.019178499, -0.12425012, -0.04596089, -0.010032888, -0.0012803525) * go_2(-1.0, 1.0);
result += mat4(-0.43352658, 0.15262963, 0.25620222, 0.22428556, 0.09667152, 0.0037820593, -0.07951691, -0.11553085, 0.12982155, 0.17988266, -0.14283511, 0.074744284, 0.03604327, 0.00452661, -0.12865154, -0.020020623) * go_2(0.0, -1.0);
result += mat4(0.06850602, -0.18057181, 0.2093389, -0.07333886, 0.28406742, -0.048766967, 0.18114483, 0.47292945, -0.2340266, -0.06862712, 0.28263155, 0.3150323, -0.054724697, -0.16958356, 0.27928987, -0.19666018) * go_2(0.0, 0.0);
result += mat4(0.03281329, 0.0038649621, -0.07108877, 0.10791149, 0.15235375, -0.3083721, 0.168294, 0.10379698, 0.029038485, 0.16282903, 0.04483725, -0.018684763, 0.108186625, 0.027885616, -0.019351846, 0.1623065) * go_2(0.0, 1.0);
result += mat4(-0.110499054, 0.31347123, 0.030852, 0.01631416, -0.1466389, 0.080429435, -0.18689284, 0.10667815, 0.20645237, -0.18004708, -0.10570413, -0.15435064, -0.019000605, -3.126077e-06, 0.037761535, -0.015040956) * go_2(1.0, -1.0);
result += mat4(-0.023364332, -0.023399066, 0.2712722, 0.049637552, -0.10222765, -0.2698945, 0.20991959, 0.04921932, 0.21510898, -0.0751939, -0.19781734, -0.28162366, -0.041881047, 0.0065111094, -0.04102195, 0.0982682) * go_2(1.0, 0.0);
result += mat4(-0.032176614, 0.019144032, -0.08985387, 0.091637276, 0.1012352, 0.0003583357, 0.07897295, -0.09531175, -0.001155058, 0.074372366, -0.026186578, 0.07283374, 0.06052053, 0.009307753, -0.03874333, -0.06228009) * go_2(1.0, 1.0);
result += mat4(-0.022224072, -0.15717922, -0.1406057, -0.05941157, -0.028769474, -0.21226564, -0.036570027, 0.22266355, 0.14120889, 0.014577123, 0.10216447, 0.018429281, 0.056729726, -0.055834044, 0.058146577, -0.11999068) * go_3(-1.0, -1.0);
result += mat4(0.009995364, -0.020045493, -0.0057422677, 0.0643022, 0.016475432, -0.030856136, 0.042140726, 0.15077904, -0.32955253, 0.0694449, 0.17931722, 0.3439302, -0.12484157, -0.10958869, -0.15755124, -0.09755644) * go_3(-1.0, 0.0);
result += mat4(-0.008314924, 0.07704758, 0.043228816, -0.08110893, 0.099286236, -0.053224478, 0.22877018, -0.189486, -0.00798416, 0.018341504, 0.10734141, 0.0752633, -0.042524844, -0.086395286, 0.14299925, 0.026488977) * go_3(-1.0, 1.0);
result += mat4(-0.052531082, 0.19139186, 0.12205995, -0.2573172, 0.15157184, 0.0073150825, 0.089774385, 0.06604469, -0.16528498, -0.002511137, 0.14287429, -0.07819732, 0.025014274, 0.15338829, 0.0761692, -0.02803716) * go_3(0.0, -1.0);
result += mat4(-0.21000335, 0.15277153, 0.08546171, 0.2816124, -0.16559112, -0.11068559, 0.47053605, -0.009787771, -0.0013089112, -0.06985127, 0.44743782, 0.25142467, -0.32670796, 0.044035822, -0.12545367, -0.2996084) * go_3(0.0, 0.0);
result += mat4(-0.11526387, 0.15654811, 0.099616654, 0.15473685, 0.21278231, 0.046207245, 0.117993094, -0.26825273, -0.12539764, 0.14013724, 0.17357737, -0.05387817, 0.076738276, -0.13339446, 0.15005626, -0.2108176) * go_3(0.0, 1.0);
result += mat4(-0.0008846504, -0.05998622, -0.028892396, 0.04784136, 0.0104263965, 0.10899508, -0.073364735, 0.077516064, -0.074248806, -0.21749993, -0.26203, 0.041161157, 0.09366407, -0.026498007, 0.0122177545, 0.03892727) * go_3(1.0, -1.0);
result += mat4(0.04349908, 0.13671173, 0.2242545, -0.028021423, -0.03802222, 0.0052366396, -0.010709643, 0.031290106, 0.06291333, -0.024909683, -0.15439379, -0.04502091, 0.2062182, -0.5983536, -0.09670497, -0.38446042) * go_3(1.0, 0.0);
result += mat4(-0.008962513, 0.13044207, 0.04964221, 0.012250417, 0.012129821, 0.019985713, -0.06421885, 0.009168735, -0.044516414, 0.071368866, -0.006634213, 0.06497366, 0.08578495, -0.10586125, 0.06628038, -0.14006054) * go_3(1.0, 1.0);
result += vec4(0.056541316, 0.041788545, -0.036094554, -0.021763096);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf1
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.0647927, 0.053666476, -0.14723225, 0.027874574, -0.0003166473, 0.07337155, -0.061972085, -0.012667777, -0.17071614, 0.091927536, -0.051160213, 0.21336353, 0.13854574, 0.09582817, 0.032316446, 0.13838023) * go_0(-1.0, -1.0);
result += mat4(-0.0398984, 0.108049214, 0.093780346, -0.022015186, -0.15188989, -0.1381083, 0.2998843, 0.21623154, -0.08862326, 0.025862623, 0.06895634, 0.13529755, 0.06957801, -0.0011681129, 0.105972745, -0.04722446) * go_0(-1.0, 0.0);
result += mat4(-0.026321493, -0.04828038, -0.012545767, -0.005490858, -0.054038163, 0.075943105, -0.11526662, 0.022242405, -0.03543104, -0.12451852, -0.14911178, 0.013503498, 0.08773292, 0.09695139, -0.013498657, -0.27424073) * go_0(-1.0, 1.0);
result += mat4(0.018575635, -0.11321618, -0.07853153, 0.04104883, 0.0018416744, 0.11579002, 0.03685964, -0.031546146, -0.1755398, 0.23517849, -0.08095411, 0.031999595, -0.18542038, -0.26171613, -0.20567231, -0.05683613) * go_0(0.0, -1.0);
result += mat4(0.1538556, 0.21723682, 0.12131733, -0.15308167, 0.103326, -0.006956118, 0.043583486, -0.23811384, -0.103285454, 0.05543916, -0.37894246, 0.32072112, 0.22651967, 0.03516268, 0.34612176, 0.23688535) * go_0(0.0, 0.0);
result += mat4(0.040021293, 0.0029912095, 0.04885362, 0.061496444, 0.016926387, -0.118446946, 0.038948335, -0.0934512, -0.25194243, -0.054018084, -0.07149527, 0.017903058, 0.0845516, 0.33802906, 0.11953944, -0.081294954) * go_0(0.0, 1.0);
result += mat4(-0.09558082, -0.36974236, -0.07524102, 0.11131445, 0.047626104, 0.12854609, -0.10264962, -0.044669047, -0.05572307, 0.34475142, -0.16806377, -0.0037204176, 0.03400533, -0.04047774, 0.024379745, 0.09056291) * go_0(1.0, -1.0);
result += mat4(-0.039392482, 0.2553437, 0.11705501, 0.03219211, 0.073977776, -0.16610906, -0.032796364, -0.054669864, -0.07123178, 0.00079619256, -0.36920992, -0.029054813, 0.12830003, 0.004987549, 0.08724278, -0.029499404) * go_0(1.0, 0.0);
result += mat4(0.021272454, -0.063295126, 0.011779576, 0.103093, -0.011095461, 0.027948728, -0.014605259, -0.04723974, -0.05334346, -0.044831257, -0.07296399, -0.03314197, -0.01687865, -0.09261895, -0.06128567, 0.092708185) * go_0(1.0, 1.0);
result += mat4(0.0077418387, 0.00871427, 0.060824487, 0.1093608, -0.021077013, -0.057341542, -0.04769576, -0.08144089, 0.0212823, -0.06731425, -0.04134463, -0.0016761447, -0.03402026, 0.036424547, 0.11689576, -0.14946719) * go_1(-1.0, -1.0);
result += mat4(0.18536687, 0.020073935, 0.17041959, 0.024790209, 0.08397728, -0.13884324, 0.013950321, -0.055075396, -0.09317963, -0.05723721, -0.060491834, 0.0017911601, -0.109154835, 0.010338362, -0.1982491, -0.21752335) * go_1(-1.0, 0.0);
result += mat4(0.031852514, 0.031424347, 0.07817056, 0.07770759, 0.019805199, -0.091223724, 0.11914662, 0.1673029, -0.018734453, 0.16275099, 0.23245652, 0.36139074, -0.1396047, -0.14774057, 0.13756078, -0.123794965) * go_1(-1.0, 1.0);
result += mat4(-0.034937833, 0.20777488, 0.10104809, -0.035140667, 0.2536575, 0.010970045, 0.16896339, -0.081219964, -0.062478427, -0.0010431948, -0.027980985, 0.11446318, -0.127309, 0.21002083, 0.044436257, -0.16986957) * go_1(0.0, -1.0);
result += mat4(0.06309646, -0.042341243, 0.36642808, 0.18653205, 0.06973023, 0.06315932, -0.323688, 0.25672218, 0.042820994, 0.13792914, -0.12892757, -0.09220378, -0.18939693, 0.03862022, -0.17376114, -0.24673308) * go_1(0.0, 0.0);
result += mat4(-0.02130602, -0.35428852, -0.011634983, -3.9823462e-05, 0.110818714, -0.2981158, 0.060209107, 0.012538829, -0.0744833, -0.050204318, -0.12676497, -0.031484153, -0.28799182, 0.22338839, -0.070876874, -0.02102363) * go_1(0.0, 1.0);
result += mat4(-0.07929991, 0.014598492, 0.23034762, 0.024872296, 0.07480494, -0.17139243, -0.014421178, 0.056448363, -0.028626937, -0.022152562, 0.044871796, -0.048653606, 0.009350802, 0.019022083, -0.08554845, -0.0922645) * go_1(1.0, -1.0);
result += mat4(-0.027405115, 0.1831188, 0.28516722, 0.19882526, 0.27299204, -0.06910511, 0.03244419, -0.0031333128, 0.061055277, -0.114398144, 0.03729459, -0.07840815, -0.37776002, -0.24129418, -0.54815483, -0.2702045) * go_1(1.0, 0.0);
result += mat4(0.053723935, 0.13472083, 0.09563273, 0.19009806, -0.18722993, -0.25939655, -0.016197463, -0.067061596, 0.1647598, 0.061905228, 0.06191816, -0.018582113, -0.07218153, 0.11278394, 0.05478068, -0.104871586) * go_1(1.0, 1.0);
result += mat4(0.0036616288, -0.045782693, -0.226954, -0.05043515, -0.078096785, -0.036197383, 0.09269631, 0.016823346, -0.0060579977, -0.041455746, 0.09032774, -0.09217121, 0.058089796, 0.060311552, 0.033079024, 0.022586476) * go_2(-1.0, -1.0);
result += mat4(0.0436363, -0.079482526, 0.0027447809, 0.039558932, 0.13275702, 6.898711e-05, -0.21961488, -0.11315821, 0.0076181027, -0.025279062, -0.15829584, -0.063141204, 0.062049046, 0.13117202, -0.02435016, 0.109555416) * go_2(-1.0, 0.0);
result += mat4(-0.010148116, 0.056620967, -0.015910713, -0.07370375, 0.1529919, 0.005792597, 0.02771225, -0.17027487, 0.096740395, 0.063347995, 0.17823112, 0.054105148, 0.04995114, -0.28613812, 0.06369567, 0.15978208) * go_2(-1.0, 1.0);
result += mat4(-0.13688345, 0.16967694, -0.061759472, 0.013682004, -0.1290496, 0.07167547, -0.065592445, -0.17897636, 0.057080988, 0.035630587, 0.09140394, -0.08695068, 0.16807681, 0.014749346, 0.07875138, 0.034913708) * go_2(0.0, -1.0);
result += mat4(-0.098915346, -0.31459075, -0.10892429, 0.1557498, -0.19764107, -0.26881596, -0.03589311, 0.45288458, -0.34171388, 0.12675741, 0.18415868, -0.19770056, 0.29025507, -0.15812592, 0.09685835, 0.0027761247) * go_2(0.0, 0.0);
result += mat4(0.06425249, -0.01169722, 0.06379363, 0.053835012, -0.07356561, -0.06367294, 0.108630784, -0.14137438, 0.08536725, -0.03209748, 0.07250959, -0.014214082, 0.07170588, -0.25647813, 0.1092683, 0.18791042) * go_2(0.0, 1.0);
result += mat4(-0.023783233, 0.14261739, 0.102011986, -0.03633555, -0.05032627, 0.09378387, 0.11764051, 0.1353335, 0.032817088, -0.1352964, -0.00667997, -0.13388929, 0.022861317, 0.0037358075, 0.018605746, -0.0009892831) * go_2(1.0, -1.0);
result += mat4(0.22419162, -0.23105696, -0.09900454, -0.15831396, 0.12398773, 0.097933106, -0.13189293, 0.1330756, -0.19673057, -0.037342317, -0.13462654, -0.08974021, 0.030326528, -0.0815862, -0.118352115, 0.009187904) * go_2(1.0, 0.0);
result += mat4(-0.012130391, -0.06408448, 0.13710785, -0.06678414, -0.09970725, -0.14895032, -0.02366641, 0.029581001, -0.07101809, 0.09414698, 0.018300869, 0.009139046, -0.0027311493, -0.2359952, -0.011602826, -0.007582444) * go_2(1.0, 1.0);
result += mat4(-0.15473361, -0.06868751, -0.030721204, -0.08650113, 0.071349874, -0.08177769, 0.1611948, 0.18305337, -0.0144878505, 0.10975452, -0.026968453, -0.04909913, -0.059665974, 0.056036238, -0.11623168, -0.10584912) * go_3(-1.0, -1.0);
result += mat4(-0.096973225, 0.054132458, -0.010600018, 0.089397885, -0.0031138035, 0.037452973, 0.041115325, 0.1924831, 0.14759748, 0.032560788, -0.082884625, 0.0324635, -0.083511285, -0.050381303, 0.025589975, -0.0981257) * go_3(-1.0, 0.0);
result += mat4(-0.09183111, 0.034952193, -0.048511654, 0.020719057, 0.1863456, 0.01902738, 0.14455654, -0.008500172, 0.16385981, -0.07806569, -0.031216217, -0.17002788, -0.08882952, 0.07335293, -0.2223089, 0.01706056) * go_3(-1.0, 1.0);
result += mat4(-0.08361569, 0.046698716, -0.016646344, 0.09351987, 0.0054158634, -0.13641126, -0.12396605, 0.011380122, 0.040951792, -0.11222528, -0.0031548145, -0.0022303525, 0.0350846, -0.03280425, -0.09972476, -0.113325305) * go_3(0.0, -1.0);
result += mat4(-0.19961461, -0.27561286, -0.12783135, -0.062596925, 0.005870981, -0.24796526, 0.18717633, -0.16945636, -0.076396205, -0.08411448, 0.13751988, 0.21014418, -0.008655945, -0.09848541, -0.14536901, -0.2132181) * go_3(0.0, 0.0);
result += mat4(0.14118621, 0.20831147, -0.020545695, 0.008340737, 0.016840864, -0.16912372, -0.121718146, 0.15108089, -0.19803092, -0.07827729, -0.047639225, -0.12277847, 0.04974115, -0.09349339, -0.2756667, -0.19581003) * go_3(0.0, 1.0);
result += mat4(-0.0036992705, 0.16539848, 0.022026122, 0.07740234, -0.035687633, -0.004568715, 0.017408118, -0.09757294, -0.094941914, -0.3381112, -0.12724453, 0.025583982, -0.18571027, 0.047607586, -0.0704089, -0.055323426) * go_3(1.0, -1.0);
result += mat4(0.13821335, 0.028168043, 0.09990671, -0.032266147, -0.067236245, 0.11512147, -0.112986445, -0.10818019, -0.10062181, 0.21276556, 0.01681818, 0.069806606, 0.09628121, 0.06456379, 0.10394843, -0.02343886) * go_3(1.0, 0.0);
result += mat4(0.041937463, 0.072631165, 0.045366894, -0.0046993676, 0.03946691, 0.121010706, -0.030089365, -0.007266469, 0.0092267515, 0.14853416, -0.033248078, -0.027284347, -0.10031526, 0.15864117, -0.16782752, -0.18466589) * go_3(1.0, 1.0);
result += vec4(0.07722432, -0.025165567, 0.034291282, -0.09902708);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE conv2d_4_tf
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.004729794, -0.0124398535, -0.08538641, -0.058604605, 0.008671952, 0.25604513, 0.020800482, 0.24144122, -0.028920606, -0.04705229, 0.030192787, 0.0010597534, 0.017666103, 0.0041322373, 0.20027764, 0.08919112) * go_0(-1.0, -1.0);
result += mat4(0.0001626656, 0.05816014, -0.0060765734, 0.08811165, 0.35835367, -0.016291425, -0.56892496, 0.083845764, 0.15026698, -0.15916558, 0.08069463, -0.3931291, -0.0123534845, -0.111639686, -0.14637001, -0.08171439) * go_0(-1.0, 0.0);
result += mat4(-0.114976816, 0.023376396, 0.13855027, 0.07438716, -0.069991484, 0.20377779, 0.23929878, -0.040769435, 0.018832395, 0.005638609, -0.091848075, 0.027843866, 0.023744943, -0.06620523, -0.11678267, 0.0844119) * go_0(-1.0, 1.0);
result += mat4(0.0035854098, -0.08432094, -0.17799544, -0.10041983, 0.25605857, 0.021009786, 0.030499447, -0.09928291, 0.052178737, -0.08286175, -0.057888374, 0.024606042, 0.046342995, 0.13875343, 0.11279266, 0.19826262) * go_0(0.0, -1.0);
result += mat4(-0.016232021, -0.21539623, 0.0936961, 0.021143785, 0.094262615, 0.049040064, 0.40978724, 0.15347758, 0.08884813, -0.24887115, -0.14756748, -0.5020875, 0.112477, 0.1466549, -0.33418837, 0.5769466) * go_0(0.0, 0.0);
result += mat4(-0.16832942, -0.07354198, -0.12081261, -0.055348314, 0.39716053, 0.25583258, 0.09870877, 0.2151021, -0.025700683, -0.1801462, -0.04616654, -0.02782245, -0.054461803, -0.00042802413, -0.00163228, -0.004240747) * go_0(0.0, 1.0);
result += mat4(-0.05193433, -0.0018198475, -0.17647028, -0.19462106, 0.1538165, 0.054894235, 0.12183955, 0.07340974, -0.0019901982, 0.0357373, -0.07597063, -0.06681543, -0.00090057997, -0.053894397, -0.010301875, -0.16553953) * go_0(1.0, -1.0);
result += mat4(-0.30873474, -0.2836045, 0.057037193, -0.5016378, 0.11952749, 0.102353275, 0.2351629, -0.14635189, -0.019398788, -0.08776502, 0.021669978, -0.089918956, -0.2187901, -0.1180891, -0.049789533, -0.16109149) * go_0(1.0, 0.0);
result += mat4(-0.078335494, -0.08867304, 0.03349591, -0.1000293, -0.20235832, 0.22917585, -0.09905303, 0.08381748, 0.014350217, -0.14478815, -0.027479894, -0.026432173, -0.10309177, -0.09860884, -0.019177807, -0.06963025) * go_0(1.0, 1.0);
result += mat4(0.008169383, 0.12532842, -0.23369955, 0.077973194, 0.09076616, -0.021277165, 0.1721421, -0.26914293, -0.014729218, -0.023279984, -0.057670787, 0.003598546, -0.015225789, -0.0115396585, -0.26196182, -0.10724508) * go_1(-1.0, -1.0);
result += mat4(0.16542235, 0.06589374, 0.07410237, 0.26753154, -0.3356288, 0.3096256, 0.07112498, -0.0992165, 0.15020338, -0.11021673, 0.18803611, 0.12918204, 0.109007336, -0.031968266, 0.057093572, 0.035949256) * go_1(-1.0, 0.0);
result += mat4(0.065006174, 0.031055925, 0.0390232, -0.01678507, -0.21553491, 0.14171642, -0.19541772, -0.033691674, -0.06241631, 0.07497651, 0.024557155, 0.056778047, -0.060191352, -0.0261998, 0.07493729, -0.0699132) * go_1(-1.0, 1.0);
result += mat4(-0.008541382, 0.020270415, -0.027760057, -0.040962905, -0.26732433, 0.34379438, -0.23012447, 0.0051356517, -0.04059567, 0.0972959, 0.039965224, -0.14796777, -0.0016924662, -0.116963714, -0.026353523, -0.29799464) * go_1(0.0, -1.0);
result += mat4(0.03329303, -0.12663862, -0.0004959157, -0.11162377, 0.26238343, 0.43260252, -0.16504994, 0.10727678, -0.22505566, 0.43474057, 0.43304008, 0.05143919, 0.40494493, 0.08689636, -0.035733614, 0.25727916) * go_1(0.0, 0.0);
result += mat4(0.12175736, -0.014467151, -0.17461288, -0.18480565, -0.26439998, 0.307935, -0.058916792, -0.014292711, -0.0569471, 0.10751278, -0.04134206, 0.1847734, -0.07519831, -0.033909313, -0.05001451, -0.136606) * go_1(0.0, 1.0);
result += mat4(0.1424893, -0.026820501, 0.19645774, -0.0011315406, -0.14680974, 0.07662838, 0.21108222, 0.13260938, 0.17923595, -0.085527614, 0.08217639, 0.06579479, 0.05985784, -0.09016323, 0.11172888, 0.111903176) * go_1(1.0, -1.0);
result += mat4(0.19842595, 0.0093640275, 0.10433465, 0.13341904, -0.082806975, 0.22555825, -0.1315717, 0.11907785, 0.24012424, 0.47776055, 0.1835734, 0.17483878, 0.079803735, 0.01155073, -0.21146573, -0.16484722) * go_1(1.0, 0.0);
result += mat4(0.15064004, 0.021381427, 0.18301587, 0.21225913, 0.054995645, 0.03212186, 0.052798916, -0.048424408, 0.03609021, 0.0964704, -0.059469886, -0.05133066, -0.08157349, 0.051145166, -0.09107608, -0.1362262) * go_1(1.0, 1.0);
result += mat4(0.090521574, -0.014747857, -0.081675015, -0.118686825, 0.04848682, -0.033071827, 0.008534588, 0.023765508, 0.16849907, -0.21797262, -0.17049783, -0.07824179, -0.033794608, 0.052612655, 0.095820345, -0.07262317) * go_2(-1.0, -1.0);
result += mat4(0.22816367, -0.13772108, -0.036353834, -0.47638395, -0.0530902, 0.14089061, 0.076203234, 0.18006112, 0.121814854, -0.20750527, 0.08266107, -0.28634354, 0.14301859, -0.13458411, 0.00501663, -0.039783802) * go_2(-1.0, 0.0);
result += mat4(-0.103384845, -0.14389835, 0.08275834, -0.068423435, 0.22643796, -0.02966374, -0.2847584, 0.037081387, 0.02349005, -0.19353923, -0.00095957273, -0.13623689, -0.073120415, 0.03941467, 0.21864155, -0.014019576) * go_2(-1.0, 1.0);
result += mat4(-0.082576886, 0.17085212, 0.08971252, -0.04213377, -0.032548156, 0.022137715, 0.08399252, -0.0011743539, -0.09410863, -0.41728264, -0.20709297, -0.18933547, 0.027059928, 0.09743364, 0.2504647, -0.041173562) * go_2(0.0, -1.0);
result += mat4(-0.20924084, 0.291118, 0.029851688, 0.16953468, 0.02936709, 0.12213576, 0.22944322, 0.108747594, 0.0001881129, -0.27398208, -0.009702691, 0.15449248, -0.9472944, -0.26114875, -0.28161275, -0.3495961) * go_2(0.0, 0.0);
result += mat4(-0.12994622, -0.2758638, -0.1091727, -0.0968308, -0.14323105, 0.035175014, -0.08023811, 0.006023802, -0.031529594, -0.1486306, -0.3398172, -0.23240276, -0.29163983, 0.173475, 0.18809283, 0.22197202) * go_2(0.0, 1.0);
result += mat4(0.048254848, -0.083444916, -0.014334202, 0.060992356, -0.023099286, -0.09492961, 0.05592045, 0.0026059286, 0.08998117, -0.108810075, -0.053304546, 0.045926623, 0.068255246, 0.099023566, 0.01595483, 0.1336309) * go_2(1.0, -1.0);
result += mat4(0.21916585, 0.2837387, 0.14624594, 0.18843961, -0.06747584, 0.054924384, -0.082568415, 0.05011459, 0.014297759, -0.3884833, -0.054417178, -0.18970548, 0.088336475, -0.030646667, -0.2980552, -0.030035203) * go_2(1.0, 0.0);
result += mat4(-0.02748568, -0.011897529, -0.2370837, -0.016740574, -0.0282112, 0.050353892, -0.10761107, -0.00036999505, 0.037646662, -0.17742962, 0.06489219, -0.158852, -0.08016933, 0.07808515, -0.105895035, 0.079869986) * go_2(1.0, 1.0);
result += mat4(-0.0058994526, -0.037170693, 0.2574696, 0.06199102, -0.04497728, -0.10667442, -0.15183865, 0.0212881, -0.030842574, 0.073473394, 0.010764398, -0.00084518327, -0.03893014, -0.009649613, 0.07443129, 0.15108284) * go_3(-1.0, -1.0);
result += mat4(0.11325495, -0.096435815, -0.097331434, -0.049700152, -0.17231967, 0.047090057, -0.019111065, 0.104790315, -0.15004838, 0.13950798, 0.055996202, -0.070548095, 0.047154237, -0.007650949, -0.053611025, -0.012242293) * go_3(-1.0, 0.0);
result += mat4(0.12787002, -0.04958212, 0.053988468, 0.0017896162, 0.049493514, -0.009475431, -0.0022641935, 0.03933694, -0.005174597, 0.043754533, -0.1432976, 0.037084177, -0.04601288, -0.032077815, -0.059897035, 0.12584484) * go_3(-1.0, 1.0);
result += mat4(0.019409029, 0.10492923, 0.268368, 0.12597778, -0.17733063, -0.0085961, -0.27136415, -0.049664587, 0.012515404, -0.21444482, -0.39275557, -0.12297177, 0.06800057, 0.19228315, 0.06245887, 0.35772634) * go_3(0.0, -1.0);
result += mat4(-0.16317715, 0.2288402, -0.23235172, 0.22230752, -0.1646375, 0.13366091, 0.16681044, -0.17399235, 0.33997267, -0.3179832, -0.34756508, 0.39843196, -0.10748536, 0.322923, 0.23339489, 0.08684083) * go_3(0.0, 0.0);
result += mat4(0.02835275, 0.12314228, 0.24030593, 0.30856124, 0.055735108, -0.044914473, 0.0031432225, 0.07469899, 0.1778018, 0.107083894, -0.023706734, -0.15501897, 0.0943098, -0.034707237, -0.18622099, 0.05257965) * go_3(0.0, 1.0);
result += mat4(0.042839274, 0.12597966, 0.08979042, -0.0647561, -0.050434645, 0.049438696, -0.20008127, -0.05572608, 0.046238814, 0.12622325, -0.019017145, -0.13960391, -0.040050175, 0.14298008, -0.20270552, 0.13391526) * go_3(1.0, -1.0);
result += mat4(-0.0073277587, 0.10606624, -0.08940439, -0.09656414, 0.12387374, -0.0013147948, 0.23607181, -0.00037969893, 0.050353236, -0.17266603, 0.27796733, -0.09877832, 0.02711225, 0.096394345, 0.07457944, 0.21541388) * go_3(1.0, 0.0);
result += mat4(-0.18612787, -0.00027517386, -0.17136407, -0.06413671, 0.025629476, -0.04570916, 0.0008431566, -0.03419168, 0.08123608, 0.09465922, 0.11975521, 0.1269741, 0.08413221, 0.12125001, 0.04727287, 0.072378494) * go_3(1.0, 1.0);
result += vec4(0.04244928, -0.014280219, 0.017129054, -0.08807801);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE conv2d_4_tf1
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.01973856, -0.05053795, 0.015545361, 0.10867395, 0.33441806, 0.14731607, 0.6793983, -0.21394718, -0.00846322, 0.09146322, -0.07427475, -0.078477465, -0.090998545, 0.133366, 0.105515696, -0.13784988) * go_0(-1.0, -1.0);
result += mat4(-0.05404873, 0.09784018, -0.1337389, -0.18082313, 0.13461179, -0.3816801, 0.12209786, 0.08176651, 0.10461896, -0.43315184, 0.017470734, 0.20423968, -0.03941875, -0.101959296, -0.09440259, 0.09154717) * go_0(-1.0, 0.0);
result += mat4(0.17229515, -0.06907825, -0.008382803, -0.16671611, -0.01576541, 0.03985307, 0.08209482, -0.11707446, -0.11793074, 0.13702396, -0.02013158, 0.07302033, -0.022301994, -0.11464677, 0.036753565, -0.093276784) * go_0(-1.0, 1.0);
result += mat4(-0.017650167, 0.009475923, -0.17856382, 0.15925962, 0.06434641, -0.15568036, 0.038135886, 0.18855911, -0.04427734, 0.1878215, 0.10856261, 0.0041275816, -0.12046199, 0.13610138, 0.3741596, -0.12934728) * go_0(0.0, -1.0);
result += mat4(-0.24631616, 0.0169485, -0.035534818, 0.37795424, -0.08546174, 0.07817259, 0.42897213, -0.47965595, -0.0146556785, -0.20510523, -0.18889453, 0.06476019, 0.1021008, -0.35398817, -0.031071864, -0.21416448) * go_0(0.0, 0.0);
result += mat4(0.32810766, 0.050585747, -0.17658374, -0.13881154, 0.16417882, -0.21286008, -0.106835455, -0.1722344, -0.14151084, 0.08962986, 0.057395387, -0.01623662, 0.02570415, 0.15626897, -0.12687978, 0.080729105) * go_0(0.0, 1.0);
result += mat4(-0.050597478, -0.018753758, -0.036346875, -0.017908493, 0.058593344, 0.008303028, 0.05254987, -0.06635018, -0.022532012, 0.029511122, 0.026682215, -0.054647952, 0.069466785, -0.08892492, 0.025351115, -0.023130694) * go_0(1.0, -1.0);
result += mat4(0.2412473, -0.16138165, -0.15117447, 0.11851003, -0.096868426, 0.082690425, 0.27923304, 0.11590443, 0.19363573, -0.15770023, -0.066793665, 0.011681678, 0.14037277, -0.112065665, -0.048159517, 0.009453693) * go_0(1.0, 0.0);
result += mat4(0.1580054, -0.0060506654, 0.05267837, -0.09178131, -0.09107123, 0.23191126, 0.21108283, -0.070422985, 0.024321035, 0.06131459, 0.066626504, 0.032481454, 0.044402298, 0.1390604, -0.14432502, 0.040869843) * go_0(1.0, 1.0);
result += mat4(0.10264861, 0.013504324, 0.012482852, -0.1781206, -0.12799414, -0.27026084, -0.123830505, 0.098105, -0.039127555, 0.09367889, 0.122323096, 0.1416734, 0.044763107, -0.21801683, -0.14018978, 0.17646866) * go_1(-1.0, -1.0);
result += mat4(0.017453065, 0.11498537, -0.10998983, -0.3116098, -0.3099762, 0.5024706, 0.051817298, 0.03170681, -0.18937826, 0.07946567, -0.11978771, -0.09523745, -0.0033551592, -0.11768945, 0.08932359, -0.06689581) * go_1(-1.0, 0.0);
result += mat4(0.1507582, -0.013266159, -0.073085934, -0.07252967, -0.06301927, -0.13218755, 0.12984878, -0.13678701, 0.023422396, 0.082123175, 0.006906731, -0.004018426, -0.15813835, 0.13711788, 0.016018609, 0.13443229) * go_1(-1.0, 1.0);
result += mat4(-0.06960673, 0.16156524, -0.1374069, -0.05803206, -0.077960715, -0.10676749, 0.26282015, 0.03521529, 0.058099385, -0.014738148, 0.0011174522, 0.24279532, -0.023991548, -0.108812414, -0.08886019, 0.20584475) * go_1(0.0, -1.0);
result += mat4(-0.08043308, 0.063343, 0.055290066, -0.15991378, -0.08096304, -0.23888679, 0.019161629, 0.38381267, 0.3672934, -0.119608454, -0.43623593, -0.46014485, -0.5323366, 0.1318621, 0.087373205, -0.05535459) * go_1(0.0, 0.0);
result += mat4(0.20640239, -0.1369444, -0.21677823, 0.08202178, 0.10515278, 0.06810837, 0.073207974, 0.23623931, 0.102422275, -0.05016664, -0.0039228587, -0.1810343, -0.2235563, -0.1246854, 0.1428113, -0.10609135) * go_1(0.0, 1.0);
result += mat4(-0.031941894, -0.08905056, 0.21501167, 0.11244667, -0.011811734, 0.21630247, 0.07589472, -0.040489636, -0.11824066, -0.11520391, -0.10075633, -0.035642453, 0.062144946, 0.0073282206, 0.14119269, -0.060479023) * go_1(1.0, -1.0);
result += mat4(-0.29382935, -0.056808118, 0.051812876, -0.061358813, -0.08344258, 0.124203674, 0.037964176, -0.01961274, -0.000951725, 0.50005037, -0.24176972, 0.06487161, -0.15469861, 0.04336187, 0.17826353, 0.040010225) * go_1(1.0, 0.0);
result += mat4(0.02044482, -0.0879271, -0.01053958, -0.31148303, 0.07497373, -0.11548258, -0.1666126, 0.02369657, -0.058044076, 0.010801491, -0.005933901, -0.08910467, 0.007953008, 0.03761974, -0.029501524, 0.16816042) * go_1(1.0, 1.0);
result += mat4(0.1779597, -0.10213089, 0.29942423, -0.016642543, -0.015537001, -0.04676146, 0.09585872, -0.0055750017, -0.014361908, -0.20667697, -0.11348746, 0.13081487, -0.10437329, 0.14328459, 0.11648822, -0.09163837) * go_2(-1.0, -1.0);
result += mat4(0.019033967, -0.12420627, -0.07748253, 0.43203858, -0.109799065, 0.07605535, 0.060791396, -0.24517195, -0.15674245, 0.21267459, 0.10665515, -0.073150024, -0.1358355, 0.0054066703, -0.16434059, -0.06031853) * go_2(-1.0, 0.0);
result += mat4(-0.18834068, 0.26840356, -0.12937617, 0.16103932, -0.0062331813, -0.13630053, -0.013911821, 0.022389365, -0.044232946, -0.056454606, 0.022426741, 0.18010215, 0.041900013, 0.03375041, -0.11376866, -0.010313381) * go_2(-1.0, 1.0);
result += mat4(0.12497669, -0.31161824, 0.097568035, 0.19443443, -0.05056519, -0.0031457904, 0.1055554, -0.083650924, 0.07630523, -0.34177595, -0.093093194, 0.20701368, -0.030962149, -0.054470222, -0.23853977, 0.004326528) * go_2(0.0, -1.0);
result += mat4(0.34370202, 0.085750066, -0.16071722, -0.54335934, -0.35595295, -0.050744478, -0.17405547, 0.008628697, -0.007086256, 0.23164117, 0.340156, 0.5475976, -0.15292351, 0.28019544, 0.038059216, 0.0044727) * go_2(0.0, 0.0);
result += mat4(-0.08231968, -0.0052294536, 0.07451547, 0.22278999, -0.3305531, 0.0017458396, 0.10818422, -0.21325395, -0.08807993, -0.110342845, 0.10082142, -0.051594347, 0.24192205, -0.18042035, -0.0095462985, -0.08757798) * go_2(0.0, 1.0);
result += mat4(0.096379586, 0.021887815, -0.05097233, -0.06797989, -0.026171045, 0.022944937, -0.015915364, 0.037667938, 0.17216732, -0.014889412, 0.07343887, 0.028236505, 0.0015047621, 0.1355103, -0.09918284, -0.07673695) * go_2(1.0, -1.0);
result += mat4(-0.25385055, 0.15163356, 0.0030003798, 0.18464413, 0.05611221, 0.099498056, -0.07128191, 0.042955168, 0.027493173, 0.07440157, 0.07814497, 0.096160784, 0.13571084, 0.056412842, -0.031997006, -0.16073681) * go_2(1.0, 0.0);
result += mat4(-0.21634746, 0.025153082, -0.064477116, 0.0005679147, -0.0029436245, 0.12794618, 0.024849026, 0.03018052, 0.11723976, 0.059955597, -0.013594654, 0.09091745, 0.04775348, 0.21260159, -0.07463213, -0.06727042) * go_2(1.0, 1.0);
result += mat4(-0.12166018, 0.024545137, 0.08611618, -0.17627168, 0.09042604, -0.14157623, -0.22147785, 0.09100581, 0.11078359, 0.031410985, -0.17170976, 0.09532806, -0.059569277, 0.09392676, 0.11784347, -0.21471368) * go_3(-1.0, -1.0);
result += mat4(0.1483187, -0.2217563, 0.12032977, 0.14932398, 0.27428308, -0.04568031, 0.12670338, 0.09586169, 0.06700745, 0.005126449, 0.0027694793, -0.033667028, 0.06447861, -0.08585174, -0.05509812, -0.11358761) * go_3(-1.0, 0.0);
result += mat4(-0.22750492, 0.032906335, -0.029479047, 0.11580199, -0.05812372, -0.032269973, 0.05219915, 0.041658226, 0.010897959, 0.065550454, 0.0076911976, -0.045743827, 0.11614996, -0.10393113, -0.0012606392, -0.034367524) * go_3(-1.0, 1.0);
result += mat4(0.09350742, 0.09561609, 0.3735968, 0.031685118, -0.042026598, 0.17006761, -0.3910107, 0.16984761, 0.25679177, 0.036610503, -0.13772772, 0.11101589, -0.1137049, 0.07211461, 0.18065079, -0.12324793) * go_3(0.0, -1.0);
result += mat4(-0.020749722, 0.14413361, -0.061903823, -0.21550268, 0.31306142, -0.11532895, 0.029482557, 0.03282164, -0.09800627, -0.20765196, 0.33030233, 0.075725295, 0.49252015, 0.042455837, -0.07264194, -0.10401895) * go_3(0.0, 0.0);
result += mat4(-0.22697076, -0.15738785, 0.09740376, -0.072098814, -0.06638972, 0.12336611, 0.0073687397, 0.048267826, 0.06717852, -0.027047804, -0.123397194, 0.17829034, 0.04215185, 0.066311836, -0.061742183, -0.046373066) * go_3(0.0, 1.0);
result += mat4(0.041311592, 0.2813485, 0.055084586, -0.01823069, 0.08105147, -0.087944716, -0.10135052, -0.02653456, 0.063169874, -0.1351186, 0.06722432, -0.016406318, 0.08666922, 0.0555909, 0.12086502, -0.17224412) * go_3(1.0, -1.0);
result += mat4(0.26026788, -0.18303715, 0.029279215, -0.12858874, 0.027197823, 0.0919464, 0.00849638, 0.10547888, -0.12952055, -0.14414985, 0.1903315, 0.05004528, -0.12657289, 0.038008716, -0.036606666, -0.054025438) * go_3(1.0, 0.0);
result += mat4(0.069167465, 0.2699947, -0.11137602, -0.05888806, -0.107324794, -0.07598601, 0.06042177, 0.0064530694, -0.039780665, -0.076666445, -0.00846108, -0.06165907, -0.06978219, -0.19108103, -0.040026028, -0.120319635) * go_3(1.0, 1.0);
result += vec4(-0.14375664, -0.0056876075, 0.052177623, 0.07152566);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!SAVE conv2d_5_tf
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.15667982, -0.31441393, 0.29112124, -0.15737213, 0.022372838, 0.10690639, -0.12019085, -0.051941186, -0.30367845, 0.02612279, 0.2372532, 0.2021648, -0.20481086, -0.003770439, 0.14981231, 0.066780254) * go_0(-1.0, -1.0);
result += mat4(0.03270688, -0.42270073, 0.044317324, 0.15907793, 0.14681059, -0.2934784, 0.24933252, -0.067273855, 0.07752533, -0.23194817, 0.0686707, 0.08999225, 0.121678345, -0.12916678, 0.012397381, 0.012315053) * go_0(-1.0, 0.0);
result += mat4(-0.10090412, -0.20792678, 0.11076032, -0.02938975, -0.1944187, -0.2003259, 0.04438032, 0.36946484, -0.019868722, -0.15830222, 0.042811528, 0.015641417, 0.113098525, 0.080257006, 0.011135628, -0.2877629) * go_0(-1.0, 1.0);
result += mat4(0.15482685, 0.06579119, 0.28301102, 0.23729764, 0.15990537, 0.4529694, 0.107880585, 0.10668121, -0.42430598, -0.2631025, 0.10513542, -0.036242936, -0.09827965, -0.0069260495, -0.11689201, -0.041436482) * go_0(0.0, -1.0);
result += mat4(0.08472191, -0.13051608, 0.047930017, 0.36831668, 0.1164478, 0.21384816, 0.22062506, 0.2094167, 0.48668453, 0.32302913, 0.36268055, -0.091801375, -0.079141125, -0.26613805, -0.16608004, 0.03810683) * go_0(0.0, 0.0);
result += mat4(-0.13474251, -0.04824603, 0.23303726, -0.116136365, 0.0056330245, 0.15829784, 0.0012259148, 0.12648389, 0.038680512, 0.05131116, 0.024099711, 0.4555406, 0.0035716395, 0.11633299, 0.094744846, -0.2457627) * go_0(0.0, 1.0);
result += mat4(-0.0576871, -0.04037522, 0.16857862, 0.0031084458, -0.027274646, -0.18154246, 0.13337846, 0.035422433, -0.0030749738, -0.17288287, 0.019983152, -0.31871706, -0.03280405, 0.06825421, -0.1563798, 0.05031885) * go_0(1.0, -1.0);
result += mat4(-0.066631876, 0.012560506, 0.1690693, -0.018248236, 0.0450104, 0.016296914, -0.14910112, -0.16191053, 0.5078224, -0.017615631, 0.15226597, -0.13373777, 0.20148668, 0.060258996, 0.13215344, 0.18430072) * go_0(1.0, 0.0);
result += mat4(0.12976126, -0.072738245, 0.053067926, 0.09752956, -0.04716214, 0.04136464, 0.014162617, -0.06621296, -0.09617736, 0.057469178, 0.01280261, -0.042976785, -0.12570308, 0.006027807, 0.031038594, 0.06569918) * go_0(1.0, 1.0);
result += mat4(-0.12655424, -0.41563693, -0.030971345, -0.06357555, -0.14121394, -0.15667427, 0.14398985, 0.05995984, 0.0821605, 0.12462943, 0.007492498, -0.0030187522, -0.22804567, -0.10487421, 0.13180672, -0.13978589) * go_1(-1.0, -1.0);
result += mat4(-0.075991526, 0.12352044, -0.17844258, 0.010614991, -0.18293494, 0.25009897, -0.080779895, 0.21548378, 0.22215544, 0.048670914, -0.057372037, 0.078176, 0.17490411, 0.004919551, 0.059619516, 0.12660357) * go_1(-1.0, 0.0);
result += mat4(-0.06282951, 0.10929357, 0.026720649, -0.15939257, 0.17107709, -0.04334904, -0.03047162, -0.101681694, 0.03118431, 0.19994627, 0.025729552, 0.035035726, -0.0012207883, -0.08618888, 0.061205562, 0.009940555) * go_1(-1.0, 1.0);
result += mat4(-0.23581573, 0.08002133, -0.15170844, 0.08872338, -0.25767094, -0.09273545, 0.18153891, 0.2544269, -0.084598936, -0.089766875, -0.14610913, 0.002247754, 0.1802837, -0.019625561, 0.30239686, -0.032793984) * go_1(0.0, -1.0);
result += mat4(0.5223286, 0.10347663, 0.4000593, 0.25440502, -0.07646958, -0.31940606, 0.053407036, -0.09356492, 0.2738851, 0.23945184, -0.2907089, -0.45822915, 0.13415676, 0.17187089, 0.08731114, -0.27670014) * go_1(0.0, 0.0);
result += mat4(0.059273496, -0.107137166, 0.12087539, 0.179237, -0.021209063, -0.02548005, 0.061256204, 0.033822674, 0.54491127, -0.2475085, 0.08055858, -0.4071213, -0.045093834, 0.07161349, 0.08219979, -0.31735933) * go_1(0.0, 1.0);
result += mat4(-0.29527053, 0.021469543, 0.07202354, -0.07103959, 0.03990857, 0.2490762, -0.19419849, -0.13916986, -0.05325315, 0.12922864, -0.041463424, -0.031249814, 0.073991664, -0.09723187, 0.35132217, 0.024760868) * go_1(1.0, -1.0);
result += mat4(0.09606787, -0.0951808, -0.0059865676, -0.052033573, -0.3118038, 0.4432636, -0.12943317, 0.09484738, 0.10621756, -0.10550469, 0.11264014, 0.1402276, -0.012679125, -0.08809835, 0.029994955, -0.15121669) * go_1(1.0, 0.0);
result += mat4(0.123397775, 0.048338536, -0.00975707, -0.103767075, -0.041053303, -0.07228534, 0.046792876, 0.0668788, 0.29554394, 0.012451002, 0.19568972, 0.112091154, 0.10882395, -0.0995439, 0.051324263, 0.24967718) * go_1(1.0, 1.0);
result += mat4(0.2699648, 0.17300771, -0.16056584, 0.1099392, 0.11674778, -0.19811755, 0.111880325, -0.06075038, -0.095849104, -0.04510651, -0.04180761, -0.0052786698, 0.11037549, -0.24115366, 0.018509468, -0.07819484) * go_2(-1.0, -1.0);
result += mat4(0.10981622, 0.044488225, 0.050722387, -0.3146652, -0.0013019707, -0.24084032, -0.10475088, 0.026944289, 0.1592903, 0.33087498, 0.061839584, -0.043863457, -0.06904603, -0.08635262, 0.088630445, -0.15485142) * go_2(-1.0, 0.0);
result += mat4(-0.06810522, 0.19927117, -0.08130387, 0.11612667, -0.015104349, -7.738651e-05, -0.06419643, -0.14813533, 0.026650215, 0.015038833, 0.08161237, 0.058321163, 0.015005185, -0.16189656, 0.024501886, 0.1927279) * go_2(-1.0, 1.0);
result += mat4(0.31858218, 0.11962043, -0.20560326, -0.13190113, 0.02138715, -0.057066392, -0.085771754, -0.124566585, 0.044749223, 0.13687828, 0.1195792, 0.14021616, 0.26204133, 0.05119197, -0.13980037, 0.050747477) * go_2(0.0, -1.0);
result += mat4(-0.21238558, -0.0734057, -0.2036023, -0.34308743, -0.29370925, 0.2393742, -0.37877437, 0.036869828, -0.17053255, -0.26900926, -0.23330869, 0.32902205, -0.4882585, 0.27430108, -0.033711653, 0.15501487) * go_2(0.0, 0.0);
result += mat4(0.23487025, 0.085289046, -0.14281847, 0.12543266, 0.15871634, -0.13858907, 0.14810285, -0.0239261, 0.1286852, 0.07754033, 0.01072327, -0.14313328, 0.05480442, -0.12195059, 0.11341822, 0.08224607) * go_2(0.0, 1.0);
result += mat4(0.19490337, 0.023521842, -0.24548791, 0.0035114093, -0.07937166, -0.07674376, 0.08365873, -0.003286068, 0.023862893, 0.009626835, 0.032829892, 0.0078141205, 0.053484406, -0.08297165, 0.09303188, 0.004273738) * go_2(1.0, -1.0);
result += mat4(-0.0032906602, 0.13636959, 0.027821168, 0.06270053, 0.024775786, -0.077529594, 0.03799126, 0.030000908, 0.031749167, 0.04360487, 0.004448846, -0.17835903, -0.30834544, 0.013150946, -0.13758293, -0.03296242) * go_2(1.0, 0.0);
result += mat4(-0.14166978, 0.034131095, 0.049779188, 0.09453289, -0.011406557, -0.07020709, -0.0031981543, -0.03443845, -0.00010218944, 0.0855161, -0.10951453, 0.042758763, 0.1718446, -0.1577923, 0.0410027, -0.04992991) * go_2(1.0, 1.0);
result += mat4(0.1219178, 0.105126485, -0.041097324, -0.08110963, -0.04857337, -0.11544925, -0.14572923, 0.092435546, 0.091857366, 0.15425235, -0.020324683, -0.05764375, -0.020458939, -0.10527823, -0.085554086, 0.16358297) * go_3(-1.0, -1.0);
result += mat4(-0.12372687, -0.009976829, 0.14252265, -0.1321053, -0.05965866, -0.1393898, -0.017603246, -0.02714342, -0.16824952, -0.23083204, -0.012299022, -0.06689838, -0.015830487, 0.21299921, -0.11637202, 0.0074968333) * go_3(-1.0, 0.0);
result += mat4(-0.01979935, -0.182785, -0.015397454, 0.14175794, -0.011465284, 0.11285164, -0.036115747, 0.07150463, -0.083641894, -0.10221778, -0.13871445, 0.099696055, 0.04603662, -0.06463785, -0.007984529, -0.0032940735) * go_3(-1.0, 1.0);
result += mat4(0.072830334, -0.057334073, 0.09086239, 0.13039105, 0.06350303, 0.17130788, -0.2181585, -0.09137403, -0.31397742, -0.019071499, -0.017274613, 0.13762084, 0.10195637, -0.021455176, 0.04011394, -0.08029658) * go_3(0.0, -1.0);
result += mat4(-0.26982597, -0.40265098, -0.4151411, 0.038557775, -0.095602125, 0.3503172, -0.029988842, -0.03484708, 0.095536314, -0.0030311556, 0.31589827, 0.52763534, -0.12629713, -0.24356791, 0.0059487303, 0.42298427) * go_3(0.0, 0.0);
result += mat4(0.054166105, 0.18827972, -0.081673265, -0.06720384, 0.09375001, 0.22173035, -0.14050071, 0.108400136, -0.15553835, -0.08716729, -0.037366748, 0.10971073, -0.02560103, -0.26702073, -0.05201882, 0.2432563) * go_3(0.0, 1.0);
result += mat4(0.16196893, 0.0889265, -0.09887943, -0.042956755, -0.054403376, -0.123823255, 0.045847844, 0.017027669, 0.00539936, -0.112265736, 0.050549984, -0.104931094, -0.06883012, -0.25745714, 0.11155538, -0.15363649) * go_3(1.0, -1.0);
result += mat4(-0.22157209, 0.18200903, -0.13290548, 0.026721261, -0.06066069, -0.18150693, 0.08768983, 0.037362453, -0.1073367, -0.070236765, -0.41223463, -0.168915, -0.15517351, -0.13949952, -0.13307643, -0.15935421) * go_3(1.0, 0.0);
result += mat4(-0.026589906, 0.0930502, 0.05195435, 0.06301585, -0.01107014, -0.019382332, 0.027223695, -0.004045145, -0.15238355, -0.0345132, 0.06355168, 0.0011230056, 0.16690113, 0.0017829507, -0.0023939044, -0.09471834) * go_3(1.0, 1.0);
result += vec4(0.024455175, 0.01669877, -0.066231176, 0.036848705);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!SAVE conv2d_5_tf1
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.01763509, -0.17156707, -0.06841296, -0.026132878, -0.10600523, 0.11245994, 0.121395074, -0.09331501, 0.12764473, 0.0428028, -0.11837395, 0.2092563, -0.04357652, -0.0490096, 0.024701532, 0.10518723) * go_0(-1.0, -1.0);
result += mat4(-0.17130826, -0.31987694, -0.07639005, 0.21362033, 0.058639023, 0.066175915, -0.25344703, -0.07923442, -0.14766373, 0.040518284, -0.031103026, -0.040075514, -0.051108997, -0.28214613, -0.18504949, 0.27544948) * go_0(-1.0, 0.0);
result += mat4(0.030991005, -0.011353306, 0.15237464, 0.15458584, 0.1250524, 0.19959912, 0.14049476, 0.38410887, 0.07378578, -0.017728366, 0.0963528, -0.043756213, -0.039577194, -0.11800575, -0.08392266, -0.07599512) * go_0(-1.0, 1.0);
result += mat4(0.022089608, -0.027317125, 0.051330008, -0.0075439885, 0.021650828, -0.0009390209, -0.12043464, 0.049332134, -0.055557396, -0.053297505, -0.0918705, -0.13089466, -0.10994107, 0.072746456, 0.11496739, -0.05225977) * go_0(0.0, -1.0);
result += mat4(0.29730305, 0.26317745, 0.052159555, -0.32006654, 0.48288685, -0.049926184, -0.08091092, -0.13825637, -0.1485706, -0.288657, -0.41443697, 0.06856032, -0.23809211, -0.12953928, 0.4783034, -0.47557938) * go_0(0.0, 0.0);
result += mat4(0.026139118, -0.23031352, 0.04861487, 0.033556074, 0.2702056, 0.22802536, -0.15385233, 0.1664119, 0.18749923, 0.36927548, -0.011473684, -0.11771165, -0.16859052, -0.4513202, 0.12863952, 0.02482837) * go_0(0.0, 1.0);
result += mat4(0.0073229345, -0.061915245, 0.06710329, 0.0062416573, -0.00555983, 0.14592186, 0.11201052, -0.123630054, 0.32611257, -0.11279885, -0.059449438, 0.2891043, -0.10519016, 0.040108994, -0.012468261, 0.02083298) * go_0(1.0, -1.0);
result += mat4(-0.057483062, 0.08454755, -0.15529329, -0.12572923, 0.2600099, -0.02319978, -0.04037675, 0.11496361, 0.07728194, -0.12908956, -0.025529336, 0.112581626, 0.02971823, 0.11659056, -0.01298622, 0.017061908) * go_0(1.0, 0.0);
result += mat4(0.22417091, -0.00222947, 0.04980858, 0.12260437, -0.025507605, 0.042577885, 0.120813504, -0.048522256, -0.038494784, -0.0072195013, -0.23012944, -0.020850847, -0.078296244, -0.014830018, 0.19759563, -0.10000253) * go_0(1.0, 1.0);
result += mat4(-0.032090195, 0.023757193, -0.08989734, 0.14419042, 0.0112194475, -0.093776144, -0.020197887, 0.29295877, 0.06872183, 0.09511462, -0.03245769, -0.06504889, 0.05132126, 0.00399527, 0.075911656, 0.250893) * go_1(-1.0, -1.0);
result += mat4(-0.3418496, 0.25525784, 0.0018161442, 0.028484365, -0.17573346, -0.12457501, 0.18466166, 0.20209278, 0.10282706, 0.16353399, 0.025052028, -0.059714165, -0.055806916, -0.28651386, 0.112798095, 0.11624314) * go_1(-1.0, 0.0);
result += mat4(-0.018793896, 0.07500149, -0.01728254, -0.1726998, -0.13333, 0.09590344, -0.036537904, -0.11522523, 0.19445558, 0.22680458, 0.12061006, -0.06225618, 0.1127748, 0.28380096, -0.07099846, -0.007440302) * go_1(-1.0, 1.0);
result += mat4(-0.43887648, -0.10018577, -0.29267642, 0.12149727, -0.14333835, 0.04161915, 0.19442867, 0.16506511, 0.09655387, -0.0014398015, 0.13189743, -0.14068556, 0.049408, 0.0829072, 0.2950336, 0.36965907) * go_1(0.0, -1.0);
result += mat4(0.41486958, -0.023498302, -0.37900022, -0.31752598, 0.13758768, -0.18782206, -0.31358528, 0.3330786, -0.4039293, -0.06539036, 0.032599606, 0.10663507, -0.26369813, -0.17365438, 0.20723309, 0.1801556) * go_1(0.0, 0.0);
result += mat4(0.004117444, -0.14894462, 0.14915143, -0.047375835, -0.2609916, -0.10172324, -0.14925237, -0.33830285, 0.12131607, -0.18156646, -0.42382464, -0.052582145, 0.2329045, -0.4576963, 0.13756892, 0.055571318) * go_1(0.0, 1.0);
result += mat4(-0.31689477, 0.017058033, -0.01904924, -0.016893756, -0.011479519, 0.07316262, -0.07086077, 0.08923511, -0.08190091, -0.025866933, -0.06909204, -0.028601022, 0.023224542, 0.03082087, 0.2230426, -0.16713654) * go_1(1.0, -1.0);
result += mat4(0.13457374, 0.110913865, -0.1130815, -0.031438913, -0.55201167, 0.04831016, 0.25107765, -0.014003224, 0.19532952, 0.02062346, 0.04839241, 0.088673405, 0.30325848, -0.20222804, -0.085780576, 0.22512968) * go_1(1.0, 0.0);
result += mat4(0.076354, 0.021940092, -0.16170324, 0.0025543426, -0.0032400405, -0.0046705627, 0.06241069, -0.031247333, 0.098353796, 0.03723474, 0.22971998, -0.017877292, 0.119858086, 0.008041448, 0.2140585, 0.10343376) * go_1(1.0, 1.0);
result += mat4(0.08627595, 0.04532834, 0.027579082, -0.16222088, 0.15583228, -0.14371829, -0.07243855, -0.111895435, -0.14438897, -0.10250594, 0.0034202964, -0.066547595, -0.034390844, -0.021545287, 0.014540157, -0.10215731) * go_2(-1.0, -1.0);
result += mat4(0.19720152, 0.21534947, 0.1130938, -0.011730973, 0.013247983, -0.10344174, -0.1906514, -0.015767017, -0.020093633, -0.26487067, -0.005960781, -0.057149183, 0.030110173, 0.047692046, -0.19308545, -0.25292158) * go_2(-1.0, 0.0);
result += mat4(0.039498243, 0.053682897, -0.01844695, -0.017540915, 0.039454967, -0.27696076, 0.09503274, -0.038958035, 0.17321438, -0.036311295, 0.03123055, 0.02310311, 0.040591653, 0.0054627894, -0.03520426, -0.026101988) * go_2(-1.0, 1.0);
result += mat4(0.055991564, 0.06512919, -0.12532505, 0.024075158, -0.04926237, -0.11701171, 0.026792146, 0.013033238, -0.052847516, -0.01550091, -0.008442071, -0.077945165, -0.033220004, -0.13678443, -0.07040586, 0.121846326) * go_2(0.0, -1.0);
result += mat4(-0.19537796, -0.016634773, 0.10707109, -0.024361614, -0.16002733, -0.44066608, 0.16488662, 0.013152995, 0.22407806, 0.12854017, 0.19028598, -0.08379244, -0.05594235, -0.15909895, 0.511962, 0.39027596) * go_2(0.0, 0.0);
result += mat4(-0.032652248, 0.06004893, 0.011166194, 0.102761306, -0.035113614, -0.29961765, -0.013817978, 0.20938557, 0.08488225, -0.1118558, -0.0375328, -0.035511103, 0.0046933405, 0.20203683, -0.13552529, -0.12685429) * go_2(0.0, 1.0);
result += mat4(0.03054923, 0.08224908, -0.059128158, -0.02583655, -0.02133876, 0.0048713544, 0.10848829, 0.06324404, 0.028332822, -0.011002306, -0.027557913, -0.06072362, 0.1019048, -0.02587316, 0.08563405, -0.08119947) * go_2(1.0, -1.0);
result += mat4(-0.10568117, 0.1075248, 0.19379964, -0.14337265, 0.019374132, -0.0907804, -0.13827625, -0.03628561, 0.014735499, -0.026882607, -0.25948793, 0.034926686, -0.05988073, -0.22735636, 0.053511668, 0.04765336) * go_2(1.0, 0.0);
result += mat4(-0.029848114, 0.09183966, 0.084713496, 0.09422864, 0.069713995, -0.10584984, -0.020899031, 0.059645247, -0.075805016, -0.01828552, 0.06689195, -0.13804196, -0.023465823, -0.034038994, -0.12946706, 0.058709413) * go_2(1.0, 1.0);
result += mat4(0.061918218, 0.038984764, 0.013660938, -0.19340219, -0.014949839, 0.12946278, 0.12725051, 0.13429146, 0.05993008, -0.015394284, 0.011232483, 0.0344157, 0.022161875, -0.023923954, 0.061736204, 0.025963215) * go_3(-1.0, -1.0);
result += mat4(0.048136763, 0.03162042, -0.01967249, 0.06374493, 0.034645267, 0.22403605, 0.036197048, -0.06903216, -0.1024706, -0.0005459356, 0.049185563, 0.16309108, 0.07394778, 0.10351343, 0.28430694, -0.13531347) * go_3(-1.0, 0.0);
result += mat4(-0.14705071, -0.09458433, 0.03063114, 0.07901115, -0.11911086, -0.06428132, -0.013549552, -0.041342866, -0.20770676, -0.15104479, 0.054365363, -0.11652907, 0.05639815, 0.070518605, 0.0017846811, -0.00056205114) * go_3(-1.0, 1.0);
result += mat4(0.27148908, 0.07358356, 0.13644488, -0.13824654, 0.0112991175, -0.021521023, -0.10197379, 0.007816017, -0.13314332, 0.12318473, -0.043214846, -0.15759036, -0.19744353, -0.10267182, -0.28249928, 0.11233295) * go_3(0.0, -1.0);
result += mat4(-0.096474804, 0.17893109, 0.014679829, -0.21218887, -0.24170275, 0.10603527, 0.05375366, -0.059315052, 0.17087384, 0.13633691, -0.37958893, 0.43264794, 0.17829923, 0.06485103, -0.37551817, -0.22082718) * go_3(0.0, 0.0);
result += mat4(-0.30536333, -0.033212308, -0.25232, 0.11730442, -0.11176368, 0.26223183, -0.049025323, -0.01375941, -0.29028055, 0.16842811, -0.035684332, -0.4180911, -0.1611732, 0.07683385, -0.14263596, 0.17508087) * go_3(0.0, 1.0);
result += mat4(0.23580009, 0.025621435, -0.15757325, 0.008123166, -0.021905439, -0.02162503, -0.059497356, -0.01636353, 0.047654126, -0.084423855, -0.033733923, 0.0127116265, -0.059593942, -0.053935718, -0.050729543, 0.013887048) * go_3(1.0, -1.0);
result += mat4(-0.19232626, 0.07915767, -0.05909752, 0.007695347, 0.058876406, 0.057521783, -0.080253534, 0.2011056, -0.27965516, -0.08033169, -0.13025513, 0.12854645, 0.053400308, -0.18445957, -0.18463044, 0.27920377) * go_3(1.0, 0.0);
result += mat4(-0.061806213, -0.020037206, 0.003183183, -0.029844081, -0.039553937, 0.028905323, -0.11367984, -0.097321615, -0.10112643, 0.0039709485, -0.06020118, -0.23871279, -0.077974856, 0.05806996, -0.21440302, 0.11898043) * go_3(1.0, 1.0);
result += vec4(-0.023832673, 0.03702965, -0.04749135, -0.10982549);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!SAVE conv2d_6_tf
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.030931145, 0.013683292, -0.0650242, -0.028732346, 0.120067924, -0.029404473, 0.0038229884, -0.14631765, 0.041900825, -0.076596744, -0.11096378, -0.27100095, 0.0052598766, -0.05929686, -0.06816563, -0.086864315) * go_0(-1.0, -1.0);
result += mat4(-0.043620087, -0.16360405, 0.006527374, 0.15706524, 0.08338088, -0.19027525, 0.22595987, -0.054963548, 0.01825031, -0.03149212, 0.025471251, 0.06429379, -0.011633275, -0.079389006, -0.0030728737, 0.17345747) * go_0(-1.0, 0.0);
result += mat4(-0.011275288, -0.10668036, 0.05718997, 0.010336089, 0.33393976, -0.2029354, 0.075444475, -0.092244044, 0.07605498, 0.20125951, 0.10493973, -0.12306946, 0.03658231, 0.08233366, -0.12205888, -0.116969004) * go_0(-1.0, 1.0);
result += mat4(-0.0070305974, 0.105127215, 0.006041873, 0.26743913, 0.028119443, 0.14823505, -0.28344348, 0.12362866, -0.1215781, 0.08104382, 0.102011785, 0.085380934, 0.061244503, -0.06230063, -0.05353345, 0.1166729) * go_0(0.0, -1.0);
result += mat4(0.08945733, 0.4101902, -0.06404005, 0.040728435, 0.13076581, -0.20805469, -0.10897316, -0.14924604, 0.10090762, 0.015475414, 0.26346552, 0.12096677, -0.20199244, 0.2780031, 0.18515368, 0.35105625) * go_0(0.0, 0.0);
result += mat4(0.07463155, 0.26932517, -0.06768551, 0.10470878, -0.1423996, 0.013550665, -0.06167201, -0.1022994, -0.3107166, -0.15609552, 0.1695213, -0.1277181, 0.12582655, -0.1596128, 0.015612055, -0.19826376) * go_0(0.0, 1.0);
result += mat4(0.011745468, 0.006471601, 0.008110513, 0.025831396, 0.1272883, -0.221959, 0.11993834, -0.007903633, 0.009993582, -0.10170755, 0.026594637, -0.027883623, 0.030666083, -0.036415886, 0.007469573, 0.0674783) * go_0(1.0, -1.0);
result += mat4(-0.022760388, -0.10911659, -0.012589904, -0.046462692, 0.36987287, 0.71668935, -0.04466556, 0.12082762, 0.0026539841, 0.07070946, -0.00020439121, -0.13925348, 0.08672072, 0.20075354, -0.066352285, 0.14655356) * go_0(1.0, 0.0);
result += mat4(-0.081081845, -0.21956222, 0.06781787, -0.106362104, -0.03016425, -0.010460211, -0.009725996, -0.009805538, 0.07037355, 0.19254607, 0.038890257, 0.29580075, -0.10355764, 0.12613009, 0.02485986, -0.031927988) * go_0(1.0, 1.0);
result += mat4(-0.13882205, 0.21770848, 0.015392157, 0.010310204, 0.008225721, 0.07457836, 0.09984027, -0.25452816, 0.2193511, -0.22262146, -0.12950355, 0.026151875, 0.022114651, -0.030566849, 0.034688126, 0.03047327) * go_1(-1.0, -1.0);
result += mat4(0.0363441, 0.19290726, -0.1143055, 0.30871987, -0.05780708, 0.082128406, -0.115280904, 0.07636388, 0.48947453, -0.29715258, 0.146737, -0.3275992, -0.055972476, -0.09991753, 0.17435446, 0.10917291) * go_1(-1.0, 0.0);
result += mat4(0.026389305, 0.054523308, -0.028950177, 0.06913328, -0.18626037, 0.08829993, 0.10407121, 0.001246911, 0.103938825, -0.3117343, -0.045564886, 0.07316613, 0.0027089121, 0.099437356, -0.046500806, -0.0927284) * go_1(-1.0, 1.0);
result += mat4(0.051037624, -0.2068234, 0.061572235, -0.3345198, 0.16960172, -0.30289862, -0.002583443, 0.39312238, 0.08246557, 0.16374862, -0.31902805, -0.13205275, -0.032050006, 0.01670186, 0.13852347, 0.120012194) * go_1(0.0, -1.0);
result += mat4(-0.67096996, -0.06274476, 0.18575665, 0.80282855, 0.23201196, -0.0054729837, 0.050396994, -0.42014772, 0.34904522, 0.26281372, 0.24697208, 0.55475426, 0.49850988, -0.06581312, -0.0068906257, -0.15741143) * go_1(0.0, 0.0);
result += mat4(-0.04252036, -0.28224963, 0.009723064, 0.116357096, 0.2992567, -0.26702902, -0.05648925, 0.12729199, -0.37574205, 0.54211813, -0.25248805, -0.13023548, 0.18903324, -0.5182459, 0.0141203115, -0.19444294) * go_1(0.0, 1.0);
result += mat4(-0.0017735233, -0.010132458, -0.040924776, -0.13767008, 0.20757031, -0.06509882, -0.09756446, 0.018974079, 0.090851985, -0.010158765, -0.03999607, -0.12055641, 0.03629025, -0.018645551, -0.05506811, -0.014202848) * go_1(1.0, -1.0);
result += mat4(0.16203491, 0.011118734, -0.18486023, -0.024290733, -0.3673846, -0.20295864, 0.23055002, -0.1555852, -0.02706522, 0.03262891, 0.008724611, -0.03760652, -0.20946771, -0.01951837, 0.16955496, 0.11690098) * go_1(1.0, 0.0);
result += mat4(0.0783421, 0.22656651, -0.15715368, -0.024174158, 0.020260733, 0.032390315, -0.029133298, 0.086601086, 0.13871798, -0.12525433, 0.16097449, 0.058946393, 0.029865682, 0.08508385, 0.040569812, -0.09402932) * go_1(1.0, 1.0);
result += mat4(-0.05063873, 0.11269313, -0.057484943, -0.13579641, 0.047973365, -0.07103839, -0.07838756, -0.0028928046, -0.019466015, 0.018428024, 0.010016324, -0.057396665, -0.19495595, 0.034307264, -0.022888038, 0.08112259) * go_2(-1.0, -1.0);
result += mat4(-0.09790086, 0.10613111, 0.06611674, 0.19356097, -0.00073371036, -0.019078335, 0.076719105, -0.016212497, -0.3283475, -0.07547389, -0.08140701, 0.3185625, -0.25060275, 0.16820994, -0.123497784, 0.43272668) * go_2(-1.0, 0.0);
result += mat4(-0.06365342, 0.11186735, -0.17493224, -0.04207358, 0.0003117533, 0.034089327, -3.067692e-05, -0.03422754, 0.16267666, 0.054771993, 0.048384454, -0.041866794, 0.0036008756, 0.0021496525, 0.20258942, -0.06297619) * go_2(-1.0, 1.0);
result += mat4(0.03578836, 0.08763908, -0.22370125, -0.32465744, 0.019142643, 0.011316954, 0.17920344, 0.031633645, 0.03766343, -0.116487674, -0.05281752, -0.018965483, 0.049297336, -0.34511214, 0.42598158, 0.051361635) * go_2(0.0, -1.0);
result += mat4(0.26638633, -0.33628765, 0.04437907, 0.09616201, -0.020049393, 0.2560829, -0.027108455, 0.255752, 0.3666511, 0.052277412, -0.46667686, 0.48482272, 0.51302284, -0.06941614, -0.17967525, -0.07889891) * go_2(0.0, 0.0);
result += mat4(0.18503937, 0.088710256, 0.2083147, -0.20758459, -0.036416974, 0.018303726, 0.03729963, -0.035969947, -0.2685231, -0.42169708, -0.039593916, -0.02642618, 0.29050872, -0.25723743, -0.111259766, 0.15001127) * go_2(0.0, 1.0);
result += mat4(-0.026473878, -0.07241443, 0.022400148, -0.03214132, 0.0859297, -0.0036677981, -0.07039137, 0.03703108, 0.042322673, -0.01222808, -0.08151938, 0.033109214, -0.048737407, 0.25929528, -0.40535828, -0.123594694) * go_2(1.0, -1.0);
result += mat4(0.10233285, 0.22455986, -0.13368733, 0.033236265, -0.052114893, -0.11709317, 0.009709581, 0.19201641, -0.02973698, 0.032114245, -0.09771862, 0.085680574, 0.15827927, -0.15042172, 0.21833214, -0.13262676) * go_2(1.0, 0.0);
result += mat4(-0.08460587, -0.09473209, 0.019323658, -0.057233352, 0.0019434267, -0.14437936, 0.034232683, 0.0030602294, -0.023598112, 0.10692026, -0.09960999, 0.005887181, 0.014738836, -0.32473162, -0.10886747, -0.08365826) * go_2(1.0, 1.0);
result += mat4(0.10900178, 0.00080280803, -0.14009437, -0.053074867, -0.07811151, -0.03456029, -0.104943685, 0.016918905, -0.11335709, 0.079421654, 0.13481963, 0.037818357, -0.027339859, 0.05856774, -0.044562265, 0.03908084) * go_3(-1.0, -1.0);
result += mat4(0.07628258, -0.23815769, 0.2840278, -0.3541637, -0.044292126, -0.09310441, -0.1335055, -0.031899665, -0.11981227, 0.24012394, -0.041896038, -0.10168982, 0.20248915, -0.10036763, -0.044115108, 0.08520525) * go_3(-1.0, 0.0);
result += mat4(0.07234102, -0.119480744, -0.01401321, -0.025182616, -0.031284854, -0.050089385, 0.014808948, 0.038662236, -0.18539418, 0.017342187, 0.023812262, 0.13428104, 0.020824855, -0.07433546, 0.054307282, 0.08511016) * go_3(-1.0, 1.0);
result += mat4(-0.11046813, -0.04663274, 0.33497185, 0.023273284, -0.24681108, 0.116665915, 0.12045893, 0.13306482, -0.039098527, 0.04747061, 0.042796664, 0.053514794, 0.011861975, -0.048702, 0.008408589, -0.09497112) * go_3(0.0, -1.0);
result += mat4(0.34634927, 0.37973458, -0.79267627, -0.7362719, 0.35489878, -0.07635863, 0.24082923, -0.27480397, -0.3236968, -0.25523046, 0.05118527, -0.040529836, -0.6000509, 0.39020586, 0.27632973, 0.5141453) * go_3(0.0, 0.0);
result += mat4(0.16761221, -0.033125393, 0.00561569, 0.083019435, -0.101278506, 0.07810264, 0.12060661, 0.16048536, 0.14257826, -0.15996903, 0.018831912, -0.094429865, -0.22227801, 0.426937, -0.054677445, 0.05067348) * go_3(0.0, 1.0);
result += mat4(0.02233958, 0.02608942, -0.045318656, 0.06509929, 0.035911568, 0.025316885, 0.0840986, 0.08326237, 0.048455603, -0.13630742, 0.07230253, -0.047261715, -0.092630014, 0.04786565, 0.10354939, -0.07094341) * go_3(1.0, -1.0);
result += mat4(-0.1463382, -0.14900577, 0.2835977, -0.106733374, -0.11554754, -0.168429, -0.1411373, -0.20654152, -0.06388508, 0.039648015, 0.08543832, -0.13253337, 0.017264463, -0.06346233, -0.10823598, 0.067361064) * go_3(1.0, 0.0);
result += mat4(0.04419582, 0.039152585, 0.06222691, 0.05757103, 0.012084537, 0.051425997, -0.061130576, 0.16752882, 0.07497411, 0.13495837, -0.15585983, -0.02050144, -0.08555421, -0.09147339, 0.025115604, 0.05948922) * go_3(1.0, 1.0);
result += vec4(0.00590038, 0.03082865, 0.002111702, -0.03330112);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!SAVE conv2d_6_tf1
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.009029573, 0.029218858, 0.029705316, -0.019268971, -0.0023235187, -0.072589695, 0.1424836, 0.09049359, 0.04342995, 0.18134294, 0.018145641, 0.14789368, 0.050923645, 0.06524081, 0.036812488, 0.11108108) * go_0(-1.0, -1.0);
result += mat4(-0.026506428, 0.016968496, 0.015961196, 0.010030791, -0.3141888, -0.06769598, -0.23920257, -0.031002127, -0.07351358, -0.19290134, -0.24282931, -0.18831016, -0.0928966, 0.075177215, -0.19699521, -0.05810917) * go_0(-1.0, 0.0);
result += mat4(-0.017991852, -0.079427645, 0.035970494, -0.017095685, -0.27197137, -0.20046075, 0.2616644, 0.021876303, -0.077394076, -0.04978692, 0.20363241, -0.013741705, -0.032103598, 0.14403099, 0.01442474, 0.048115995) * go_0(-1.0, 1.0);
result += mat4(-0.16939245, -0.001777, 0.026244136, -0.14122388, -0.056853324, 0.54357284, -0.19769607, -0.03187079, 0.04559263, -0.16048127, 0.12830622, 0.1442168, 0.006611398, -0.01618195, 0.012860053, -0.16539487) * go_0(0.0, -1.0);
result += mat4(0.13116026, -0.006161343, 0.7209969, 0.18338475, 0.3099777, 0.6500026, 0.3883795, -0.021434233, 0.31667513, 0.008917659, 0.14124091, -0.22335114, 0.12198921, -0.16449445, 0.08773425, 0.30054978) * go_0(0.0, 0.0);
result += mat4(-0.10413989, -0.10316161, 0.04342709, -0.021252686, 0.120892406, 0.37798002, -0.35963747, 0.021069285, 0.37587845, -0.08159587, 0.011139747, 0.2501104, -0.094568014, 0.037900843, -0.025109999, -0.030106556) * go_0(0.0, 1.0);
result += mat4(0.09680291, -0.040868275, 0.051731605, 0.089064725, -0.56098557, -0.38148618, -0.017037416, 0.08508287, -0.019247344, 0.019857002, -0.03512887, 0.031057188, -0.09648583, -0.04474188, 0.028748507, -0.11880965) * go_0(1.0, -1.0);
result += mat4(-0.010236943, 0.04257042, -0.08202597, -0.004203426, -0.26801527, -0.11716526, -0.017402772, -0.05819106, -0.13394608, 0.0234606, -0.15404865, -0.06801164, -0.0047627664, -0.1975249, 0.09420144, 0.23249897) * go_0(1.0, 0.0);
result += mat4(0.107361935, 0.07373787, 0.06242962, 0.05236332, -0.028867323, 0.025924044, -0.042526353, -0.0015729597, -0.1323144, -0.4040712, 0.023919407, -0.09535502, 0.049100045, 0.081110805, 0.08946112, 0.058505684) * go_0(1.0, 1.0);
result += mat4(0.13236825, -0.04468476, -0.04426802, 0.031087106, -0.09093992, -0.07470971, -0.01591504, 0.05924266, -0.21910913, 0.065537, -0.18358919, -0.02533145, -0.1512009, -0.04953928, 0.015540006, -0.0043442883) * go_1(-1.0, -1.0);
result += mat4(-0.14016777, -0.1086958, 0.16316028, 0.050777458, 0.23148167, 0.04944809, -0.10599886, -0.10447021, -0.40729257, -0.10926556, 0.069055155, 0.110635415, 0.108922414, -0.1716362, 0.10743909, -0.102534756) * go_1(-1.0, 0.0);
result += mat4(0.017795928, -0.066930935, 0.09396082, 0.092585504, 0.14223933, 0.059458215, 0.072033696, -0.04507726, -0.19956456, 0.1251282, -0.31733638, -0.10465904, 0.08546377, 0.048638333, 0.031372465, -0.08720661) * go_1(-1.0, 1.0);
result += mat4(0.108719654, -0.092161916, -0.014724377, 0.20068261, -0.24350016, 0.2113636, -0.07483714, -0.45665312, -0.25134233, 0.2753893, -0.11324696, -0.04472, 0.1576102, -0.045395147, 0.06013951, -0.12507361) * go_1(0.0, -1.0);
result += mat4(0.546225, -0.281897, 0.19477816, -0.116612464, -0.3145171, -0.41660902, 0.333625, 0.35902345, 0.48333502, 0.4662005, 0.10222491, -0.15314859, -0.3036888, 0.22849742, 0.20740797, 0.41399437) * go_1(0.0, 0.0);
result += mat4(0.007284074, 0.0393942, -0.31192186, -0.15687793, -0.289214, -0.015956698, -0.24718472, -0.1637855, -0.00765037, 0.26677555, 0.20215511, 0.37790874, -0.22096673, 0.25287116, -0.2446764, -0.13610223) * go_1(0.0, 1.0);
result += mat4(-0.16734968, 0.16721225, -0.053508647, -0.041097626, 0.062356673, 0.07812319, -0.263546, -0.39739034, 0.003389846, 0.12676363, -0.13175991, -0.19019242, -0.011847587, -0.007580052, -0.023946386, 0.046034034) * go_1(1.0, -1.0);
result += mat4(-0.17047611, 0.13298693, -0.07506747, -0.045542978, 0.33571973, 0.20192616, 0.30674616, 0.25668672, -0.24134545, 0.031693842, -0.009647641, 0.040534843, 0.03159419, -0.1100516, 0.11371316, 0.06098735) * go_1(1.0, 0.0);
result += mat4(-0.05518961, 0.19402988, -0.09646874, -0.059196774, -0.0073436056, -0.1381309, 0.06868669, 0.061328378, -0.1480867, -0.15774113, -0.022572191, 0.122521356, -0.04067007, -0.10145177, 0.13006335, -0.099452734) * go_1(1.0, 1.0);
result += mat4(0.06962972, 0.07768411, 0.021085173, 0.108355984, -0.03132525, 0.10220273, -0.11626593, -0.14104277, 0.018778645, -0.024237925, 0.048783034, 0.09074447, 0.4120426, -0.01948466, 0.073218934, 0.055681944) * go_2(-1.0, -1.0);
result += mat4(-0.22553118, -0.12923603, -0.22068842, -0.35037905, 0.005709937, -0.09528472, 0.08718399, 0.13200706, 0.17220478, 0.096844435, -0.30439013, -0.14122063, 0.15733318, -0.1014675, 0.33836862, 0.042193163) * go_2(-1.0, 0.0);
result += mat4(0.15826897, -0.034870047, 0.09295099, -0.17674965, -0.042326324, 0.06680338, -0.074267656, -0.0631393, -0.11267909, -0.19795708, 0.22005288, 0.35703793, 0.033995766, -0.12663686, -0.02449896, -0.123250045) * go_2(-1.0, 1.0);
result += mat4(0.021434195, 0.058398597, 0.04828315, -0.0016824572, -0.04291545, -0.0744907, -0.07698706, -0.15937585, -0.18852457, -0.17966963, 0.023800725, 0.025979731, -0.51412296, -0.018316887, -0.23076254, -0.12298674) * go_2(0.0, -1.0);
result += mat4(0.16054317, -0.0002730893, -0.54173076, -0.62443435, 0.04300197, -0.08529622, 0.15392275, 0.15742144, 0.025834514, -0.2800517, -0.17600477, 0.0020806703, -0.3010582, 0.45233512, 0.25595665, 0.103661336) * go_2(0.0, 0.0);
result += mat4(-0.024034392, -0.43800178, 0.28606912, -0.20908915, 0.078471914, -0.030501373, -0.059055753, 0.050494444, 0.063274644, -0.025071034, 0.17561312, -0.100698635, -0.25631955, 0.039981876, -0.18506624, 0.08366402) * go_2(0.0, 1.0);
result += mat4(-0.1413656, 0.03589635, -0.020917566, 0.017598262, 0.020156413, -0.018854238, 0.027228508, -0.03806087, -0.021715842, 0.071974196, -0.040065665, 0.08459291, -0.23530225, 0.16599682, -0.2772327, 0.10041177) * go_2(1.0, -1.0);
result += mat4(-0.055056706, 0.1286236, -0.11890451, -0.1790546, 0.16517544, -0.040448934, 0.12548013, 0.017075695, 0.07185459, -0.13236302, 0.19354409, 0.12767012, 0.31120765, 0.16378082, -0.036915366, -0.19724306) * go_2(1.0, 0.0);
result += mat4(-0.02225051, 0.033263147, 0.003279449, 0.08826271, -0.047833472, 6.574577e-05, 0.13721916, 0.04801998, -0.014958419, 0.08791209, -0.08076282, 0.024002168, -0.18028922, 0.23835851, -0.23309888, -0.119310364) * go_2(1.0, 1.0);
result += mat4(0.044960875, 0.18821983, 0.027640678, 0.013462449, 0.19011214, 0.21559924, -0.03329638, 0.07234414, 0.030880248, -0.11273214, 0.102028474, 0.12203351, 0.035855662, 0.008828778, 0.007218363, -0.012421797) * go_3(-1.0, -1.0);
result += mat4(-0.09450626, 0.025191775, -0.10738468, 0.16237053, 0.073676676, 0.12488881, -0.048748355, 0.007877263, 0.3572506, -0.07911043, 0.14684045, 0.0015310893, -0.33411503, -0.1151223, 0.004201752, 0.017775744) * go_3(-1.0, 0.0);
result += mat4(-0.10607509, -0.008143826, -0.08448629, -0.27557802, 0.0046665915, 0.008158659, 0.030826218, 0.020516023, 0.2333065, -0.017463414, -0.041772116, -0.03027809, -0.028166672, -0.080471426, 0.048199337, 0.08341059) * go_3(-1.0, 1.0);
result += mat4(-0.14640257, -0.18334304, -0.061674733, 0.0008892598, -0.2374775, -0.2721524, -0.040371176, 0.26362613, 0.19872928, -0.11246391, 0.0842288, 0.11188515, 0.0045209546, -0.04250933, -0.0738212, -0.069005966) * go_3(0.0, -1.0);
result += mat4(-0.08760266, 0.4816288, -0.21241407, 0.22734411, -0.1783721, -0.26842996, 0.099888, -0.2867675, 0.085521065, -0.3780281, -0.018543908, -0.039699722, 0.75688565, -0.5333645, 0.47567275, 0.09518891) * go_3(0.0, 0.0);
result += mat4(-0.04072665, 0.05998423, -0.48314768, -0.29495844, 0.10358383, -0.09816629, 0.028586809, -0.047708735, 0.008320228, 0.04089551, -0.18359782, -0.27615002, 0.12414414, -0.072417594, 0.25932562, 0.30268723) * go_3(0.0, 1.0);
result += mat4(0.14481631, 0.06484443, -0.09898657, -0.06553556, 0.25750044, -0.07265585, 0.12903488, -0.022347894, -0.04693863, -0.000107379274, 0.030295763, -0.0325354, 0.086214684, -0.021326948, 0.039682828, -0.034843277) * go_3(1.0, -1.0);
result += mat4(-0.031971477, -0.25145087, 0.03931631, 0.14262606, -0.06044626, 0.22820354, -0.10506207, 0.18064679, 0.0069641788, 0.01477993, -0.003626875, 0.118767865, 0.109416224, -0.002998205, 0.035680585, 0.07843882) * go_3(1.0, 0.0);
result += mat4(0.03375426, -0.059815384, 0.11632834, -0.12411481, 0.022583738, 0.02544465, -0.054889992, -0.07031964, -0.10140042, 0.16750422, -0.1448294, -0.09316004, 0.035582513, -0.026138382, -0.031955894, 0.040148776) * go_3(1.0, 1.0);
result += vec4(-0.03573331, 0.032919675, 0.011109369, 0.008329268);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x1x1x112
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_last_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max((conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_2 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_4 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_5 (max((conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_6 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_8 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_9 (max((conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_10 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_12 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_13 (max((conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_14 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_15 (max(-(conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_16 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_17 (max((conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_18 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_19 (max(-(conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_20 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_21 (max((conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_22 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_23 (max(-(conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_24 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_25 (max((conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_26 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_27 (max(-(conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(-0.11498094, -0.053904895, -0.11520678, -0.05479549, 0.028396055, 0.032767884, 0.052479446, 0.05257866, -0.25706592, -0.3454966, -0.24713765, -0.2854201, -0.10287636, 0.0023146886, -0.09190338, -0.011193905) * g_0;
result += mat4(-0.05461422, 0.008780496, -0.07738697, -0.032230727, -0.047554165, -0.025061952, -0.051897213, -0.009545297, -0.14548294, -0.15184018, -0.01313442, -0.015299784, -0.0007883845, -0.12866738, -0.15260352, -0.27081275) * g_1;
result += mat4(0.11007706, 0.035344437, 0.11020841, 0.0425353, 0.1613199, 0.18417408, 0.09274313, 0.11943135, 0.106862, 0.079875536, 0.0937752, 0.068030775, 0.029093558, -0.06441164, 0.06467169, -0.021989612) * g_2;
result += mat4(0.049548414, -0.012455486, 0.07185561, 0.021865537, 0.020969186, -0.03374196, -0.024260623, -0.07739141, 0.07164591, 0.12741035, 0.0379913, 0.076403245, 0.07049977, 0.0744538, 0.0062989634, 0.01818882) * g_3;
result += mat4(-0.12511204, -0.010836819, 0.13709816, 0.22472954, 0.21280868, -0.006484726, 0.17554289, -0.009977173, 0.078398876, 0.20698707, 0.13432744, 0.29740283, -0.24750128, -0.32757792, -0.19807857, -0.2537023) * g_4;
result += mat4(-0.27207088, -0.1385644, -0.2166476, -0.07687419, -0.20300622, -0.29678395, -0.13135734, -0.20851587, 0.0361364, 0.011243289, -0.06845459, -0.11796941, 0.11575868, 0.070215136, -0.10295678, -0.12281369) * g_5;
result += mat4(0.13619795, -0.0019436983, -0.12701888, -0.25933513, -0.20134166, 0.00062823144, -0.076756015, 0.11002947, 0.0059049693, -0.18756741, -0.0718802, -0.2589954, 0.23413423, 0.30107784, 0.14445266, 0.18920745) * g_6;
result += mat4(0.1494216, 0.0587532, 0.05478662, -0.039123338, 0.23322394, 0.29950607, 0.24384268, 0.27843767, -0.16094431, -0.04705998, -0.016345032, 0.028868208, -0.102872886, -0.04659664, 0.104105346, 0.14305067) * g_7;
result += mat4(-0.001037014, 0.010001526, -0.0052278573, 0.024779709, 0.06857274, 0.067640975, 0.085439384, 0.09242789, -0.066597246, -0.055928994, 0.0015658981, 0.016131008, -0.03524695, -0.018364554, -0.047754433, -0.014295886) * g_8;
result += mat4(-0.042207, 0.02835915, -0.1404656, -0.08563323, -0.030979915, -0.0673764, 0.10733943, 0.057902794, 0.00022424995, -0.0023634837, -0.10778953, -0.10202357, -0.020368295, -0.019088887, -0.06875738, -0.08504131) * g_9;
result += mat4(-0.00043458896, 0.00045652856, -0.02016843, -0.020062413, -0.08740103, -0.042085808, -0.10644177, -0.09226477, 0.11212161, -0.00048174805, 0.021872435, -0.05868698, 0.0333954, 0.058184672, 0.05532576, 0.07621587) * g_10;
result += mat4(0.054245148, 0.001020329, 0.09106849, 0.05303779, 0.009889632, 0.01309413, -0.09187347, -0.08618193, -0.011621187, 0.016222361, 0.061095525, 0.060885344, 0.078050986, 0.0111776795, 0.08829944, 0.032022282) * g_11;
result += mat4(0.01643529, 0.02285545, -0.03498564, 0.00769657, -0.0042474116, 0.015836312, -0.025771018, -0.0016368, -0.008897948, -0.012588166, -0.01416411, -0.003578984, 0.025991246, 0.021237152, 0.017450012, 0.025172485) * g_12;
result += mat4(0.014568868, 0.017796224, -0.036679734, -0.03138748, 0.019457601, -0.027607411, -0.004529679, -0.038048342, -0.054055385, -0.03876025, 0.041948095, 0.005869784, 0.02439633, 0.05177997, 0.016000897, 0.0057169925) * g_13;
result += mat4(-0.03021866, 0.017678728, -0.01371109, 0.013548159, -0.0038099394, -0.014066414, 0.028093752, 0.0027308422, -0.010615999, 0.012673458, -0.03028171, -0.016818244, -0.06530097, -0.018845048, -0.0072947564, -0.0038243714) * g_14;
result += mat4(-0.019006258, -0.007847591, 0.03690709, 0.06714211, 0.0073993434, -0.009766907, -0.0021441753, -0.01308625, 0.06658726, 0.06701995, -0.027305668, -0.016032105, -0.028976806, -0.0036668575, -0.0027825525, 0.0105632655) * g_15;
result += mat4(0.028945107, -0.0014701135, 0.048950657, -0.01923516, -0.0014054152, 0.002650635, -0.005300331, 0.004860559, 0.011158468, 0.005940625, -0.012095051, 0.0041518128, -0.020433836, -0.025870577, -0.0007547932, -0.026509356) * g_16;
result += mat4(-0.004545374, 0.04264545, 0.021741537, 0.029115127, 0.04225599, -0.0055392785, 0.026570829, -0.031795148, -0.008307126, 0.020176455, 0.010904648, 0.017765503, -0.10806103, -0.01776947, 0.00070428237, -0.06356262) * g_17;
result += mat4(-0.05663172, 0.05908046, -0.03837452, 0.06636983, -0.007960516, -0.06384041, 0.023125881, -0.030108837, 0.0038054318, -0.023263922, 0.020264054, -0.0062937695, 0.031630237, 0.020909082, 0.03594235, 0.035879835) * g_18;
result += mat4(-0.0050448794, 0.033650696, -0.002830413, 0.035174295, -0.024521282, 0.013054315, -0.020833842, 0.037953895, 0.08249671, 0.024239466, -0.012758333, -0.027316988, 0.051040914, 0.0005025873, 0.039778862, 0.0024668393) * g_19;
result += mat4(0.017232442, 0.022482058, 0.020233413, 0.024337437, 0.07986929, 0.06234036, 0.12662584, -0.05271183, -0.009718745, -0.0046989853, -0.0030333172, -0.04034237, -0.0113442, 0.022746231, -0.035293855, -0.009433693) * g_20;
result += mat4(0.015766997, 0.013647276, -0.029327558, 0.039106004, -0.010398323, -0.032851525, 0.02908329, -0.003789618, 0.12963496, 0.010851003, 0.1126276, -0.049255487, 0.06867432, 0.07970792, 0.017840397, -0.026481882) * g_21;
result += mat4(-0.058729574, -0.07886952, 0.033267397, 0.02755372, -0.0172006, 0.012404398, -0.0230168, -0.015059758, -0.09239916, -0.029533267, -0.043251917, 0.0035152994, 0.022931995, 0.101714484, -0.044946067, 0.094993) * g_22;
result += mat4(-0.04708704, -0.032475296, -0.03228093, -0.08810475, 0.013745045, 0.027828002, -0.031922746, 0.022986397, -0.061620213, -0.03694645, -0.055026993, 0.0031291894, -0.028799903, -0.0025357977, -0.03441407, 0.0028600092) * g_23;
result += mat4(0.058981724, -0.10447273, -0.088705614, 0.16546178, -0.023549391, -0.008831522, -0.018411588, 0.029640056, -0.068086684, -0.05414636, -0.029401174, 0.036180343, -0.031988926, -0.047249753, 0.008162177, 0.00548062) * g_24;
result += mat4(0.05287462, -0.030657746, 0.02821435, 0.037005343, 0.03534311, -0.15614955, 0.07085459, -0.11997641, -0.009156166, -0.021968868, -0.054147746, -0.07307657, -0.006428544, -0.017528288, 0.012614676, 0.037840024) * g_25;
result += mat4(-0.021977803, 0.047799855, 0.02660416, -0.07292106, 0.045195807, -0.0056674764, 0.10824326, -0.112114795, 0.1447127, -0.0119616175, 0.0011661504, -0.04553905, 0.13048342, 0.14574122, -0.105522245, -0.102792375) * g_26;
result += mat4(-0.16397473, 0.15785863, -0.06666504, -0.01682913, 0.06070918, 0.070222184, 0.037701584, 0.026657054, -0.0835267, -0.009457008, 0.13232987, 0.13508691, -0.056414206, -0.06818828, 0.079076104, 0.032249212) * g_27;
result += vec4(-0.10795144, -0.09953324, -0.055413827, -0.03875493);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x1x1x112
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_last_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max((conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_2 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_4 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_5 (max((conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_6 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_8 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_9 (max((conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_10 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_12 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_13 (max((conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_14 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_15 (max(-(conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_16 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_17 (max((conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_18 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_19 (max(-(conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_20 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_21 (max((conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_22 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_23 (max(-(conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_24 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_25 (max((conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_26 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_27 (max(-(conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(0.024905335, -0.0020974763, 0.02695263, 0.00016802056, -0.024053082, -0.02133723, -0.031614035, -0.031826317, 0.120421864, 0.10555479, 0.08609448, 0.116875134, 0.046175968, 0.04224941, 0.059216674, 0.035143953) * g_0;
result += mat4(0.059397914, 0.016519934, 0.07189327, 0.047407165, 0.04808963, 0.02792908, 0.057017103, 0.034324065, 0.14228246, 0.11275426, 0.088058695, 0.059600517, 0.02063494, 0.052596953, 0.047207687, 0.08789091) * g_1;
result += mat4(-0.013453174, 0.008474715, -0.017593835, 0.009218917, 0.070580654, 0.040542338, 0.08812338, 0.074653216, -0.016356857, 0.015809007, -0.008739107, 0.0097674895, -0.018381525, -0.007775341, -0.040571664, -0.011188163) * g_2;
result += mat4(-0.026196122, -0.034825727, -0.042998232, -0.033436514, -0.01678153, -0.004592797, -0.010311677, 0.0008815291, -0.08899181, -0.10274026, -0.066960976, -0.082430154, -0.057137426, -0.07554528, -0.030993424, -0.050372377) * g_3;
result += mat4(0.022921838, -0.010479244, -0.050794605, -0.073633075, -0.053708922, 0.009594084, -0.071259, -0.01054356, 0.005165821, -0.08024963, -0.049251772, -0.09581235, 0.17995799, 0.09743011, 0.13533138, 0.11643848) * g_4;
result += mat4(0.09727046, 0.07292666, 0.06820908, 0.041535784, -0.0049705, 0.0048759184, -0.035702795, -0.015944308, -0.010730028, 0.018847652, 0.06466244, 0.086318985, -0.05661574, -0.040698618, 0.010839972, 0.0027009705) * g_5;
result += mat4(-0.04628466, 0.010060396, 0.02609333, 0.08664702, 0.057045907, 0.033591177, 0.02186063, -0.024303377, 0.006569828, 0.08025825, 0.016128821, 0.10180713, -0.12228169, -0.112990454, -0.078443415, -0.09126021) * g_6;
result += mat4(-0.12733299, -0.087755, -0.07374111, -0.044979006, -0.025347412, -0.004083168, 0.023782173, 0.02900392, -0.017815407, -0.041119996, -0.057978686, -0.13521095, 0.08364004, 0.06950181, 0.023554614, 0.008043734) * g_7;
result += mat4(0.009062775, -0.003570175, -0.007378757, -0.0018487388, 0.01145638, 0.05217187, -0.008250244, 0.008433307, -0.056756936, -0.044681005, -0.08096105, -0.08033185, -0.023784965, -0.01859799, 0.013042476, 0.021188647) * g_8;
result += mat4(-0.0071619656, -0.012498299, -0.05144986, -0.078112476, -0.034992415, -0.017038302, -0.04464615, -0.044504963, 0.024249, -0.004297534, 0.03674578, 0.03090718, 0.04698553, 0.008344952, 0.057619847, -0.0338724) * g_9;
result += mat4(-0.011845145, -0.0045043705, -1.6646482e-06, -0.0038495932, -0.01992515, 0.004827126, 0.019493148, 0.00862289, 0.10151322, 0.0021909082, 0.09940764, 0.03728846, 0.027824005, 0.04358071, 0.014909185, 0.036326095) * g_10;
result += mat4(0.022513246, 0.028257169, 0.0102195935, 0.03301329, 0.052253865, -0.0021944977, 0.08247392, 0.03256867, -0.040685873, -0.0052207555, -0.0451257, -0.054165114, 0.01647699, 0.0028809097, -0.015233776, -0.0008741886) * g_11;
result += mat4(0.017371105, 0.01597189, -0.052552313, -0.008554715, -0.0023150423, 0.006076517, -0.012868931, 0.0039361073, -0.007524978, -0.004284313, -0.021520883, -0.010327569, 0.02543678, 0.008725823, -0.0073885336, 0.005528395) * g_12;
result += mat4(0.019192757, 0.016561812, 0.0027538154, 0.0013078215, 0.007916496, -0.042525183, -0.013173432, -0.05265476, -0.062195376, -0.011255499, 0.020898128, 0.021532273, -0.001524097, 0.034835674, -0.004051403, -0.0292426) * g_13;
result += mat4(-0.049191684, -9.43322e-06, -0.009106849, 0.012845289, -0.019482708, -0.011163468, 0.0034011535, -0.007062845, -0.006469714, 0.03177786, -0.033006195, -0.0006813464, -0.053963087, 0.00085209147, 0.02734121, 0.034086403) * g_14;
result += mat4(-0.03232248, -0.004037002, -0.010319106, 0.030889064, 0.019604538, 0.0020888883, 0.010277864, 0.000661223, 0.057915937, 0.030683514, 0.00042533095, -0.013019287, -0.015896408, 0.0038484468, -0.0042103594, 0.02174542) * g_15;
result += mat4(0.032975145, 0.0011456647, 0.04913679, -0.017063798, 0.0117176045, 0.007440557, 0.0020480808, 0.009415731, 0.027573857, 0.015140836, -0.01679426, -0.006124731, -0.03206279, -0.029842237, -0.010428016, -0.028513178) * g_16;
result += mat4(-0.00506859, 0.055869613, 0.010164368, 0.027031485, 0.042289548, -0.0054258504, 0.032214936, -0.029970925, -0.0058315448, 0.022889478, 0.01681123, 0.02985076, -0.111186065, -0.02202099, 0.0030994313, -0.062343158) * g_17;
result += mat4(-0.060951103, 0.06079555, -0.0396464, 0.070911355, -0.011480358, -0.06803282, 0.01637355, -0.043100975, -0.00423709, -0.028337711, 0.021635853, 0.0014857082, 0.030084312, 0.018155476, 0.043694943, 0.038795974) * g_18;
result += mat4(-0.0060662925, 0.029721662, -0.008117774, 0.034551267, -0.024477571, 0.018841071, -0.027095588, 0.034495078, 0.082398005, 0.008998768, -0.016399248, -0.043801688, 0.05936684, 0.006066549, 0.045399766, 3.5319943e-05) * g_19;
result += mat4(0.019259382, 0.02494012, 0.029301709, 0.028329274, 0.09122267, 0.06900443, 0.1412115, -0.043169618, -0.01627418, -0.004989528, -0.0042651827, -0.04556752, -0.023623291, 0.013007996, -0.04483056, -0.015727345) * g_20;
result += mat4(0.016332543, 0.016384754, -0.030676385, 0.045312885, -0.0100853555, -0.032632045, 0.031514473, -0.0070776115, 0.13642761, 0.0023589598, 0.12214136, -0.062155515, 0.08240989, 0.08894205, 0.03325406, -0.016589595) * g_21;
result += mat4(-0.06494277, -0.08158925, 0.030425413, 0.019835634, -0.012624623, 0.013942616, -0.030527417, -0.021668324, -0.09444672, -0.033064254, -0.044167448, 0.0011024752, 0.03210801, 0.12662941, -0.03912534, 0.1112649) * g_22;
result += mat4(-0.04716062, -0.03751481, -0.031030515, -0.09067383, 0.0077815712, 0.02169541, -0.035285182, 0.02290573, -0.0704085, -0.03916127, -0.058103334, 0.004915147, -0.0333844, -0.011548617, -0.031151932, -0.00043817286) * g_23;
result += mat4(0.05976319, -0.107285, -0.097245865, 0.17706421, -0.021453341, -0.0047738464, -0.017621001, 0.033400454, -0.07225561, -0.05599672, -0.027600193, 0.038664024, -0.03762786, -0.052429967, 0.0104017975, 0.007116869) * g_24;
result += mat4(0.06014114, -0.029824806, 0.03209269, 0.04392036, 0.031300627, -0.16249833, 0.06878509, -0.12658615, -0.012383169, -0.025043553, -0.06527381, -0.08149099, -0.014006842, -0.018669648, 0.014510818, 0.042045828) * g_25;
result += mat4(-0.023342922, 0.047104675, 0.029629575, -0.082307704, 0.04035797, -0.0013049254, 0.11085582, -0.11031226, 0.14778149, -0.016699014, -0.00634342, -0.055320874, 0.14306462, 0.15896587, -0.110229075, -0.1069649) * g_26;
result += mat4(-0.17449625, 0.15787153, -0.06711028, -0.023110518, 0.06862914, 0.074063435, 0.042682912, 0.029800726, -0.08768606, -0.009814701, 0.14180017, 0.14780663, -0.05672417, -0.074305914, 0.07873489, 0.028458012) * g_27;
result += vec4(0.06026231, 0.040204916, 0.037672628, 0.023496555);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Conv-4x1x1x112
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_last_tf2
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max((conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_2 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_4 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_5 (max((conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_6 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_8 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_9 (max((conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_10 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_12 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_13 (max((conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_14 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_15 (max(-(conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_16 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_17 (max((conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_18 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_19 (max(-(conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_20 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_21 (max((conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_22 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_23 (max(-(conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_24 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_25 (max((conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_26 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_27 (max(-(conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(0.1765669, 0.14268716, 0.19186598, 0.15799578, 0.016374417, 0.018578433, 0.0039475, 0.0046772263, 0.39840183, 0.36909792, 0.35409746, 0.37422222, -0.108508386, -0.1331279, -0.10336035, -0.14776541) * g_0;
result += mat4(-0.057757027, -0.14071062, -0.025283009, -0.09397916, -0.09031894, -0.14219165, -0.08299535, -0.13970287, -0.12259208, -0.14382727, -0.22002274, -0.25016093, -0.048906635, 0.06620249, 0.016965045, 0.1295978) * g_1;
result += mat4(-0.16748372, -0.13718611, -0.18565705, -0.15029612, -0.080749065, -0.09955825, 0.032431383, 0.023855643, -0.2748885, -0.23232168, -0.29121292, -0.26405892, 0.16556135, 0.18657646, 0.1424068, 0.18855052) * g_2;
result += mat4(0.10960496, 0.10851629, 0.095003806, 0.11053746, 0.09885307, 0.14437789, 0.13191165, 0.17365928, 0.16558935, 0.15473324, 0.21136154, 0.19976667, -0.07267957, -0.11469687, -0.029134216, -0.06817615) * g_3;
result += mat4(0.10202856, 0.04216857, -0.03959349, -0.09849683, -0.1576996, -0.049997438, -0.1579918, -0.058789205, 0.029792828, -0.07311781, -0.045432188, -0.11312683, 0.24257647, 0.16204113, 0.17869382, 0.16024388) * g_4;
result += mat4(0.17193612, 0.12692013, 0.13177487, 0.0796725, 0.0797928, 0.08952722, -0.012468046, 0.011071511, -0.068559825, -0.024852324, 0.0526428, 0.07917346, -0.085534215, -0.09591339, 0.04615827, 0.024577664) * g_5;
result += mat4(-0.14653449, -0.067267366, -0.002524394, 0.086243175, 0.13660401, 0.08039592, 0.09179008, 0.022573143, -0.024744196, 0.09120211, 0.017654825, 0.14114714, -0.16093308, -0.14538004, -0.09950235, -0.111152865) * g_6;
result += mat4(-0.188637, -0.12968326, -0.1200479, -0.06537649, -0.12589337, -0.106242515, -0.02788782, -0.025949068, 0.04948153, 0.02222735, -0.025291357, -0.12379292, 0.11074645, 0.11902375, -0.00056989543, -0.0024386419) * g_7;
result += mat4(0.018286629, 0.0072215167, 0.00037828335, 0.0047001047, 0.011478272, 0.041745186, -0.015742473, -0.002282524, -0.03440817, -0.02196847, -0.07838253, -0.07993771, -0.010155526, -0.017590692, 0.027141469, 0.029741213) * g_8;
result += mat4(0.016512005, 0.004950637, -0.0238836, -0.05587327, -0.03164328, -0.009499985, -0.059880238, -0.061794154, 0.023154303, -0.013266373, 0.04701534, 0.0415862, 0.06357814, 0.033057794, 0.08389772, 0.00035060212) * g_9;
result += mat4(-0.016403968, -0.012538788, -0.0015746636, -0.004771009, -0.021361275, -0.009695242, 0.020548422, -0.0024130535, 0.07796766, -0.01516671, 0.09961382, 0.042754963, 0.017363647, 0.03729065, -0.004795824, 0.01550197) * g_10;
result += mat4(-0.0028093113, 0.011869523, -0.02216933, 0.011177349, 0.033342455, -0.021146454, 0.07830085, 0.032490104, -0.03281833, 0.0060484232, -0.04081057, -0.04945058, -0.0056189033, -0.010636801, -0.041949317, -0.025739705) * g_11;
result += mat4(0.012979897, 0.016758928, -0.049062215, -0.0035748442, 0.0085972, 0.0036381132, -0.0055621094, 0.0041307937, -0.0008907763, -0.0034079372, -0.025680453, -0.015531803, 0.012816766, 0.009977763, -0.016416566, 0.0034859509) * g_12;
result += mat4(0.021753248, 0.016452711, 0.009833835, 0.0065052663, 0.0014061348, -0.046160888, -0.0132271005, -0.05051269, -0.05746351, -0.0012690664, 0.017191738, 0.018192926, -0.008879476, 0.026354216, -0.012801991, -0.029587373) * g_13;
result += mat4(-0.04220692, -0.0015560482, -0.0019648245, 0.013402305, -0.018259782, -0.0036008905, 0.0035650074, -0.0019178417, 0.00051580026, 0.027355857, -0.017914988, 0.004937948, -0.046335887, 0.00013612259, 0.030293299, 0.030688645) * g_14;
result += mat4(-0.036683388, -0.0031274238, -0.026074665, 0.021684237, 0.022639066, 0.0022493738, 0.011508554, -0.0006385944, 0.04890418, 0.020119468, 0.004167364, -0.008356099, -0.008598796, 0.0089028, -0.0029575853, 0.016687104) * g_15;
result += mat4(0.027207986, 0.0011099194, 0.042383645, -0.015179333, 0.014744431, 0.006148344, 0.005165422, 0.0070196544, 0.030286826, 0.016620956, -0.01611366, -0.00667594, -0.029524863, -0.024751091, -0.013321004, -0.025199674) * g_16;
result += mat4(0.0027477827, 0.054622147, 0.010154094, 0.025437292, 0.031773083, -0.01055473, 0.022864206, -0.029010754, -0.0029999653, 0.025018329, 0.015316208, 0.027188798, -0.10096525, -0.017268656, 0.0012529213, -0.062078856) * g_17;
result += mat4(-0.053670805, 0.057336535, -0.037418038, 0.06443577, -0.016027879, -0.058168363, 0.007034215, -0.03390141, -0.0019346164, -0.027947908, 0.021723913, -0.0018286633, 0.030507812, 0.018293543, 0.042917266, 0.033528328) * g_18;
result += mat4(-0.004559579, 0.029667616, -0.001870353, 0.0378995, -0.017147437, 0.020192018, -0.021574946, 0.031568103, 0.07487145, 0.0032376775, -0.018893708, -0.041981626, 0.054478757, 0.0061423797, 0.041280247, 0.000878061) * g_19;
result += mat4(0.017076394, 0.023647636, 0.029403262, 0.029923365, 0.08866472, 0.060613394, 0.1314274, -0.04490231, -0.016304834, -0.0062647443, -0.0031828512, -0.03989252, -0.024330825, 0.00741213, -0.04075287, -0.01615817) * g_20;
result += mat4(0.017866978, 0.017720113, -0.02846163, 0.040761847, -0.0063438355, -0.02347501, 0.029564403, -0.0029562064, 0.12505588, -0.0073986333, 0.11250363, -0.06179967, 0.07854423, 0.08546533, 0.034743227, -0.010757377) * g_21;
result += mat4(-0.06416677, -0.08344284, 0.030138884, 0.017635904, -0.012087523, 0.014205202, -0.03221233, -0.023834767, -0.091186255, -0.028958676, -0.04724334, 0.00013161585, 0.027391518, 0.1249978, -0.045047652, 0.10737729) * g_22;
result += mat4(-0.04326348, -0.03543181, -0.029558217, -0.08582413, 0.007812453, 0.014296562, -0.028779754, 0.018517692, -0.063755795, -0.036619596, -0.050809663, 0.005431336, -0.029205568, -0.011827915, -0.031110523, -0.005648626) * g_23;
result += mat4(0.05499293, -0.10000709, -0.0943537, 0.16143042, -0.019952895, -0.0039807972, -0.014841254, 0.0320363, -0.065173544, -0.049425576, -0.023904482, 0.03759679, -0.03207411, -0.047782745, 0.01352581, 0.008140566) * g_24;
result += mat4(0.055923894, -0.025134467, 0.029583648, 0.04096879, 0.027551858, -0.14995384, 0.06467113, -0.11633077, -0.01563784, -0.026909819, -0.06292879, -0.078409635, -0.009081105, -0.015533088, 0.019585673, 0.04334208) * g_25;
result += mat4(-0.021717606, 0.042464726, 0.02743202, -0.07388838, 0.03460472, 0.0038285658, 0.099842004, -0.098247, 0.13276267, -0.020793032, -0.008603039, -0.051913783, 0.12959045, 0.14735717, -0.10888226, -0.10263746) * g_26;
result += mat4(-0.16819532, 0.141579, -0.062480718, -0.021918943, 0.06348125, 0.06849444, 0.03888676, 0.027375204, -0.08194279, -0.012574497, 0.13523251, 0.13739482, -0.047547445, -0.058767617, 0.07009549, 0.028136581) * g_27;
result += vec4(0.069033325, 0.040207114, 0.027286075, 0.0065334598);
return result;
}
//!DESC Anime4K-v3.2-Upscale-CNN-x2-(VL)-Depth-to-Space
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_last_tf
//!BIND conv2d_last_tf1
//!BIND conv2d_last_tf2
//!SAVE MAIN
//!WIDTH conv2d_last_tf.w 2 *
//!HEIGHT conv2d_last_tf.h 2 *
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
vec4 hook() {
vec2 f0 = fract(conv2d_last_tf_pos * conv2d_last_tf_size);
ivec2 i0 = ivec2(f0 * vec2(2.0));
float c0 = conv2d_last_tf_tex((vec2(0.5) - f0) * conv2d_last_tf_pt + conv2d_last_tf_pos)[i0.y * 2 + i0.x];
vec2 f1 = fract(conv2d_last_tf1_pos * conv2d_last_tf1_size);
ivec2 i1 = ivec2(f1 * vec2(2.0));
float c1 = conv2d_last_tf1_tex((vec2(0.5) - f1) * conv2d_last_tf1_pt + conv2d_last_tf1_pos)[i1.y * 2 + i1.x];
vec2 f2 = fract(conv2d_last_tf2_pos * conv2d_last_tf2_size);
ivec2 i2 = ivec2(f2 * vec2(2.0));
float c2 = conv2d_last_tf2_tex((vec2(0.5) - f2) * conv2d_last_tf2_pt + conv2d_last_tf2_pos)[i2.y * 2 + i2.x];
float c3 = c2;
return vec4(c0, c1, c2, c3) + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Upscale_DTD_x2.glsl
+613
View File
@@ -0,0 +1,613 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-X
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE MMKERNEL
//!COMPONENTS 1
#define L_tex LINELUMA_tex
#define SIGMA 1.0
float gaussian(float x, float s, float m) {
return (1.0 / (s * sqrt(2.0 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
}
float lumGaussian(vec2 pos, vec2 d) {
float s = SIGMA * HOOKED_size.y / 1080.0;
float kernel_size = s * 2.0 + 1.0;
float g = (L_tex(pos).x) * gaussian(0.0, s, 0.0);
float gn = gaussian(0.0, s, 0.0);
g += (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1.0, s, 0.0);
gn += gaussian(1.0, s, 0.0) * 2.0;
for (int i=2; float(i)<kernel_size; i++) {
g += (L_tex(pos - (d * float(i))).x + L_tex(pos + (d * float(i))).x) * gaussian(float(i), s, 0.0);
gn += gaussian(float(i), s, 0.0) * 2.0;
}
return g / gn;
}
vec4 hook() {
return vec4(lumGaussian(HOOKED_pos, vec2(HOOKED_pt.x, 0)));
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-Y
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!BIND MMKERNEL
//!SAVE MMKERNEL
//!COMPONENTS 1
#define L_tex MMKERNEL_tex
#define SIGMA 1.0
float gaussian(float x, float s, float m) {
return (1.0 / (s * sqrt(2.0 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
}
float lumGaussian(vec2 pos, vec2 d) {
float s = SIGMA * HOOKED_size.y / 1080.0;
float kernel_size = s * 2.0 + 1.0;
float g = (L_tex(pos).x) * gaussian(0.0, s, 0.0);
float gn = gaussian(0.0, s, 0.0);
g += (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1.0, s, 0.0);
gn += gaussian(1.0, s, 0.0) * 2.0;
for (int i=2; float(i)<kernel_size; i++) {
g += (L_tex(pos - (d * float(i))).x + L_tex(pos + (d * float(i))).x) * gaussian(float(i), s, 0.0);
gn += gaussian(float(i), s, 0.0) * 2.0;
}
return g / gn;
}
vec4 hook() {
return vec4(min(LINELUMA_tex(HOOKED_pos).x - lumGaussian(HOOKED_pos, vec2(0, HOOKED_pt.y)), 0.0));
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-X
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND MMKERNEL
//!SAVE MMKERNEL
//!COMPONENTS 1
#define L_tex MMKERNEL_tex
#define SIGMA 0.4
float gaussian(float x, float s, float m) {
return (1.0 / (s * sqrt(2.0 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
}
float lumGaussian(vec2 pos, vec2 d) {
float s = SIGMA * HOOKED_size.y / 1080.0;
float kernel_size = s * 2.0 + 1.0;
float g = (L_tex(pos).x) * gaussian(0.0, s, 0.0);
float gn = gaussian(0.0, s, 0.0);
g += (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1.0, s, 0.0);
gn += gaussian(1.0, s, 0.0) * 2.0;
for (int i=2; float(i)<kernel_size; i++) {
g += (L_tex(pos - (d * float(i))).x + L_tex(pos + (d * float(i))).x) * gaussian(float(i), s, 0.0);
gn += gaussian(float(i), s, 0.0) * 2.0;
}
return g / gn;
}
vec4 hook() {
return vec4(lumGaussian(HOOKED_pos, vec2(HOOKED_pt.x, 0)));
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-Y
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND MMKERNEL
//!SAVE MMKERNEL
//!COMPONENTS 1
#define L_tex MMKERNEL_tex
#define SIGMA 0.4
float gaussian(float x, float s, float m) {
return (1.0 / (s * sqrt(2.0 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
}
float lumGaussian(vec2 pos, vec2 d) {
float s = SIGMA * HOOKED_size.y / 1080.0;
float kernel_size = s * 2.0 + 1.0;
float g = (L_tex(pos).x) * gaussian(0.0, s, 0.0);
float gn = gaussian(0.0, s, 0.0);
g += (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1.0, s, 0.0);
gn += gaussian(1.0, s, 0.0) * 2.0;
for (int i=2; float(i)<kernel_size; i++) {
g += (L_tex(pos - (d * float(i))).x + L_tex(pos + (d * float(i))).x) * gaussian(float(i), s, 0.0);
gn += gaussian(float(i), s, 0.0) * 2.0;
}
return g / gn;
}
vec4 hook() {
return vec4(lumGaussian(HOOKED_pos, vec2(0, HOOKED_pt.y)));
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND MMKERNEL
#define STRENGTH 1.8 //Line darken proportional strength, higher is darker.
vec4 hook() {
float c = (MMKERNEL_tex(HOOKED_pos).x) * STRENGTH;
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return HOOKED_tex(HOOKED_pos) + c;
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-X
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE LUMAD
//!COMPONENTS 2
#define L_tex LINELUMA_tex
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l c r]
//[bl b br]
float l = L_tex(HOOKED_pos + vec2(-d.x, 0)).x;
float c = L_tex(HOOKED_pos).x;
float r = L_tex(HOOKED_pos + vec2(d.x, 0)).x;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (-l + r);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (l + c + c + r);
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0, 0);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-Y
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMAD
//!COMPONENTS 1
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l cc r]
//[bl b br]
float tx = LUMAD_tex(HOOKED_pos + vec2(0, -d.y)).x;
float cx = LUMAD_tex(HOOKED_pos).x;
float bx = LUMAD_tex(HOOKED_pos + vec2(0, d.y)).x;
float ty = LUMAD_tex(HOOKED_pos + vec2(0, -d.y)).y;
//float cy = LUMAD_tex(HOOKED_pos).y;
float by = LUMAD_tex(HOOKED_pos + vec2(0, d.y)).y;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (tx + cx + cx + bx) / 8.0;
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (-ty + by) / 8.0;
//Computes the luminance's gradient
float norm = sqrt(xgrad * xgrad + ygrad * ygrad);
return vec4(pow(norm, 0.7));
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-X
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMADG
//!COMPONENTS 1
#define L_tex LUMAD_tex
#define SIGMA (HOOKED_size.y / 1080.0) * 2.0
#define KERNELSIZE (SIGMA * 2.0 + 1.0)
float gaussian(float x, float s, float m) {
return (1.0 / (s * sqrt(2.0 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
}
float lumGaussian(vec2 pos, vec2 d) {
float g = (L_tex(pos).x) * gaussian(0.0, SIGMA, 0.0);
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1.0, SIGMA, 0.0);
for (int i=2; float(i)<KERNELSIZE; i++) {
g = g + (L_tex(pos - (d * float(i))).x + L_tex(pos + (d * float(i))).x) * gaussian(float(i), SIGMA, 0.0);
}
return g;
}
vec4 hook() {
return vec4(lumGaussian(HOOKED_pos, vec2(HOOKED_pt.x, 0)));
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-Y
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!BIND LUMADG
//!SAVE LUMAD
//!COMPONENTS 1
#define L_tex LUMADG_tex
#define SIGMA (HOOKED_size.y / 1080.0) * 2.0
#define KERNELSIZE (SIGMA * 2.0 + 1.0)
float gaussian(float x, float s, float m) {
return (1.0 / (s * sqrt(2.0 * 3.14159))) * exp(-0.5 * pow(abs(x - m) / s, 2.0));
}
float lumGaussian(vec2 pos, vec2 d) {
float g = (L_tex(pos).x) * gaussian(0.0, SIGMA, 0.0);
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * gaussian(1.0, SIGMA, 0.0);
for (int i=2; float(i)<KERNELSIZE; i++) {
g = g + (L_tex(pos - (d * float(i))).x + L_tex(pos + (d * float(i))).x) * gaussian(float(i), SIGMA, 0.0);
}
return g;
}
vec4 hook() {
float g = lumGaussian(HOOKED_pos, vec2(0, HOOKED_pt.y));
return vec4(g);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-X
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMAD2
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l c r]
//[bl b br]
float l = LUMAD_tex(HOOKED_pos + vec2(-d.x, 0)).x;
float c = LUMAD_tex(HOOKED_pos).x;
float r = LUMAD_tex(HOOKED_pos + vec2(d.x, 0)).x;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (-l + r);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (l + c + c + r);
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0, 0);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-Y
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD2
//!SAVE LUMAD2
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l cc r]
//[bl b br]
float tx = LUMAD2_tex(HOOKED_pos + vec2(0, -d.y)).x;
float cx = LUMAD2_tex(HOOKED_pos).x;
float bx = LUMAD2_tex(HOOKED_pos + vec2(0, d.y)).x;
float ty = LUMAD2_tex(HOOKED_pos + vec2(0, -d.y)).y;
//float cy = LUMAD2_tex(HOOKED_pos).y;
float by = LUMAD2_tex(HOOKED_pos + vec2(0, d.y)).y;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (tx + cx + cx + bx) / 8.0;
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (-ty + by) / 8.0;
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0, 0);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!BIND LUMAD2
//!SAVE MAINTEMPTHIN
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
#define STRENGTH 0.4 //Strength of warping for each iteration
#define ITERATIONS 1 //Number of iterations for the forwards solver, decreasing strength and increasing iterations improves quality at the cost of speed.
#define L_tex HOOKED_tex
vec4 hook() {
vec2 d = HOOKED_pt;
float relstr = HOOKED_size.y / 1080.0 * STRENGTH;
vec2 pos = HOOKED_pos;
for (int i=0; i<ITERATIONS; i++) {
vec2 dn = LUMAD2_tex(pos).xy;
vec2 dd = (dn / (length(dn) + 0.01)) * d * relstr; //Quasi-normalization for large vectors, avoids divide by zero
pos -= dd;
}
return L_tex(pos);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Luma
//!HOOK MAIN
//!BIND HOOKED
//!BIND MAINTEMPTHIN
//!COMPONENTS 1
//!SAVE MAINTEMP
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(MAINTEMPTHIN_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-X
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND MAINTEMP
//!SAVE MMKERNEL
//!COMPONENTS 3
#define L_tex MAINTEMP_tex
float max3v(float a, float b, float c) {
return max(max(a, b), c);
}
float min3v(float a, float b, float c) {
return min(min(a, b), c);
}
vec2 minmax3(vec2 pos, vec2 d) {
float a = L_tex(pos - d).x;
float b = L_tex(pos).x;
float c = L_tex(pos + d).x;
return vec2(min3v(a, b, c), max3v(a, b, c));
}
float lumGaussian7(vec2 pos, vec2 d) {
float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
g = g + (L_tex(pos).x) * 0.38774;
return g;
}
vec4 hook() {
return vec4(lumGaussian7(HOOKED_pos, vec2(HOOKED_pt.x, 0)), minmax3(HOOKED_pos, vec2(HOOKED_pt.x, 0)), 0);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2-Kernel-Y
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND MMKERNEL
//!SAVE MMKERNEL
//!COMPONENTS 3
#define L_tex MMKERNEL_tex
float max3v(float a, float b, float c) {
return max(max(a, b), c);
}
float min3v(float a, float b, float c) {
return min(min(a, b), c);
}
vec2 minmax3(vec2 pos, vec2 d) {
float a0 = L_tex(pos - d).y;
float b0 = L_tex(pos).y;
float c0 = L_tex(pos + d).y;
float a1 = L_tex(pos - d).z;
float b1 = L_tex(pos).z;
float c1 = L_tex(pos + d).z;
return vec2(min3v(a0, b0, c0), max3v(a1, b1, c1));
}
float lumGaussian7(vec2 pos, vec2 d) {
float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
g = g + (L_tex(pos).x) * 0.38774;
return g;
}
vec4 hook() {
return vec4(lumGaussian7(HOOKED_pos, vec2(0, HOOKED_pt.y)), minmax3(HOOKED_pos, vec2(0, HOOKED_pt.y)), 0);
}
//!DESC Anime4K-v3.2-Upscale-DTD-x2
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND MAINTEMPTHIN
//!BIND MAINTEMP
//!BIND MMKERNEL
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
#define STRENGTH 0.5 //De-blur proportional strength, higher is sharper. However, it is better to tweak BLUR_CURVE instead to avoid ringing.
#define BLUR_CURVE 0.8 //De-blur power curve, lower is sharper. Good values are between 0.3 - 1. Values greater than 1 softens the image;
#define BLUR_THRESHOLD 0.1 //Value where curve kicks in, used to not de-blur already sharp edges. Only de-blur values that fall below this threshold.
#define NOISE_THRESHOLD 0.004 //Value where curve stops, used to not sharpen noise. Only de-blur values that fall above this threshold.
#define L_tex MAINTEMP_tex
vec4 hook() {
float c = (L_tex(HOOKED_pos).x - MMKERNEL_tex(HOOKED_pos).x) * STRENGTH;
float t_range = BLUR_THRESHOLD - NOISE_THRESHOLD;
float c_t = abs(c);
if (c_t > NOISE_THRESHOLD) {
c_t = (c_t - NOISE_THRESHOLD) / t_range;
c_t = pow(c_t, BLUR_CURVE);
c_t = c_t * t_range + NOISE_THRESHOLD;
c_t = c_t * sign(c);
} else {
c_t = c;
}
float cc = clamp(c_t + L_tex(HOOKED_pos).x, MMKERNEL_tex(HOOKED_pos).y, MMKERNEL_tex(HOOKED_pos).z) - L_tex(HOOKED_pos).x;
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return MAINTEMPTHIN_tex(HOOKED_pos) + cc;
}
shaders/Anime4K_Upscale_Deblur_DoG_x2.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-Deblur-DoG-x2-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Deblur-DoG-x2-Kernel-X
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE GAUSS_X2
//!COMPONENTS 3
#define L_tex LINELUMA_tex
float max3v(float a, float b, float c) {
return max(max(a, b), c);
}
float min3v(float a, float b, float c) {
return min(min(a, b), c);
}
vec2 minmax3(vec2 pos, vec2 d) {
float a = L_tex(pos - d).x;
float b = L_tex(pos).x;
float c = L_tex(pos + d).x;
return vec2(min3v(a, b, c), max3v(a, b, c));
}
float lumGaussian7(vec2 pos, vec2 d) {
float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
g = g + (L_tex(pos).x) * 0.38774;
return g;
}
vec4 hook() {
return vec4(lumGaussian7(HOOKED_pos, vec2(HOOKED_pt.x, 0)), minmax3(HOOKED_pos, vec2(HOOKED_pt.x, 0)), 0);
}
//!DESC Anime4K-v3.2-Upscale-Deblur-DoG-x2-Kernel-Y
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND GAUSS_X2
//!SAVE GAUSS_X2
//!COMPONENTS 3
#define L_tex GAUSS_X2_tex
float max3v(float a, float b, float c) {
return max(max(a, b), c);
}
float min3v(float a, float b, float c) {
return min(min(a, b), c);
}
vec2 minmax3(vec2 pos, vec2 d) {
float a0 = L_tex(pos - d).y;
float b0 = L_tex(pos).y;
float c0 = L_tex(pos + d).y;
float a1 = L_tex(pos - d).z;
float b1 = L_tex(pos).z;
float c1 = L_tex(pos + d).z;
return vec2(min3v(a0, b0, c0), max3v(a1, b1, c1));
}
float lumGaussian7(vec2 pos, vec2 d) {
float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
g = g + (L_tex(pos).x) * 0.38774;
return g;
}
vec4 hook() {
return vec4(lumGaussian7(HOOKED_pos, vec2(0, HOOKED_pt.y)), minmax3(HOOKED_pos, vec2(0, HOOKED_pt.y)), 0);
}
//!DESC Anime4K-v3.2-Upscale-Deblur-DoG-x2-Apply
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!BIND GAUSS_X2
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
#define STRENGTH 0.6 //De-blur proportional strength, higher is sharper. However, it is better to tweak BLUR_CURVE instead to avoid ringing.
#define BLUR_CURVE 0.6 //De-blur power curve, lower is sharper. Good values are between 0.3 - 1. Values greater than 1 softens the image;
#define BLUR_THRESHOLD 0.1 //Value where curve kicks in, used to not de-blur already sharp edges. Only de-blur values that fall below this threshold.
#define NOISE_THRESHOLD 0.001 //Value where curve stops, used to not sharpen noise. Only de-blur values that fall above this threshold.
#define L_tex LINELUMA_tex
vec4 hook() {
float c = (L_tex(HOOKED_pos).x - GAUSS_X2_tex(HOOKED_pos).x) * STRENGTH;
float t_range = BLUR_THRESHOLD - NOISE_THRESHOLD;
float c_t = abs(c);
if (c_t > NOISE_THRESHOLD && c_t < BLUR_THRESHOLD) {
c_t = (c_t - NOISE_THRESHOLD) / t_range;
c_t = pow(c_t, BLUR_CURVE);
c_t = c_t * t_range + NOISE_THRESHOLD;
c_t = c_t * sign(c);
} else {
c_t = c;
}
float cc = clamp(c_t + L_tex(HOOKED_pos).x, GAUSS_X2_tex(HOOKED_pos).y, GAUSS_X2_tex(HOOKED_pos).z) - L_tex(HOOKED_pos).x;
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return HOOKED_tex(HOOKED_pos) + cc;
}
shaders/Anime4K_Upscale_Deblur_Original_x2.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-Deblur-Original-x2-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Deblur-Original-x2-Kernel-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE LUMAD
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l c r]
//[bl b br]
float l = LINELUMA_tex(HOOKED_pos + vec2(-d.x, 0.0)).x;
float c = LINELUMA_tex(HOOKED_pos).x;
float r = LINELUMA_tex(HOOKED_pos + vec2(d.x, 0.0)).x;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (-l + r);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (l + c + c + r);
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Deblur-Original-x2-Kernel-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMAD
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
/* --------------------- SETTINGS --------------------- */
//Strength of edge refinement, good values are between 0.2 and 4
#define REFINE_STRENGTH 1.0
/* --- MODIFY THESE SETTINGS BELOW AT YOUR OWN RISK --- */
//Bias of the refinement function, good values are between 0 and 1
#define REFINE_BIAS 0.0
//Polynomial fit obtained by minimizing MSE error on image
#define P5 ( 11.68129591)
#define P4 (-42.46906057)
#define P3 ( 60.28286266)
#define P2 (-41.84451327)
#define P1 ( 14.05517353)
#define P0 (-1.081521930)
/* ----------------- END OF SETTINGS ----------------- */
float power_function(float x) {
float x2 = x * x;
float x3 = x2 * x;
float x4 = x2 * x2;
float x5 = x2 * x3;
return P5*x5 + P4*x4 + P3*x3 + P2*x2 + P1*x + P0;
}
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l cc r]
//[bl b br]
float tx = LUMAD_tex(HOOKED_pos + vec2(0.0, -d.y)).x;
float cx = LUMAD_tex(HOOKED_pos).x;
float bx = LUMAD_tex(HOOKED_pos + vec2(0.0, d.y)).x;
float ty = LUMAD_tex(HOOKED_pos + vec2(0.0, -d.y)).y;
//float cy = LUMAD_tex(HOOKED_pos).y;
float by = LUMAD_tex(HOOKED_pos + vec2(0.0, d.y)).y;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (tx + cx + cx + bx);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (-ty + by);
//Computes the luminance's gradient
float sobel_norm = clamp(sqrt(xgrad * xgrad + ygrad * ygrad), 0.0, 1.0);
float dval = clamp(power_function(clamp(sobel_norm, 0.0, 1.0)) * REFINE_STRENGTH + REFINE_BIAS, 0.0, 1.0);
return vec4(sobel_norm, dval, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Deblur-Original-x2-Kernel-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
if (LUMAD_tex(HOOKED_pos).y < 0.1) {
return vec4(0.0);
}
//[tl t tr]
//[ l c r]
//[bl b br]
float l = LUMAD_tex(HOOKED_pos + vec2(-d.x, 0.0)).x;
float c = LUMAD_tex(HOOKED_pos).x;
float r = LUMAD_tex(HOOKED_pos + vec2(d.x, 0.0)).x;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (-l + r);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Deblur-Original-x2-Kernel-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!BIND LUMAMM
//!SAVE LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
if (LUMAD_tex(HOOKED_pos).y < 0.1) {
return vec4(0.0);
}
//[tl t tr]
//[ l cc r]
//[bl b br]
float tx = LUMAMM_tex(HOOKED_pos + vec2(0.0, -d.y)).x;
float cx = LUMAMM_tex(HOOKED_pos).x;
float bx = LUMAMM_tex(HOOKED_pos + vec2(0.0, d.y)).x;
float ty = LUMAMM_tex(HOOKED_pos + vec2(0.0, -d.y)).y;
//float cy = LUMAMM_tex(HOOKED_pos).y;
float by = LUMAMM_tex(HOOKED_pos + vec2(0.0, d.y)).y;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (tx + cx + cx + bx);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (-ty + by);
float norm = sqrt(xgrad * xgrad + ygrad * ygrad);
if (norm <= 0.001) {
xgrad = 0.0;
ygrad = 0.0;
norm = 1.0;
}
return vec4(xgrad/norm, ygrad/norm, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Deblur-Original-x2-Apply
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!BIND LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
vec4 hook() {
vec2 d = HOOKED_pt;
float dval = LUMAD_tex(HOOKED_pos).y;
if (dval < 0.1) {
return HOOKED_tex(HOOKED_pos);
}
vec4 dc = LUMAMM_tex(HOOKED_pos);
if (abs(dc.x + dc.y) <= 0.0001) {
return HOOKED_tex(HOOKED_pos);
}
float xpos = -sign(dc.x);
float ypos = -sign(dc.y);
vec4 xval = HOOKED_tex(HOOKED_pos + vec2(d.x * xpos, 0.0));
vec4 yval = HOOKED_tex(HOOKED_pos + vec2(0.0, d.y * ypos));
float xyratio = abs(dc.x) / (abs(dc.x) + abs(dc.y));
vec4 avg = xyratio * xval + (1.0 - xyratio) * yval;
return avg * dval + HOOKED_tex(HOOKED_pos) * (1.0 - dval);
}
shaders/Anime4K_Upscale_Denoise_CNN_x2_L.glsl
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.050913796, -0.05115213, -0.0205767, -0.26266688, -0.12883802, 0.107968464, 0.03389763, -0.70179373, 0.0030511466, 0.07718592, -0.06562523, -0.060305536, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.009235469, -0.018979615, 0.10033019, -0.20307243, 0.040932532, -0.10095427, 0.038843542, -0.28774044, -0.07829864, -0.04317961, 0.032555006, -0.05584433, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.23774138, 0.04701499, -0.16824278, 0.025335955, 0.30246395, -0.037289508, 0.070405066, 0.03094164, -0.0075012813, 0.06881163, -0.03157643, -0.032394916, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.12524955, 0.18535072, -0.05323482, 0.004486272, 0.15295836, 0.3050709, 0.081431866, 0.09352846, -0.059866652, -0.029570978, 0.019920588, 0.121749535, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.2111615, -0.1268416, 0.45642895, 0.47401953, -0.7580866, 0.5514855, 0.96250856, 0.7827129, 0.0003978912, 0.17167407, -0.04423575, -0.04569368, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.17050457, -0.18697786, -0.11608587, -0.038065948, 0.26542, -0.7021022, -0.33751717, 0.053689335, 0.10030526, -0.19492362, 0.069387496, 0.07228368, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.15900351, -0.017636139, 0.01917807, 0.05584281, 0.28530255, 0.04795445, -0.104170926, 0.1192509, 0.09859251, 0.057123564, 0.025724344, -0.07723904, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.06581913, 0.07548721, -0.054552317, -0.08317343, 0.32851526, -0.2362575, -0.39470714, -0.073999345, 0.07246812, -0.04103072, 0.06058696, 0.09532553, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.12524493, 0.095179625, -0.0918538, 0.016793616, -0.48433152, 0.03702525, -0.100864686, -0.0018861603, -0.14784335, -0.048320837, -0.057494648, -0.024096634, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.012922576, -0.11982956, 0.021963459, 0.019259451);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf1
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.04816902, 0.030087546, 0.019183155, -0.08234757, 0.09378316, -0.047217257, -0.04757087, -0.16541782, -0.043394983, 0.05779227, 0.018105166, 0.03222583, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.13639967, -0.001877575, 0.049495522, 0.060094353, 0.015303669, 0.059043188, 0.090356335, -0.12654372, 0.06469071, -0.054733396, -0.013548386, -0.093697555, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.13214277, 0.00062924915, -0.640379, -0.052121993, -0.022532608, 0.01077454, -0.057074178, -0.103670195, -0.0017062012, 0.0035225085, -0.044859786, -0.020764757, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.2553945, -0.08126201, 0.055215932, 0.10690791, 0.6771195, 0.09377514, -0.09488318, -0.43969935, 0.35444704, -0.10392259, 0.07595239, 0.021814484, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.37628967, 0.026895085, 0.035044484, -0.16414654, -0.5694931, -0.20123884, 0.14891861, 1.1822934, -0.25648627, 0.14110301, -0.057699542, 0.17731132, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.023089241, 0.14888923, -0.2730167, 0.1330048, -0.039043408, 0.75768983, 0.07385114, 0.0138615575, -0.06565686, 0.10451973, 0.037489507, 0.021156311, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.03965048, 0.040422294, -0.0662493, -0.043219455, 0.00834316, -0.08315282, 0.13010995, -0.11822414, -0.06811034, 0.029744523, -0.098641835, -0.063671604, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.077282995, -0.29400682, 0.116103284, 0.096747644, -0.47398612, -0.77101594, -0.20683232, 0.111703634, -0.08370965, -0.24218678, 0.13780457, -0.017660126, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.08542605, 0.13080615, 0.081582755, -0.00024888176, 0.31160986, 0.17787197, -0.019935975, -0.09658498, 0.096656196, 0.064402744, -0.033331197, 0.027531069, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.0018859988, 0.004285429, 0.5060845, -0.030093472);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.34559122, 0.052896723, -0.27492252, -0.1604473, 0.4791457, 0.17956258, 0.0076199574, -0.16324736, -0.075430416, 0.019434236, -0.275363, -0.16502565, 0.05507322, -0.046572465, 0.08130956, 0.009380191) * go_0(-1.0, -1.0);
result += mat4(0.1754505, 0.10862336, -0.14956018, 0.20161937, 0.16598102, -0.0033441933, 0.19303258, 0.3278992, -0.31819978, 0.14614153, 0.08434212, 0.21208692, -0.0014794758, -0.06754758, -0.06314527, 0.023496931) * go_0(-1.0, 0.0);
result += mat4(0.13594365, -0.06382366, -0.40069854, -0.087743916, 0.022426397, -0.073364444, -0.19371308, 0.09916138, -0.044016927, 0.0018689828, -0.07705671, 0.15398589, -0.069929935, -0.01874144, 0.050793763, 0.06565281) * go_0(-1.0, 1.0);
result += mat4(0.56292456, 0.25537506, -0.16147509, 0.029484648, 0.11898947, 0.19103922, -0.2387553, 0.13659279, -0.044804625, -0.10285909, 0.12958583, 0.21526133, 0.02727471, 0.21990417, 0.0009558564, 0.12372512) * go_0(0.0, -1.0);
result += mat4(-0.10264466, -0.13103753, -0.069214605, 0.43234769, 0.25947884, -0.18333039, -0.15585582, -0.2406589, 0.33275372, -0.19497354, -0.09758474, -0.4531396, 0.41932744, -0.043746196, 0.08315102, -0.085604236) * go_0(0.0, 0.0);
result += mat4(0.15380725, -0.06311845, -0.28896615, -0.059237756, -0.078456834, -0.11623796, 0.017248835, 0.098803006, -0.13643564, -0.0029720776, 0.425954, 0.36920592, -0.06980546, 0.05205535, -0.15787347, -0.094921984) * go_0(0.0, 1.0);
result += mat4(0.009595518, -0.12598279, -0.04322495, -0.08838463, 0.11729769, -0.062454883, 0.19743776, -0.08590505, -0.022744715, 0.00457582, -0.06070008, 0.045312855, -0.010845991, -0.02241941, 0.07252932, 0.05525124) * go_0(1.0, -1.0);
result += mat4(-0.119069465, 0.08782395, 0.17878884, 0.0068233046, -0.36698806, -0.46077076, 0.37470114, 0.006550318, 0.08622002, -0.10081386, 0.1754186, 0.078841425, 0.060330488, 0.39436886, 0.1688179, -0.10113108) * go_0(1.0, 0.0);
result += mat4(0.17160045, -0.18541232, -0.093926296, 0.0053854887, -0.07649591, -0.3053692, 0.15255369, 0.06183564, 0.105131835, 0.076607525, -0.17482935, -0.104579754, -0.4795174, 0.30223432, 0.4728322, 0.106419675) * go_0(1.0, 1.0);
result += mat4(-0.068794325, -0.019651407, 0.048906703, 0.10097784, 0.014003637, 0.08358555, -0.34008583, 0.1677446, 0.12863056, 0.010167976, 0.10771957, -0.14823496, -0.11855097, 0.024728613, -0.06394353, 0.07123295) * go_1(-1.0, -1.0);
result += mat4(0.1652107, -0.056815207, 0.26562792, -0.02586732, 0.13812682, 0.3791579, -0.40067768, 0.19901459, -0.055583958, 0.06673556, -0.16258197, 0.0014027074, 0.13844898, 0.17588624, 0.0061608437, 0.014889389) * go_1(-1.0, 0.0);
result += mat4(0.023591522, -0.06255483, -0.04512753, -0.07939918, 0.17603582, -0.06219873, -0.10907254, 0.012348696, -0.053350568, 0.023741387, 0.05215983, 0.117241465, 0.28173143, 0.11200327, -0.11672438, -0.13278063) * go_1(-1.0, 1.0);
result += mat4(-0.15015969, -0.1145909, 0.08583166, 0.0386507, -0.17788467, 0.29311427, 0.03577728, -0.006737705, -0.020426478, 0.065881886, -0.10966947, -0.016716056, -0.0027577002, -0.20769168, 0.4357363, -0.13179652) * go_1(0.0, -1.0);
result += mat4(-0.44572783, 0.08870803, 0.42933974, -0.16602941, 0.23271243, 0.29478154, -0.53973556, -0.042550746, -0.13157314, -0.0413034, 0.12679552, 0.11579286, -0.5161936, -0.24292113, -0.10862491, 0.13528119) * go_1(0.0, 0.0);
result += mat4(-0.043000877, 0.08458555, 0.11260604, -0.5589381, -0.16010836, -0.019429926, 0.04731505, -0.12212733, 0.05655828, 0.0107375225, -0.10067243, -0.06904067, 0.07476142, -0.043922618, -0.13811466, 0.008697587) * go_1(0.0, 1.0);
result += mat4(-0.3281664, -0.104251154, 0.07188181, 0.06720938, 0.028879764, 0.07302547, 0.18261562, -0.08896491, 0.11240943, -0.1919612, -0.13059135, -0.07057044, 0.053953633, 0.17297988, -0.20344415, 0.050276734) * go_1(1.0, -1.0);
result += mat4(-0.41925356, 0.020309223, 0.2246313, -0.3418901, -0.20863962, 0.18653068, -0.04616101, 0.1236236, -0.062179156, 0.1437903, 0.1314142, 0.0699381, 0.029918872, 0.23033592, 0.09302733, -0.20570321) * go_1(1.0, 0.0);
result += mat4(0.07847491, -0.18251555, 0.0678772, -0.29089385, -0.03632992, -0.17132603, -0.04896196, 0.09839614, -0.10377483, -0.11817732, 0.03477946, 0.050376516, 0.17791937, -0.34359503, 0.030756304, 0.025246387) * go_1(1.0, 1.0);
result += mat4(-0.12972409, 0.032459006, -0.20415276, 0.31407776, -0.1743501, -0.26177478, -0.07577315, -0.104599, -0.025548192, -0.23483936, 0.40139225, 0.12898883, 0.06533049, -0.09545806, -0.032093894, 0.0032956926) * go_2(-1.0, -1.0);
result += mat4(0.22749326, -0.20613275, -0.23030083, -0.29994026, -0.18482473, -0.038720988, -0.13339107, -0.1394514, 0.36952803, -0.2709558, -0.14104684, -0.17859542, 0.09873891, 0.04330318, 0.15205383, 0.115995236) * go_2(-1.0, 0.0);
result += mat4(0.07534328, -0.13592403, 0.2224819, -0.06818886, -0.11952144, 0.004714797, 0.18252324, -0.08729513, 0.17198865, -0.00082568696, 0.33769485, -0.0920225, 0.173712, -0.038548574, -0.016980015, -0.13799237) * go_2(-1.0, 1.0);
result += mat4(-0.43659294, -0.19679698, -0.31969583, 0.24002865, -0.1064947, -0.08218358, -0.07990568, -0.028915526, -0.077836946, -0.012841249, -0.11685068, -0.2102985, 0.025435956, -0.21367492, 0.11001358, -0.09812692) * go_2(0.0, -1.0);
result += mat4(0.28203383, 0.09570471, -0.14503846, -0.19898729, 0.18757457, 0.16626704, -0.009997161, 0.06738176, -0.18296066, 0.11583831, -0.0025225005, 0.373547, -0.24103725, 0.3553009, 0.11984093, 0.25370696) * go_2(0.0, 0.0);
result += mat4(-0.022194814, 0.02950222, -0.121312395, 0.0040648654, 0.06509207, 0.00084966415, 0.032229617, 0.0139804585, -0.23108627, -0.004511493, -0.28217104, 0.0828633, 0.17399071, 0.2137328, 0.4731738, -0.37666738) * go_2(0.0, 1.0);
result += mat4(-0.045961298, 0.0056297607, -0.08513672, 0.093939304, 0.07252928, -0.11458939, 0.11005008, -0.1132733, 0.10369599, 0.1636998, -0.11919379, -0.08949099, 0.080640145, 0.029493907, 0.24982096, -0.10234766) * go_2(1.0, -1.0);
result += mat4(0.08474163, -0.24252129, -0.3065911, 0.11077523, 0.13397239, 0.14875948, -0.18212163, 0.006510455, -0.008477232, -0.3242149, 0.31507346, -0.19521071, -0.3610268, 0.25882444, -0.067812346, 0.20968717) * go_2(1.0, 0.0);
result += mat4(0.05730163, 0.053821165, -0.10948745, 0.04090055, 0.0161064, 0.19475192, 0.09248433, -0.027268974, -0.031323943, -0.084304914, 0.28378648, 0.44910806, -0.052243132, 0.2999386, -0.26639074, -0.2529396) * go_2(1.0, 1.0);
result += mat4(0.026707547, -0.006487042, -0.044127557, -0.016287267, 0.1417188, 0.24645403, -0.32444936, 0.20339565, 0.027596464, 0.03799474, -0.029943593, 0.058569513, -0.15013286, 0.25070968, 0.08954207, -0.14304538) * go_3(-1.0, -1.0);
result += mat4(-0.22184753, -0.0732679, 0.042815078, 0.03770516, 0.22240163, -0.043244008, -0.14883384, -0.10682856, 0.16421252, 0.20890577, 0.000585579, -0.061031006, -0.551696, -0.17770186, 0.13795924, 0.101121314) * go_3(-1.0, 0.0);
result += mat4(-0.047539327, 0.11826275, 0.458172, -0.023809819, -0.0154842585, -0.015466883, 0.03837829, -0.34703115, -0.03437818, 0.12705797, -0.042713646, -0.2518409, -0.27947584, -0.020104226, -0.022687877, 0.14169087) * go_3(-1.0, 1.0);
result += mat4(0.06269709, 0.06449363, -0.02793847, 0.04407663, -0.054694284, 0.69776016, -0.32850045, 0.19365972, -0.19002354, -0.038244195, -0.20433429, -0.34071165, 0.123992935, -0.22218247, -0.30181807, -0.03031556) * go_3(0.0, -1.0);
result += mat4(-0.06685185, -0.18313402, -0.03785641, 0.008412995, -0.017108139, 0.48937285, -0.035302214, 0.011338532, -0.08890957, 0.32343447, 0.088812076, -0.027280344, 0.40437454, -0.45940742, 0.118888274, 0.41054434) * go_3(0.0, 0.0);
result += mat4(-0.36049488, 0.100708134, 0.331516, 0.1078647, 0.12895954, 0.13425021, -0.18602797, -0.11423174, -0.10916294, 0.061013293, 0.08984191, 0.1835112, -0.10568929, -0.046648484, 0.2127872, 0.54582083) * go_3(0.0, 1.0);
result += mat4(0.19040897, 0.08670264, 0.12393752, -0.003475547, -0.37210098, 0.035628326, -0.29302806, 0.10709011, -0.20405664, -0.9748058, 0.39254782, 0.44914797, 0.032028764, 0.04227575, -0.25056216, 0.063437305) * go_3(1.0, -1.0);
result += mat4(-0.07952942, -0.13263832, 0.037877183, 0.20845042, -0.026445981, -0.010450352, -0.043147005, -0.12033961, 0.20600243, -0.046332583, -0.47056386, 0.09566825, 0.18658772, -0.3381639, -0.042662457, 0.15197653) * go_3(1.0, 0.0);
result += mat4(-0.4996296, 0.019971728, 0.10017604, 0.052051116, 0.12145858, 0.106811635, -0.056665674, -0.11708303, 0.16642408, 0.22654046, -0.04731226, -0.039967895, -0.1434505, 0.3171998, -0.19033776, -0.29952875) * go_3(1.0, 1.0);
result += vec4(0.03144068, -0.027781913, 0.04483475, 0.037489943);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.031192884, -0.015032417, 0.25046152, 0.143142, 0.09429096, 0.2090414, -0.16252424, 0.42788, -0.005667558, 0.14787567, 0.23810932, -0.13502707, 0.0006289761, -0.014052179, -0.091041535, 0.059258565) * go_0(-1.0, -1.0);
result += mat4(-0.09637771, 0.17332087, 0.123664804, 0.046110056, 0.25775972, 0.31647265, -0.1464598, 0.41624358, 0.032242253, -0.017219262, -0.35814875, 0.3348811, 0.05738627, 0.046910666, 0.014263179, -0.15797907) * go_0(-1.0, 0.0);
result += mat4(-0.06782952, 0.049666278, 0.083296575, 0.19301543, -0.05964988, 0.18332662, 0.30906975, 0.03342819, 0.12226727, 0.1226969, -0.15035193, -0.003493911, -0.007647415, -0.051491078, -0.019189527, -0.009602449) * go_0(-1.0, 1.0);
result += mat4(0.08838342, -0.055376932, 0.13949814, -0.12728734, -0.17266448, 0.35102528, 0.018773714, 0.050504927, -0.10556112, -0.014422574, -0.25474203, 0.31192264, -0.09063805, 0.010115312, -0.08702192, 0.08573518) * go_0(0.0, -1.0);
result += mat4(0.16521221, -0.01265248, -0.5292306, -0.17494588, -0.18994644, -0.41904125, -0.26261392, -0.42338082, 0.39478812, 0.20768805, 0.16483486, -0.22635488, 0.13576357, 0.17095351, 0.064293, 0.06416031) * go_0(0.0, 0.0);
result += mat4(-0.09107591, 0.1757355, 0.19841582, -0.25249094, 0.18083812, -0.12258315, 0.4074544, -0.17171176, -0.15881093, -0.22978021, -0.05622591, -0.09703007, -0.12538208, -0.06956953, -0.14475612, -0.066342294) * go_0(0.0, 1.0);
result += mat4(-0.029294115, -0.036292624, 0.19467807, -0.10223533, 0.086430565, -0.052809026, -0.23749635, 0.10364248, -0.22938702, 0.07210543, 0.03876035, -0.21014924, -0.11247329, -0.17755648, -0.05139757, -0.037780646) * go_0(1.0, -1.0);
result += mat4(0.12605286, 0.16123274, -0.13924524, -0.109194726, 0.033486, -0.24847955, 0.1264379, 0.28880134, -0.17594175, -0.1888256, -0.04508948, 0.047563452, -0.5476752, -0.23573762, -0.17183748, 0.14331517) * go_0(1.0, 0.0);
result += mat4(-0.006482806, 0.2289281, -0.03872587, -0.027272481, -0.09913351, -0.09453464, -0.1426349, 0.055076513, -0.025217436, -0.08307176, 0.0797406, 0.10166401, -0.294337, -0.3567936, 0.054015454, 0.068333104) * go_0(1.0, 1.0);
result += mat4(0.012300659, -0.040405195, 0.11190478, -0.07406065, -0.18364848, 0.035823543, -0.01621734, 0.07582391, 0.06704436, -0.0006620425, -0.022342965, 0.16496183, 0.11390146, 0.075079784, 0.13547076, -0.022227254) * go_1(-1.0, -1.0);
result += mat4(0.23038611, -0.29141426, 0.0984085, -0.20544642, -0.18859404, 0.3620387, -0.4136066, 0.32138887, -0.0047645094, 0.11271573, 0.15377328, 0.012071895, -0.029830804, 0.14384824, 0.04148142, 0.2286753) * go_1(-1.0, 0.0);
result += mat4(-0.120368056, -0.0026308578, -0.027536837, -0.13022487, 0.19286355, 0.30597997, -0.121778116, 0.29960433, -0.06231281, -0.013746478, 0.10620681, -0.02362372, -0.10042793, 0.015861828, -0.06073457, 0.11589962) * go_1(-1.0, 1.0);
result += mat4(0.1148781, -0.24268909, 0.24827103, -0.17290637, -0.14397098, -0.16708367, 0.2130187, -0.18639165, -0.13702524, 0.107212365, 0.066469796, -0.14059094, 0.19621798, -0.036907773, -0.028576817, 0.19191594) * go_1(0.0, -1.0);
result += mat4(0.061653305, -0.12716687, 0.17514701, 0.003910376, -0.00651784, 0.25642744, -0.17615528, -0.03584991, -0.051342323, -0.20178711, -0.4330863, 0.15785883, -0.14388351, 0.050646614, 0.15746376, -0.17228809) * go_1(0.0, 0.0);
result += mat4(-0.32631296, -0.020115409, -0.16132942, 0.29139966, -0.18642388, -0.15140165, 0.2106485, -0.025535548, 0.08296747, 0.037819803, 0.106129125, -0.095521644, 0.312119, -0.09383011, -0.023469942, -0.035990953) * go_1(0.0, 1.0);
result += mat4(0.012878467, -0.1599543, 0.14487906, -0.083350256, 0.074949436, -0.09346481, 0.10122695, 0.08852621, 0.11138647, -0.0072039254, -0.00842464, 0.030785646, -0.04394235, 0.10987614, 0.15378197, -0.05989409) * go_1(1.0, -1.0);
result += mat4(0.41359067, -0.04985946, 0.06845964, 0.12003392, 0.0803128, 0.2420856, -0.18877462, 0.058456603, -0.02516271, 0.010639022, -0.04928307, -0.023084244, 0.06001203, 0.06881964, -0.12117699, -0.2680374) * go_1(1.0, 0.0);
result += mat4(0.09667388, 0.16247103, 0.105098106, 0.12871382, 0.063410334, 0.029997706, 0.048323907, -0.075631075, 0.034694012, -0.029085271, -0.003785678, -0.05397498, -0.1783155, -0.13680255, 0.024786513, -0.0041952017) * go_1(1.0, 1.0);
result += mat4(-0.23904142, -0.102619216, -0.21049559, -0.07428196, -0.046321787, -0.09432119, 0.08803711, -0.1660408, 0.31880215, 0.11605265, -0.086603194, 0.119239025, 0.06773056, 0.18591799, 0.0058458247, 0.05242187) * go_2(-1.0, -1.0);
result += mat4(0.12521484, -0.23739336, -0.16784379, -0.10277679, -0.18505791, 0.061825443, 0.12762548, -0.16664176, 0.20004764, -0.1400315, 0.35610282, -0.19706382, 0.046386316, -0.155162, -0.0425219, 0.0010560523) * go_2(-1.0, 0.0);
result += mat4(0.14500342, -0.0046809237, -0.1278097, 0.041527335, 0.11831141, -0.059155047, -0.17391829, 0.0059517594, -0.18033625, -0.379706, 0.11636179, -0.13310274, 0.047523372, 0.0029333998, -0.1512301, 0.1361489) * go_2(-1.0, 1.0);
result += mat4(-0.23058943, -0.08937329, 0.07061336, 0.08555644, 0.09255573, -0.15303029, 0.08891002, -0.42177418, 0.0950346, 0.20212616, 0.3866544, 0.07922501, -0.04093803, -0.10997976, -0.07189613, -0.21220057) * go_2(0.0, -1.0);
result += mat4(-0.04484278, 0.2386453, 0.27855012, 0.011022442, 0.0409283, 0.1937425, 0.060258046, 0.2633126, -0.54181176, 0.19643608, -0.28907844, 0.04247623, -0.37548354, -0.24831985, -0.52362055, -0.4442409) * go_2(0.0, 0.0);
result += mat4(0.014318134, 0.047169194, -0.07291308, 0.21408482, -0.01503884, 0.027093383, -0.11724912, -0.052458502, 0.1676504, 0.5505249, 0.22394833, -0.17126445, 0.13671164, -0.18371153, -0.456313, 0.14297491) * go_2(0.0, 1.0);
result += mat4(0.00063476624, 0.16339731, -0.031160444, 0.18237135, 0.025692228, -0.04895109, 0.033651803, -0.002480504, 0.34582126, -0.039352335, -0.004698449, 0.12789944, -0.08318657, -0.007492543, -0.12888806, 0.03684109) * go_2(1.0, -1.0);
result += mat4(-0.06481498, 0.14330916, 0.17366715, -0.028045174, 0.080571376, 0.18343642, -0.11593154, -0.077227145, 0.1973531, 0.3085006, -0.28876102, 0.06434657, 0.16654246, -0.28144804, 0.3234261, -0.026636604) * go_2(1.0, 0.0);
result += mat4(-0.084783904, 0.03651458, 0.020044886, -0.10723048, 0.04165204, 0.04072967, 0.037039082, -0.09042298, 0.19693066, -0.21291414, -0.040890995, -0.15434273, -0.07450638, 0.27289733, 0.06332989, -0.037289053) * go_2(1.0, 1.0);
result += mat4(-0.004840926, 0.048929166, 0.015578959, 0.03571025, -0.2184971, 0.094020076, -0.17748803, 0.32877877, -0.035392962, -0.28398407, -0.13072185, -0.21858144, -0.24103665, -0.32654533, -0.063572675, -0.008728733) * go_3(-1.0, -1.0);
result += mat4(0.0060240547, 0.029166108, -0.023887299, 0.037508924, 0.04231956, 0.1503379, 0.17414866, -0.25778973, -0.14774446, -0.12541369, -0.32502824, 0.28957245, -0.030400498, 0.05351274, 0.13189505, -0.21329227) * go_3(-1.0, 0.0);
result += mat4(0.2198507, -0.49962172, -0.16456802, 0.08402717, -0.094403476, -0.1978019, -0.19233316, 0.055013265, 0.01668743, -0.117106654, -0.0745593, -0.09377295, 0.050370943, 0.07410238, 0.13543247, -0.23753798) * go_3(-1.0, 1.0);
result += mat4(0.008572295, 0.11890422, -0.047157902, -0.03717175, -0.35570037, 0.060663674, 0.109250925, -0.16135052, 0.030490266, 0.30335435, 0.38949126, 0.44852075, -0.09788441, 0.43574813, -0.30050707, 0.24572986) * go_3(0.0, -1.0);
result += mat4(0.29497403, -0.30934516, 0.05756695, -0.15919119, -0.121505864, -0.028917443, -0.07419939, 0.13863774, -0.04398897, 0.32990414, 0.38306457, -0.030523712, 0.72267497, 0.33932966, 0.07839862, 0.11931982) * go_3(0.0, 0.0);
result += mat4(0.26952964, -0.31019664, 0.07061176, -0.23266664, 0.14124376, 0.3597343, -0.17694736, 0.22935267, -0.12335108, -0.086614646, -0.10635, 0.22585274, -0.27139255, 0.05963002, 0.2852169, -0.3743854) * go_3(0.0, 1.0);
result += mat4(0.0970178, -0.014084432, -0.0504985, 0.1570353, 0.091999866, 0.23429315, 0.12914294, 0.03267318, 0.5849793, 0.38205758, -0.31792474, -0.07992281, 0.022620765, 0.22215942, -0.23093775, 0.0026896205) * go_3(1.0, -1.0);
result += mat4(-0.06753083, -0.20358866, 0.173053, 0.13768815, 0.013206715, 0.06310567, 0.17349118, -0.12714109, 0.0405548, -0.18409975, 0.3441249, -0.24606577, -0.18814458, -0.039655812, -0.15961805, 0.08212082) * go_3(1.0, 0.0);
result += mat4(0.06746224, -0.1595078, 0.15284725, -0.057313897, -0.1229526, 0.11482664, -0.0021675595, -0.00026835455, -0.0653958, -0.0967453, -0.09400396, -0.021233113, 0.23587836, 0.2982212, -0.039116163, 0.012201323) * go_3(1.0, 1.0);
result += vec4(0.049680557, 0.01432493, 0.04349397, 0.040003702);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.07314084, 0.08021976, -0.08299374, -0.21340942, -0.0088407695, 0.04742526, -0.038566757, -0.058931205, 0.0009213959, 0.19193986, -0.05906689, -0.0038934543, -0.12937409, 0.100754194, 0.1683601, 0.07552924) * go_0(-1.0, -1.0);
result += mat4(-0.022257961, 0.08347593, -0.02279838, 0.10150892, -0.02083181, 0.07064587, 0.26308942, -0.13609628, 0.023648601, 0.1475858, 0.12856342, 0.2650287, -0.038316045, -0.35173503, 0.09157486, 0.16609442) * go_0(-1.0, 0.0);
result += mat4(-0.13746555, 0.15315081, -0.032931942, 0.07487079, 0.09694968, 0.014459765, 0.06814075, -0.059461202, 0.25045857, -0.0071333316, 0.067206055, -0.21697883, 0.023228496, -0.13146883, 0.07486156, -0.030696157) * go_0(-1.0, 1.0);
result += mat4(-0.0069204876, -0.18402638, 0.085326575, 0.18288516, 0.036785558, -0.019116882, 0.017438713, 0.029095992, 0.10944869, -0.09473364, 0.10444152, -0.028845368, 0.0909169, -0.10593229, 0.14518781, 0.05546837) * go_0(0.0, -1.0);
result += mat4(0.53389466, -0.018921841, -0.05050542, 0.21149407, 0.3041209, -0.2594824, -0.18464427, 0.20736529, 0.18971719, -0.05058395, -0.13514072, -0.009045264, 0.20910244, 0.29242986, 0.28958234, 0.2870443) * go_0(0.0, 0.0);
result += mat4(0.03259606, 0.2126493, 0.6004735, 0.14007168, -0.1424266, 0.04352873, 0.17071731, 0.10630275, -0.2755667, 0.27345222, -0.06420644, 0.032743722, 0.026045147, -0.23541754, 0.01393772, -0.1476582) * go_0(0.0, 1.0);
result += mat4(0.06258474, -0.040185593, -0.092409454, -0.095720276, 0.050550956, -0.026547447, 0.099580996, 0.04878719, 0.15659782, -0.007606541, -0.061156776, 0.11329769, -0.019249229, 0.028775204, -0.24508974, -0.052828208) * go_0(1.0, -1.0);
result += mat4(-0.16975857, -0.008542089, 0.30186546, 0.33199415, 0.03747256, 0.15057808, 0.017838268, -0.030345246, 0.019341556, 0.3217693, 0.24844399, 0.06951953, -0.10805396, -0.08874898, -0.068681985, -0.2677526) * go_0(1.0, 0.0);
result += mat4(-0.06813968, 0.087481484, -0.11338694, -0.08698839, -0.07585716, 0.079565816, -0.066336565, 0.050449606, 0.11338618, 0.38572344, 0.0024759274, 0.12706435, 0.16759671, 0.0254419, -0.06910047, -0.21917519) * go_0(1.0, 1.0);
result += mat4(0.0039553675, -0.17838223, 0.038052835, 0.027201787, 0.06518285, 0.08250212, -0.052679926, -0.021249574, -0.13604519, 0.12234797, -0.16008313, -0.07422232, -0.0930264, -0.07480355, -0.0067053377, 0.13964424) * go_1(-1.0, -1.0);
result += mat4(-0.05491681, 0.16191071, -0.13063031, -0.2889149, -0.045188528, 0.29249623, -0.061093148, -0.083284624, -0.19250835, -0.103631295, -0.23577131, 0.108691126, 0.028907659, -0.2708106, 0.06986715, 0.22996326) * go_1(-1.0, 0.0);
result += mat4(-0.07838976, -0.063634194, 0.06297176, -0.09969828, 0.10518915, 0.062185638, 0.033053298, 0.023406805, -0.2801067, -0.13414349, -0.02466297, -0.1110011, 0.040580552, 0.033576507, 0.07127022, -0.068416506) * go_1(-1.0, 1.0);
result += mat4(-0.05786512, 0.17169164, -0.09276801, -0.1444394, 0.13971466, -0.168134, 0.012722911, 0.06788442, 0.02493809, 0.04105174, 0.09471395, 0.21363391, -0.12093948, 0.067423604, -0.054669242, 0.06764739) * go_1(0.0, -1.0);
result += mat4(0.2954526, 0.15885043, -0.05164922, 0.3646313, 0.013329013, 0.044056762, 0.01717495, -0.030439444, 0.32433322, -0.29044852, 0.32627285, 0.150364, 0.14502852, -0.22193567, -0.18879528, 0.018430077) * go_1(0.0, 0.0);
result += mat4(-0.2973998, -0.41863972, 0.0048396075, 0.06709588, -0.12029818, -0.05315725, -0.11457002, 0.0071458486, 0.26290894, 0.11030596, 0.082195595, -0.27480638, -0.011602335, 0.019122265, -0.18927693, -0.24246486) * go_1(0.0, 1.0);
result += mat4(0.09974451, 0.07223917, -0.09586719, -0.08288307, -0.06436462, -0.027324842, -0.0019976476, 0.19203754, 0.015929956, -0.12534836, -0.0038582094, 0.11275662, -0.031039666, 0.010430081, -0.023713758, -0.21801127) * go_1(1.0, -1.0);
result += mat4(0.054167796, 0.0634282, -0.047591783, -0.06402415, -0.0709014, 0.082054086, 0.28418478, 0.06584792, -0.18744822, -0.006312915, -0.0075474046, 0.0829434, -0.032414634, 0.19225785, -0.082302466, -0.3142319) * go_1(1.0, 0.0);
result += mat4(-0.0026932533, -0.110426664, 0.021643564, -0.14368293, -0.0048789545, 0.11043582, -0.040021945, 0.058764413, -0.009000321, 0.10833911, 0.05681704, -0.039960742, 0.0014395626, 0.022780152, -0.09172437, -0.085687816) * go_1(1.0, 1.0);
result += mat4(0.12509525, -0.18352552, -0.07638094, -0.00756009, 0.05407378, -0.14584734, -0.08163636, -0.13222884, 0.039648265, -0.15960212, 0.074228585, 0.009451507, 0.17933762, -0.17743796, 0.007834195, 0.0037116117) * go_2(-1.0, -1.0);
result += mat4(-0.10942205, 0.1585392, 0.040241007, 0.10526164, 0.16979292, 0.29029292, -0.009487742, 0.24926443, -0.1047842, 0.03604099, 0.19281772, 0.03798268, 0.17581491, 0.25031644, 0.055782937, -0.30455682) * go_2(-1.0, 0.0);
result += mat4(0.06714908, -0.09112766, -0.022286715, 0.09795178, -0.014092309, 0.26703134, 0.15334776, 0.33441234, 0.13753732, -0.13819148, 0.22796239, 0.16050872, 0.05523446, 0.082806356, -0.053028688, -0.0400533) * go_2(-1.0, 1.0);
result += mat4(-0.028462043, 0.18224953, 0.026658487, -0.15048791, 0.106156826, -0.07361365, 0.3529029, 0.06473894, -0.032005392, 0.037034214, 0.039220046, -0.012491292, -0.09503139, 0.0444902, -0.31978187, -0.2923563) * go_2(0.0, -1.0);
result += mat4(-0.3674723, 0.22560489, 0.38837367, 0.17128418, -0.0948159, 0.6298207, 0.59135467, 0.3350841, -0.1859739, 0.31080073, 0.03317792, 0.20958795, -0.097624235, -0.07605166, 0.10135128, -0.08953993) * go_2(0.0, 0.0);
result += mat4(0.320043, 0.002823138, -0.08849585, -0.06356955, 0.19898786, 0.272037, 0.1241285, 0.18131523, -0.05760319, -0.19315276, -0.033923294, 0.09981398, -0.07670874, -0.25949827, 0.062826484, 0.011877337) * go_2(0.0, 1.0);
result += mat4(-0.019341033, -0.03938962, 0.10163529, 0.05033707, -0.03194324, -0.13427012, 0.16106506, -0.05596736, -0.04438277, 0.0045224032, 0.20575951, -0.10359912, 0.03423479, -0.17256664, 0.32534334, -0.09378658) * go_2(1.0, -1.0);
result += mat4(0.19792143, 0.038506437, -0.21047395, -0.27926794, 0.23113485, -0.053830303, 0.4963027, 0.34639266, 0.108149074, -0.10592886, 0.09575202, 0.12385147, 0.08751849, -0.050622147, 0.033647005, 0.2588364) * go_2(1.0, 0.0);
result += mat4(0.04931599, -0.14498134, 0.0073008477, -0.05298649, 0.29398152, 0.16829367, 0.089691155, -0.01749789, 0.20039341, -0.13137043, 0.1884996, -0.03018221, -0.06793498, -0.03220071, 0.06326444, 0.017898731) * go_2(1.0, 1.0);
result += mat4(0.011310341, 0.15556115, -0.08003895, -0.07396207, -0.06434896, -0.14684777, -0.019239893, 0.009520887, 0.013242985, -0.12733786, -0.040152796, 0.0064262203, 0.087119006, 0.08165867, 0.12353576, 0.002600503) * go_3(-1.0, -1.0);
result += mat4(0.14877501, -0.056240283, -0.11846124, 0.16736585, -0.0018247389, 0.0095979795, -0.07605829, 0.13583913, -0.008851887, 0.16578445, -0.04152669, -0.059164364, -0.021962654, 0.312347, 0.0129089225, -0.097307086) * go_3(-1.0, 0.0);
result += mat4(-0.122485265, 0.06891502, -0.1807204, 0.10579281, -0.0061903363, -0.025644284, 0.08879091, -0.09492319, -0.019361734, -0.10903786, -0.08949264, 0.055067465, -0.027095577, -0.06629012, -0.05580654, 0.045552503) * go_3(-1.0, 1.0);
result += mat4(-0.025895944, 0.18728323, 0.09764548, 0.49504116, -0.030123139, -0.012580951, 0.090377375, -0.18767111, -0.06874367, 0.11378584, 0.0127285635, -0.101479106, 0.07010412, -0.02272616, -0.03455195, 0.040611476) * go_3(0.0, -1.0);
result += mat4(-0.58637494, -0.13186562, -0.26627728, -0.40135092, 0.19139144, 0.27310577, 0.07761293, 0.10058002, -0.3126869, -0.07982417, 0.04237517, 0.25126198, -0.17133251, 0.122523, -0.0053142905, -0.22283912) * go_3(0.0, 0.0);
result += mat4(-0.0023953887, 0.30968156, -0.1303385, 0.046937056, 0.20530851, 0.07276076, -0.086923674, -0.17881633, 0.08715105, 0.25641996, -0.22557895, -0.0017721896, -0.2347971, -0.07164777, -0.103000194, 0.22468017) * go_3(0.0, 1.0);
result += mat4(-0.12947787, -0.05199853, -0.0899567, 0.087013826, 0.018399805, 0.14997742, -0.20396905, -0.20554177, -0.014265392, 0.048660364, 0.07077151, -0.05911514, 0.003051989, 0.07242704, -0.16232954, 0.19634365) * go_3(1.0, -1.0);
result += mat4(0.13121666, 0.03174777, 0.07853035, -0.04881682, 0.10043158, -0.036237933, -0.2178651, -0.06562213, 0.021113047, 0.0068006255, -0.16305129, -1.9600706e-05, -0.14886445, -0.17729987, -0.17907865, 0.21547341) * go_3(1.0, 0.0);
result += mat4(-0.03263096, -0.064234234, 0.03990361, 0.09057224, -0.05704657, -0.107518636, 0.09328312, 0.014857798, -0.060736485, -0.033695858, -0.07943859, -0.0054049506, -0.072932534, -0.023306495, -0.06615389, 0.029145932) * go_3(1.0, 1.0);
result += vec4(0.0052180276, 0.022526434, 0.022657124, 0.016289035);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf1
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.012031344, 0.0075636036, -0.033211436, 0.018453801, -0.23412584, -0.113123864, 0.068607934, -0.018517016, -0.19748597, -0.2571716, -0.026148321, -0.00019766031, 0.012040108, 0.12122093, 0.0714374, -0.10087335) * go_0(-1.0, -1.0);
result += mat4(-0.029292978, -0.025254043, -0.034099232, 0.085234866, 0.24252516, 0.076297395, -0.12717746, -0.03457669, 0.033755753, -0.0531509, -0.04005856, -0.20840853, -0.0078028045, 0.12575904, -0.010887013, -0.046326064) * go_0(-1.0, 0.0);
result += mat4(-0.003266499, -0.017687857, -0.012221699, -0.2251586, 0.00208294, 0.007880196, 0.09037794, 0.08328994, -0.0428717, 0.027112724, 0.08032711, 0.1513152, -0.043068174, 0.07987632, -0.008801098, 0.08133886) * go_0(-1.0, 1.0);
result += mat4(-0.1827595, 0.18459928, -0.1918044, -0.05324067, -0.1705114, -0.01887987, -0.14486305, -0.17456877, -0.18964832, -0.07162095, -0.13871318, -0.046433818, -0.018604748, -0.11131921, -0.08050445, -0.08619502) * go_0(0.0, -1.0);
result += mat4(-0.0717377, -0.12163745, 0.18497953, -0.08643892, 0.0007879318, -0.050351888, 0.17640385, 0.17240365, -0.14958718, -0.056793597, 0.03742872, -0.1015922, 0.3117469, -0.39953762, 0.0152286505, -0.13784732) * go_0(0.0, 0.0);
result += mat4(0.07879097, -0.39204946, -0.07003556, -0.24708183, -0.058046583, -0.09865189, -0.048411854, -0.05027539, -0.12736927, -0.23946127, -0.08323304, 0.028160958, -0.059784077, -0.0064917994, 0.038013496, 0.08928725) * go_0(0.0, 1.0);
result += mat4(0.07403741, -0.004601062, 0.13563065, 0.054981887, -0.08022936, 0.022921488, -0.053264186, -0.016605966, -0.20883927, -0.19978985, -0.058101434, 0.15126002, 0.020758694, 0.12837122, 0.13368484, 0.1443778) * go_0(1.0, -1.0);
result += mat4(-0.08701922, -0.041025855, -0.03362371, -0.19846733, -0.009003309, 0.06708822, 0.06784735, 0.049892817, 0.123487085, -0.008921262, -0.0883188, -0.09103165, 0.070733, 0.1474191, -0.08228257, 0.12713781) * go_0(1.0, 0.0);
result += mat4(0.16015989, 0.19007389, -0.12680867, 0.056614764, -0.008470681, 0.099433914, 0.008811413, -0.09471121, -0.09722353, 0.0649324, 0.021527816, -0.21614286, 0.07569941, -0.16433574, -0.0069269636, 0.16142729) * go_0(1.0, 1.0);
result += mat4(-0.08708631, -0.017263759, 0.034016605, -0.009168008, -0.16427393, -0.11225274, -0.005249783, 0.13672975, -0.0844234, -0.022700429, 0.109927036, -0.041033685, -0.064794436, 0.015655773, -0.03411672, -0.12218549) * go_1(-1.0, -1.0);
result += mat4(-0.016761513, -0.027447775, -0.01290059, 0.0007822344, 0.07433617, -0.035145793, -0.03797909, -0.16871531, -0.029095095, -0.2073536, 0.12309633, -0.16626619, -0.04203133, -0.018517911, -0.06946039, -0.11132114) * go_1(-1.0, 0.0);
result += mat4(0.11052091, -0.030863507, -0.03229482, 0.11673996, -0.0455341, -0.00649463, 0.020642368, 0.04092308, 0.20173405, -0.012926573, -0.0244531, 0.055338163, -0.01835753, 0.024072325, -0.06893433, 0.048774183) * go_1(-1.0, 1.0);
result += mat4(0.3568486, -0.14506009, -0.13730963, -0.027905643, -0.37042627, -0.016187102, 0.12948507, 0.016912838, -0.089135066, -0.15287507, -0.092210636, 0.043153215, 0.2077129, 0.04429632, -0.107345045, -0.015176141) * go_1(0.0, -1.0);
result += mat4(-0.33605802, -0.22235338, 0.1270437, -0.23185425, 0.29133183, -0.005394921, -0.07139614, -0.049961478, 0.017125877, 0.499106, -0.0048643304, -0.14794266, -0.06752325, 0.29848218, 0.11979753, 0.033426132) * go_1(0.0, 0.0);
result += mat4(0.11241839, -0.09014392, -0.011629057, 0.17028853, -0.100855775, 0.100789815, -0.05269513, 0.06573697, 0.27869916, -0.057539526, -0.04528007, 0.30135208, -0.02261679, 0.0688468, 0.059139624, 0.13873443) * go_1(0.0, 1.0);
result += mat4(0.04780322, -0.008265764, -0.014270074, 0.0834061, 0.055182222, -0.059819162, 0.010733226, -0.040952608, -0.14509161, 0.17645077, 0.05801798, -0.042507146, 0.24863482, 0.1040497, -0.045867782, 0.120007925) * go_1(1.0, -1.0);
result += mat4(0.12579694, 0.09167574, 0.21078496, 0.052945495, -0.05036728, -0.11384816, -0.07594621, -0.09991826, 0.010668207, -0.05676672, -0.06273805, -0.06883917, -0.2184931, -0.1647689, -0.056467786, 0.109850615) * go_1(1.0, 0.0);
result += mat4(-0.11352159, 0.026516005, 0.042277884, 0.14155892, -0.017015357, -0.03407179, 0.014961351, -0.13766216, 0.20035928, -0.038310144, 0.002857473, -0.04447413, 0.011375937, -0.07345281, 0.01680756, 0.0089689195) * go_1(1.0, 1.0);
result += mat4(0.18048844, 0.025165293, -0.013590799, 0.21590467, 0.026852742, -0.06107904, -0.0012434963, 0.047840245, -0.07294931, -0.011157553, 0.11376999, -0.0086454, -0.028179385, -0.11118097, -0.15483098, 0.19983171) * go_2(-1.0, -1.0);
result += mat4(-0.15175144, 0.2142459, 0.1478812, -0.14039889, -0.19821295, -0.37290373, 0.19691283, 0.115997985, 0.1284214, 0.19273835, -0.096292645, -0.022643294, 0.15401742, -0.2267051, -0.15150996, 0.099672556) * go_2(-1.0, 0.0);
result += mat4(-0.068340585, -0.017279925, 0.04846922, -0.034003776, 0.055793036, -0.25135002, -0.03544407, -0.56164503, -0.19032021, -0.009258663, 0.070812754, -0.08191077, 0.047685042, -0.020684654, -0.07035788, 0.0132855335) * go_2(-1.0, 1.0);
result += mat4(0.19441503, -0.15030424, 0.12302495, 0.047762766, -0.095896654, -0.15033515, 0.007605368, 0.0570889, -0.038431447, -0.08560695, -0.0029293734, -0.01375586, 0.047505997, 0.014071177, 0.1479392, 0.25642776) * go_2(0.0, -1.0);
result += mat4(-0.28587586, -0.39141047, -0.3444917, -0.2408476, -0.64026415, -0.35294148, -0.1317, -0.21601357, 0.12164572, -0.48452628, 0.16729403, -0.21575572, 0.41301385, 0.017696327, 0.057344552, -0.27020162) * go_2(0.0, 0.0);
result += mat4(-0.033119988, 0.0012006643, 0.08465847, 0.015564506, -0.124659166, -0.09455984, 0.0035544615, -0.35156307, -0.15252608, 0.016244112, 0.0138391815, -0.04670501, 0.1383293, -0.037926193, 0.025957817, 0.1730784) * go_2(0.0, 1.0);
result += mat4(-0.012701927, -0.025511298, -0.06721094, -0.07040279, 0.06377799, 0.13967788, -0.14234799, -0.058825023, 0.041205924, -0.00032473358, -0.055379577, -0.033738375, 0.13665317, -0.02562686, -0.18523781, -0.06958092) * go_2(1.0, -1.0);
result += mat4(0.17461562, 0.07647785, -0.02202248, 0.21096313, -0.22494456, 0.10868611, -0.33091828, -0.27529812, -0.25206757, 0.1884099, -0.17850949, -0.1006927, 0.045536183, -0.100012675, 0.061030168, -0.025509179) * go_2(1.0, 0.0);
result += mat4(0.0337314, -0.052486207, -0.05584458, 0.0969859, 0.18508333, -0.04521821, -0.08331424, 0.076726556, 0.118076116, 0.019730117, 0.022492286, 0.09869008, -0.115276754, 0.097966135, 0.023186501, -0.060849246) * go_2(1.0, 1.0);
result += mat4(-0.09427026, 0.14057149, -0.07478311, 0.029171692, 0.14987083, -0.08649628, -0.01750609, 0.06958318, 0.085471064, -0.058146793, -0.029388946, 0.10720532, -0.030614216, 0.17328379, -0.03433174, -0.022483094) * go_3(-1.0, -1.0);
result += mat4(-0.085193954, -0.1348099, 0.07675298, -0.25627816, -0.07467235, -0.18559869, 0.100543626, -0.2201029, -0.015106581, -0.013150452, 0.10482805, -0.04446529, -0.15954255, 0.13659625, -0.10310867, -0.010787774) * go_3(-1.0, 0.0);
result += mat4(-0.13365999, 0.02036792, -0.09569852, -0.088586286, 0.18445042, -0.14354594, -0.09319419, 0.084703825, -0.018052364, 0.04344066, -0.0589665, -0.0065992875, 0.030960705, 0.08472253, -0.022175593, -0.020301547) * go_3(-1.0, 1.0);
result += mat4(-0.12315616, 0.05191162, 0.3044562, -0.066225395, 0.13523789, 0.24786936, -0.2531183, 0.008910162, 0.3662465, 0.2633546, -0.11816884, -0.108501054, -0.30446148, 0.094746254, 0.22515038, -0.048324294) * go_3(0.0, -1.0);
result += mat4(0.34875512, 0.22885701, -0.22425419, 0.30605644, 0.13452671, 0.16655035, -0.10293953, 0.23753232, -0.5908745, -0.15148452, -0.3885865, 0.14085245, -0.12627047, -0.09645269, 0.101941, -0.062304396) * go_3(0.0, 0.0);
result += mat4(-0.18468879, 0.11713357, 0.04766135, -0.25752118, 0.076471716, 0.06850848, -0.06427401, 0.028061042, 0.017875634, 0.09589284, -0.020327348, -0.1585817, 0.19669123, 0.10955879, -0.18545902, -0.074755065) * go_3(0.0, 1.0);
result += mat4(0.1056897, 0.08521911, -0.017700022, -0.004319419, 0.15351436, -0.11358399, 0.065656774, 0.101860404, 0.08894655, -0.060075074, 0.14363492, -0.10447328, -0.27426496, -0.19959188, 0.16687778, -0.09456175) * go_3(1.0, -1.0);
result += mat4(-0.05424188, -0.16305181, 0.028440254, -0.013702167, -0.010122417, -0.13160124, 0.08733208, 0.111403994, -0.13586052, 0.016545279, 0.12953275, -0.01298413, 0.19755821, 0.029597677, 0.004327247, 0.093656704) * go_3(1.0, 0.0);
result += mat4(-0.016224308, -0.020333769, 0.015944391, -0.044774864, 0.09308092, -0.06174809, 0.009493231, 0.00109714, 0.030341865, 0.0085925255, 0.023199126, 0.029012285, 0.050746094, 0.15161276, 0.053011492, -0.022610705) * go_3(1.0, 1.0);
result += vec4(-0.034925383, -0.0010656221, -0.023427188, -0.021127155);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_last_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.009722335, -5.8660436e-05, -0.0069387504, -0.0052446183, -0.040276118, 0.0041334885, -0.013106614, -0.0047898176, -0.008160448, 0.011272557, -0.008908942, -0.015969492, 0.036588583, -0.0069453213, 0.03697349, 0.024233166) * go_0(-1.0, -1.0);
result += mat4(0.07749142, -0.0112727145, 0.064222045, -0.015094554, 0.0032031287, 0.03247034, -0.016756386, 0.023846423, -0.028618578, 0.02300731, -0.015894018, 0.037608027, 0.014199439, -0.043177396, -0.004832348, -0.05518754) * go_0(-1.0, 0.0);
result += mat4(0.008171211, -0.016406616, 0.04668373, -0.0020393482, -0.008888379, 0.001380358, -0.008963435, 0.0012900458, -0.030172894, -0.0017824832, -0.037534058, 0.000615256, 0.030373376, 0.002216906, 0.04730168, -0.0028000386) * go_0(-1.0, 1.0);
result += mat4(0.060749017, 0.006499037, -0.03925888, -0.043421242, 0.0014141012, -0.040274277, 0.020051334, 0.02141008, -0.0046555796, -0.032477897, 0.02811765, 0.014327698, 0.008681297, 0.044408746, -0.028984996, 0.00985357) * go_0(0.0, -1.0);
result += mat4(0.22245905, 0.2221309, 0.21369153, 0.17244695, -0.16802068, -0.09160697, -0.13712268, -0.104401335, -0.18699472, -0.117237985, -0.13240008, -0.121350996, 0.027870163, 0.09320937, 0.07950856, 0.08880132) * go_0(0.0, 0.0);
result += mat4(-0.002709059, -0.0070304363, 0.10570918, 0.08184527, -0.014383472, -0.020202143, -0.0810668, -0.054163996, -0.018711304, -0.035145987, -0.098869935, -0.06942387, -0.011235106, 0.008683168, -0.02585752, 0.024761796) * go_0(0.0, 1.0);
result += mat4(-0.017611317, 0.033189557, 0.0014886355, 0.0063918163, 0.0033280635, 0.00871624, 0.018652624, 0.0072240643, 0.028240945, 0.027274653, -0.0044101775, 0.012503479, -0.009022953, -0.0037992215, 0.007457012, -0.0075594983) * go_0(1.0, -1.0);
result += mat4(-0.042642962, 0.061122447, -0.0661494, 0.046923082, 0.014721836, -0.07878182, 0.013244828, -0.047850955, 0.016932828, -0.07947459, 0.05953852, -0.007192553, -0.022235982, -0.026965706, -0.034282424, -0.007242096) * go_0(1.0, 0.0);
result += mat4(-0.012262586, -0.014608243, -0.0039572082, 0.045586918, 0.011789637, 0.00811699, 0.004699602, -0.032348834, 0.017336411, 0.00069143757, 0.000303623, -0.061924953, -0.0064005707, -0.0043993946, -0.008697915, -0.012118654) * go_0(1.0, 1.0);
result += mat4(-0.0012260727, 0.006306051, -0.004919151, -0.014706935, 0.06893623, -0.03855539, 0.0025126948, -0.013461133, 0.051023327, -0.015535766, -0.0125827445, -0.059677888, -0.0021585734, -0.019920474, -0.025212945, 0.017173553) * go_1(-1.0, -1.0);
result += mat4(-0.014818789, -0.004695369, 0.11874947, -0.025116654, -0.010446815, -0.015087738, 0.060040206, -0.053225394, -0.059700467, -0.0084348805, 0.11633143, 0.01912765, -0.046732634, 0.02437617, 0.014276953, -0.017528424) * go_1(-1.0, 0.0);
result += mat4(0.03403683, 0.035661116, -0.05422196, 0.00086722866, 0.0069361166, 0.0030528181, 0.0011153776, 0.0040823813, -0.052100085, 0.016703505, -0.16275159, 0.019807467, -0.0046826405, -0.01290693, -0.00867241, -0.0074261916) * go_1(-1.0, 1.0);
result += mat4(0.091117546, 0.050540023, -0.018510593, -0.007402161, -0.1193577, 0.018770888, -0.011340929, -0.02110343, -0.032088384, 0.010691935, 0.004420295, -0.025953075, 0.047472738, 0.108008265, 0.007997121, -0.03855365) * go_1(0.0, -1.0);
result += mat4(-0.21882823, -0.18101972, 0.13662423, 0.3109504, -0.101242945, 0.3064065, -0.22530204, 0.2612257, -0.07345098, 0.31937975, -0.15872811, 0.23400135, -0.04057178, -0.11676629, -0.34227282, -0.18310128) * go_1(0.0, 0.0);
result += mat4(-0.01088255, 0.026722692, -0.0071181543, -0.07676996, -0.054152276, -0.08521186, -0.029249348, 0.005593179, 0.012496848, -0.055432145, 0.06396825, 0.056608576, -0.006908986, 0.018192623, -0.027572934, 0.03749799) * go_1(0.0, 1.0);
result += mat4(-0.00788736, 0.032808263, -0.0034198891, -0.01124656, 0.014423269, 0.058434688, 0.0139339, 0.0024755867, 0.042650267, 0.01773591, 0.017099075, 0.00094137667, 0.033293027, 0.008411577, 0.018532667, 0.016402127) * go_1(1.0, -1.0);
result += mat4(0.0013495176, -0.05906597, -0.011892358, -0.04260839, 0.0040078545, -0.12263263, -0.005952629, -0.031151159, 0.009523005, -0.04784067, 0.07216081, 0.007988283, -0.010771301, -0.019751243, 0.017268918, -0.1053882) * go_1(1.0, 0.0);
result += mat4(0.021729292, -0.006699109, -0.017977247, -0.008347603, 0.030392287, -0.035512295, 0.047333952, -0.061986152, -0.00917743, -0.023669569, -0.051791556, -0.057909377, -0.008901611, -0.010565621, -0.022557132, -0.06957076) * go_1(1.0, 1.0);
result += mat4(-0.096115954, 0.013176027, -0.046984393, -0.0064583416, -0.13834997, -0.024369081, 0.049557988, -0.013092948, 0.10623086, -0.0071193436, 0.025198812, -0.00963305, -0.051104847, 0.009814798, 0.0050332784, 0.0058091953) * go_2(-1.0, -1.0);
result += mat4(0.03568169, 0.01623718, -0.0020163557, 0.043042913, 0.027783269, -0.06342661, 0.10441675, 0.031614527, -0.17076227, 0.07228563, 0.04167568, 0.022664918, 0.0002446228, 0.01977757, -0.14741875, 0.03596493) * go_2(-1.0, 0.0);
result += mat4(-0.028803155, 0.02343672, -0.037556753, 0.004386295, 0.023776755, -0.0024816473, 0.0017886858, -0.005105568, 0.008360341, -0.008270227, -0.12140172, 0.047693867, -0.03565588, -0.0082427105, 0.012581843, 0.0018308035) * go_2(-1.0, 1.0);
result += mat4(0.17737128, -0.23239174, 0.14191973, 0.0083567705, 0.022397157, -0.20152177, 0.076320365, 0.11157701, 0.005601583, -0.06157629, -0.060806494, 0.03030779, -0.17968388, -0.2081318, 0.051927045, 0.075377926) * go_2(0.0, -1.0);
result += mat4(-0.28773892, -0.26089972, -0.13325682, -0.46006975, 0.35241324, 0.29463127, -0.16573308, 0.022810405, 0.388681, -0.036075145, 0.2998638, -0.15629162, 0.14321181, 0.10493886, -0.052218314, -0.27016288) * go_2(0.0, 0.0);
result += mat4(0.03584634, 0.006315728, -0.08617273, -0.024391597, -0.016952977, 0.022077272, 0.12980743, 0.04512367, 0.003348057, 0.0946866, 0.16312122, 0.13436604, -0.011872978, -0.031965427, 0.0024880085, 0.033216927) * go_2(0.0, 1.0);
result += mat4(0.016087456, 0.043138605, -0.028770814, 0.0061788377, 0.024897626, 0.10882443, -0.036830436, -0.009145524, -0.057872005, 0.08097352, -0.024710376, 0.0068731857, -0.018163942, -0.04771538, 0.027653048, 0.01914395) * go_2(1.0, -1.0);
result += mat4(0.011542096, -0.073137596, 0.09102133, 0.049714323, -0.06767178, 0.070273116, -0.010473078, -0.120707616, -0.026583942, 0.0730171, -0.08226194, 0.105516605, 0.018596884, 0.05840729, 0.04693975, 0.0863541) * go_2(1.0, 0.0);
result += mat4(0.0127724055, 0.02520005, -0.028792456, -0.06910211, -0.019357776, -0.026941938, 0.05015806, 0.12642363, -0.01354065, -0.015913904, 0.009398767, 0.034318734, -0.0034223567, -0.0146218045, -0.0067832484, -0.010091871) * go_2(1.0, 1.0);
result += mat4(-0.02916006, 0.014765165, 0.004575115, 0.0110705905, 0.024664888, 0.003658985, 0.0073659574, 0.0013673811, 0.02650946, 0.014014751, 0.026595473, 0.01877218, 0.016845545, -0.0031619575, -0.011036392, -0.014638798) * go_3(-1.0, -1.0);
result += mat4(0.012505482, 0.0023665216, -0.010882385, 0.009143886, -0.030671602, -0.004167823, 0.003649345, -0.00058618153, -0.038002256, -0.0061475867, -0.017000455, -0.015222981, 0.0066633034, 0.013324137, 0.022223728, 0.015254626) * go_3(-1.0, 0.0);
result += mat4(-0.019684946, -0.011194834, -0.011896193, -0.009636412, 0.0064974707, -0.018297167, -0.01162353, -0.00998448, 0.022304865, -0.0044090357, -0.0013151226, 0.009721475, -0.0029337434, 0.004208434, -0.008193774, 0.005379128) * go_3(-1.0, 1.0);
result += mat4(-0.012884837, -0.057319585, -0.002133779, -0.005586696, -0.03216661, 0.0015534499, -0.004120608, 0.0040779933, -0.044278033, 0.005608415, 0.009365155, 0.04694537, 0.024845028, 0.04563515, 0.018941263, 0.011450428) * go_3(0.0, -1.0);
result += mat4(0.008597113, -0.010005085, -0.050961174, -0.07333081, 0.016683497, -0.056169543, -0.032008786, -0.037104256, -0.01117272, -0.011676191, -0.09071649, -0.049224474, 0.20027469, 0.06436799, 0.1351019, 0.069967836) * go_3(0.0, 0.0);
result += mat4(0.022842692, 0.005048976, 0.05957191, 0.026581423, 0.03748738, 0.074060254, 0.053102568, 0.046449862, -0.013734466, -0.01722293, 0.030430514, -0.02180546, 0.007762467, -0.006432996, 0.08406507, 0.034061644) * go_3(0.0, 1.0);
result += mat4(0.0048395037, 0.012762459, -0.0033284645, -0.0041399547, 0.01828778, 0.0043085683, 0.0019289661, -0.012415563, -0.023572162, -0.050695065, -0.013481175, -0.029202301, -0.03678883, -0.022862522, -0.025002036, -0.010764412) * go_3(1.0, -1.0);
result += mat4(0.0075783907, 0.016249755, 0.0178703, 0.021285253, 0.013031193, 0.025416559, 0.043989707, 0.04750125, 0.0203218, 0.00335042, -0.024657877, -0.05417159, 0.0012374326, 0.115263805, -0.035001434, 0.049407292) * go_3(1.0, 0.0);
result += mat4(0.0059729964, 0.017706383, 0.0004603757, 0.024557583, -0.014231813, 0.0022323965, -0.030447725, -0.005866556, 0.02305865, 0.02982909, 0.0549823, 0.06747715, -0.01014364, 0.0030060427, 0.01640388, 0.056874502) * go_3(1.0, 1.0);
result += vec4(0.0037637148, 0.003693704, 0.0034614028, 0.0033483643);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_last_tf1
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.009785077, -0.007310227, 0.00081595866, -0.01268686, -0.014665477, -0.003956759, -0.0011089307, -0.011515727, 0.024502382, 0.025206817, 0.004246777, -0.0016346163, -0.016379429, -0.013535791, 0.01541915, 0.0095333215) * go_0(-1.0, -1.0);
result += mat4(-0.017734146, 0.014389035, -0.0008451403, 0.013272096, 0.045607757, 0.01522117, 0.00904139, -0.001765619, 0.024920683, -0.012100507, 0.014870539, 0.0018603726, -0.030391455, 0.00632375, -0.055296343, -0.009885172) * go_0(-1.0, 0.0);
result += mat4(0.0056769922, 0.0012991864, -0.014343983, 0.0073196087, 0.0061439234, -0.0009862045, 0.0323433, 0.0018582975, -0.00815158, -0.008821831, 0.016262496, -0.014280032, 0.024239268, 0.015745653, 0.016698766, 0.014503724) * go_0(-1.0, 1.0);
result += mat4(0.039872967, -0.013257727, 0.055065673, 0.034231152, 0.086550154, 0.034081027, 0.045879394, 0.049891002, -0.011800151, -0.011743562, -0.015092318, -0.009334671, -0.017342495, -0.014658795, 0.014266523, 0.035314754) * go_0(0.0, -1.0);
result += mat4(-0.050990034, -0.06219798, -0.047669213, -0.07189862, -0.04856067, 0.031102043, 0.001354821, 0.01903025, 0.0037901315, 0.07694083, -0.016825065, 0.009997132, -0.18629807, -0.12768792, -0.104768254, -0.11861362) * go_0(0.0, 0.0);
result += mat4(0.017904822, 0.0042992756, 0.016748125, -0.025035992, -0.003724865, -0.0031921281, -0.019930473, 0.017328225, 0.024588963, 0.010205262, 0.04149686, 0.06978651, -0.022708472, -0.0057800277, -0.11644439, -0.06476094) * go_0(0.0, 1.0);
result += mat4(-0.02426752, -0.0034115477, -0.0015359819, 0.026405398, -0.013942422, 0.034148987, -0.009329464, -0.005556865, 0.010035298, 0.0042479886, -0.0045719417, -0.007970587, 0.0048700697, -0.0031006113, 0.005171075, 0.0020327016) * go_0(1.0, -1.0);
result += mat4(0.0015553721, -0.006999807, -0.027763836, -0.03493009, 0.0047000614, -0.034220867, 0.0021388065, 0.004188802, -0.007897541, -0.025793487, 0.017545879, 0.0013863312, 0.042826407, -0.050083816, 0.037378658, -0.011360738) * go_0(1.0, 0.0);
result += mat4(-0.007821516, -0.0034771548, 0.00051019643, 0.017586451, 0.01144453, 0.012032973, 0.0025295757, -0.011105711, 0.009102745, 0.015189803, -0.00083253905, -0.0025097867, -0.008002886, -0.020810502, -0.00023807488, -0.04825592) * go_0(1.0, 1.0);
result += mat4(0.005066405, 0.017425792, -0.0004840731, -0.0009944261, 0.07663847, -0.04755453, 0.004607992, -0.020050947, 0.021402068, -0.034427766, -0.0130948955, -0.042138048, 0.015383988, -0.0085578235, -0.036823586, 0.001125214) * go_1(-1.0, -1.0);
result += mat4(-0.024459356, -0.019538784, 0.13201334, -0.025238393, -0.009611914, -0.017932015, 0.06330252, -0.05036921, -0.09405187, 0.0016108088, 0.07035366, -0.026231728, -0.036375783, 0.047566332, 0.033421457, 0.011572374) * go_1(-1.0, 0.0);
result += mat4(0.03742729, 0.03181365, -0.05451164, -0.009032132, 0.017350135, -0.011311124, 0.0147211, -0.01298328, -0.011024085, 0.028534293, -0.12944345, 0.07152882, 0.005176979, -0.00048127733, -0.0063332263, -0.0034040876) * go_1(-1.0, 1.0);
result += mat4(0.06455105, 0.033970848, -0.04488856, -0.027959615, -0.094514206, 0.033421617, 0.031325165, 0.0088970335, -0.031805996, 0.007078957, 0.008114225, -0.017701747, 0.048437405, 0.12445195, 0.02138049, -0.017392302) * go_1(0.0, -1.0);
result += mat4(-0.21116845, -0.17855385, 0.12160961, 0.32197994, -0.14490715, 0.2886178, -0.28124997, 0.21847156, -0.04988429, 0.32125694, -0.118747145, 0.26057142, -0.045630034, -0.1453716, -0.3682217, -0.22081932) * go_1(0.0, 0.0);
result += mat4(0.0057057277, 0.03872448, 0.020275556, -0.05959739, 0.0150841605, -0.02288727, 0.033048235, 0.08510421, 0.01309789, -0.050875448, 0.051518645, 0.041827686, -0.028529504, -0.0015568004, -0.023128182, 0.03178304) * go_1(0.0, 1.0);
result += mat4(0.0016438053, 0.028251547, 0.0003874817, -0.021485088, 0.008020942, 0.052520994, 0.009027988, 0.004729575, 0.026685065, 0.008003427, 0.013078419, -0.008256319, 0.022743277, -0.001293671, 0.018562315, 0.016649859) * go_1(1.0, -1.0);
result += mat4(0.013438089, -0.049052995, 0.0060880547, -0.044865325, 0.031890247, -0.102749884, 0.0047795745, -0.028551944, -0.018443404, -0.061510604, 0.031782348, -0.0005923042, 0.014257579, 0.010379952, 0.02929872, -0.090405114) * go_1(1.0, 0.0);
result += mat4(0.009318741, -0.0061841, -0.02420737, 0.0018885462, 0.022010826, -0.023001686, 0.035959963, -0.057635445, 0.012495818, -0.008206369, -0.026234211, -0.04719263, 0.0057711657, -0.003004966, 0.0046920753, -0.041684203) * go_1(1.0, 1.0);
result += mat4(-0.050602015, 0.021741746, -0.059019636, -0.008416951, -0.1789153, -0.01835426, 0.03100039, -0.017736796, 0.09091737, -0.026542341, 0.010933376, -0.031898204, -0.015792761, 0.013789206, 0.031699985, 0.018964434) * go_2(-1.0, -1.0);
result += mat4(0.099863164, -0.01637541, 0.083744444, 0.011983074, 0.013478042, -0.04780451, 0.08646149, 0.050255097, -0.22476238, 0.11746969, 0.038574144, 0.069615066, 0.047265753, -0.03212485, -0.12651724, -0.0065722666) * go_2(-1.0, 0.0);
result += mat4(-0.026888395, 0.0053314343, -0.0018114679, -0.007841625, 0.00037234774, -0.005450839, -0.03730409, -0.00441375, -0.014338566, 0.002887282, -0.19375902, 0.06374498, -0.033998128, -0.03480894, 0.061709825, -0.016935369) * go_2(-1.0, 1.0);
result += mat4(0.18882285, -0.19729713, 0.064650975, -0.07342598, -0.039107442, -0.28614163, 0.081506595, 0.111678764, -0.0019596675, -0.071805045, -0.019774346, 0.055490687, -0.1405711, -0.16753702, 0.031397972, 0.054546997) * go_2(0.0, -1.0);
result += mat4(-0.007561914, 0.0010002917, 0.12623467, -0.17501056, 0.22664371, 0.2080332, -0.3194733, -0.1065412, 0.21299458, -0.23856679, 0.17237303, -0.2863369, 0.35997602, 0.354653, 0.15091361, -0.07142766) * go_2(0.0, 0.0);
result += mat4(0.02403396, 0.0037063402, -0.004992154, 0.047530055, -0.03227084, -0.0055595553, 0.06554937, -0.025955811, -0.03792351, 0.041418597, 0.04285587, -0.0118592, 0.00012291886, -0.013734975, 0.07748641, 0.14016038) * go_2(0.0, 1.0);
result += mat4(0.015037119, 0.058259863, -0.020877289, -0.0059153647, 0.04133679, 0.108832926, -0.026314106, -0.0010898053, -0.057873078, 0.07802038, -0.029681025, 0.020011986, -0.03940851, -0.038397703, 0.013701823, 0.01657068) * go_2(1.0, -1.0);
result += mat4(-0.016823404, 0.007905321, 0.034658395, 0.09977579, -0.05916761, 0.004779212, 0.018820778, -0.15795219, -0.013125517, 0.021101758, -0.055992976, 0.08024182, -0.04333755, 0.070356764, -0.030624833, 0.09123745) * go_2(1.0, 0.0);
result += mat4(-0.007931201, 0.0069976873, -0.016831044, -0.027368804, -0.03332386, -0.041667387, 0.04094055, 0.095304705, -0.006027611, -0.019209528, -0.0008929939, -0.017201519, 0.005464988, 0.0038448595, -0.01248845, 0.008877873) * go_2(1.0, 1.0);
result += mat4(-0.042160366, 0.0036025376, -0.008628986, -0.005607383, 0.028637825, 0.005296032, -0.0004143198, 0.008265197, 0.033176135, 0.014727739, 0.0145593295, 0.011159069, 0.00833305, -0.0025515268, -0.00015546188, 0.002805437) * go_3(-1.0, -1.0);
result += mat4(0.016752163, 0.013423374, -0.018342504, 0.013459657, -0.038428728, -0.005804395, 0.019692563, -0.005745392, -0.030070104, 0.01058409, 0.003989377, 0.0074200635, -0.01936366, -0.01608809, 0.0071134195, -0.0038598357) * go_3(-1.0, 0.0);
result += mat4(-0.018000437, -0.0121247275, -0.01288339, -0.0060898345, -0.006138964, -0.0035810755, -0.03902352, 0.002276941, 0.0032195079, -0.02730975, -0.011268412, -0.0036179612, -0.004836894, -0.0015986725, -0.019751905, -0.0071931942) * go_3(-1.0, 1.0);
result += mat4(0.014426659, -0.05161329, 0.019196855, 0.002317663, -0.055477437, -0.007086505, -0.04151144, -0.027518485, -0.027440753, 0.003857541, -0.002143262, 0.013090804, 0.015745236, 0.021075105, 7.93909e-06, -0.009694458) * go_3(0.0, -1.0);
result += mat4(0.0025894733, -0.017304689, -0.03299281, -0.0754248, 0.03428733, -0.03397887, 0.0108591765, 0.021311574, -0.04203291, -0.019728655, -0.09826257, -0.046157785, 0.22522739, 0.086717755, 0.15654634, 0.08489247) * go_3(0.0, 0.0);
result += mat4(0.008495083, 0.00074552774, 0.038054205, 0.013044046, -0.027891211, 0.003249458, -0.018353004, -0.035205863, -0.010195661, -0.008145831, 0.014239584, -0.019779535, 0.011452498, 0.004117014, 0.08403766, 0.04357078) * go_3(0.0, 1.0);
result += mat4(0.00020427872, 0.026861027, -0.01047743, 0.0034385168, 0.015686916, 0.00038722693, 0.0017860534, -0.021630246, -0.0084784245, -0.022648407, -0.0050631054, -0.016437376, -0.026458954, -0.011239073, -0.01145464, -0.0058855377) * go_3(1.0, -1.0);
result += mat4(-0.0012052609, 0.009248192, 0.008875674, 0.03043022, 0.012489936, 0.019402692, 0.0378006, 0.05519605, 0.029059285, -0.0072894073, 0.0014154738, -0.03802288, -0.02321437, 0.09558396, -0.0550932, 0.036936663) * go_3(1.0, 0.0);
result += mat4(0.010010094, 0.012796987, 0.0025080708, 0.013876455, -0.00536739, -0.016932324, -0.012128944, -0.0241354, 0.0077782627, 0.01584833, 0.033727348, 0.039302748, -0.026609577, -0.0062910756, -0.011042692, 0.031207075) * go_3(1.0, 1.0);
result += vec4(-0.0009249668, -0.0010178088, -0.00041991958, -0.0005421036);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_last_tf2
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.01766077, -0.017591428, -0.0038036762, -0.023304595, -0.012525157, -0.0058148014, -0.0030130956, -0.011804012, 0.030511979, 0.028687771, 0.007858589, 0.004475508, -0.02585795, -0.01785211, 0.0053741997, 0.00074623496) * go_0(-1.0, -1.0);
result += mat4(-0.040601525, 0.016486213, -0.01966552, 0.014969501, 0.05400945, 0.019022502, 0.0149923405, -0.0017570893, 0.040684238, -0.009271634, 0.026908487, 0.002365157, -0.03371985, 0.00928091, -0.058665182, -0.0047038617) * go_0(-1.0, 0.0);
result += mat4(0.0034900296, 0.0028777388, -0.02543823, 0.005724228, 0.012073974, 0.0043754885, 0.04109826, 0.008040286, -0.00049979525, -0.0063444753, 0.030565983, -0.009352674, 0.01949427, 0.014168137, 0.009640578, 0.011481213) * go_0(-1.0, 1.0);
result += mat4(0.026645018, -0.02211462, 0.06119815, 0.039082125, 0.09945218, 0.042240527, 0.054267537, 0.04693634, -0.004510591, -0.0041247807, -0.012629442, -0.008053095, -0.025141539, -0.025081929, 0.011338651, 0.029372308) * go_0(0.0, -1.0);
result += mat4(-0.102688424, -0.11533188, -0.09621349, -0.116714895, -0.025504943, 0.05013811, 0.024331303, 0.03946124, 0.026381869, 0.1011479, -0.0017481856, 0.027152762, -0.18783632, -0.13439077, -0.112003446, -0.12810163) * go_0(0.0, 0.0);
result += mat4(0.010783576, -0.00025257064, -0.0075445045, -0.04681932, -0.0021722934, -0.005758047, -0.0110701695, 0.023468157, 0.036986902, 0.023351438, 0.063143626, 0.09269854, -0.025713218, -0.011750105, -0.11722637, -0.07038934) * go_0(0.0, 1.0);
result += mat4(-0.026961634, -0.015106367, -0.0034014166, 0.02482031, -0.013892242, 0.04203608, -0.008226002, 0.004619446, 0.012888606, 0.010721662, -1.3880494e-05, -0.0033224574, 0.006727405, -0.0035630877, 0.0021499102, -0.00091816986) * go_0(1.0, -1.0);
result += mat4(0.0016877668, -0.02695227, -0.023388471, -0.053411417, 0.006777518, -0.024251794, 0.0015210172, 0.010034961, -0.00795588, -0.01645489, 0.012691467, 0.0061330614, 0.054507505, -0.041002143, 0.048495438, -0.004843492) * go_0(1.0, 0.0);
result += mat4(-0.0159168, -0.013163069, -0.0091357315, 0.0011109188, 0.022993349, 0.025777856, 0.013487494, 0.00304372, 0.014121591, 0.02415322, 0.006453722, 0.010679647, -0.00626483, -0.017908117, 0.0063728937, -0.04091484) * go_0(1.0, 1.0);
result += mat4(-0.0026799496, 0.0154166315, -0.0037383793, -0.002577431, 0.073905826, -0.043148544, 0.011774636, -0.016023275, 0.0099145975, -0.04718069, -0.013578048, -0.04220935, 0.018033838, -0.0025958812, -0.029762078, 0.0034059538) * go_1(-1.0, -1.0);
result += mat4(-0.03239311, -0.025743088, 0.1116615, -0.027325295, -0.014691433, -0.013614988, 0.05034416, -0.04294835, -0.11013415, -0.014086726, 0.048601545, -0.04762435, -0.01944709, 0.054276068, 0.04073586, 0.019288493) * go_1(-1.0, 0.0);
result += mat4(0.027851144, 0.014083208, -0.06432852, -0.024642657, 0.021185134, -0.015441491, 0.018058551, -0.017353412, -0.018814132, 0.026259383, -0.14238997, 0.06301044, 0.007324441, 0.00494394, 0.00020533071, 0.0024405916) * go_1(-1.0, 1.0);
result += mat4(0.06092095, 0.025730716, -0.042129956, -0.026382709, -0.08284398, 0.03344148, 0.038016047, 0.0137958275, -0.025555719, 0.008199355, 0.0070835026, -0.01420561, 0.0493976, 0.121205755, 0.026178997, -0.006300481) * go_1(0.0, -1.0);
result += mat4(-0.18660638, -0.1658202, 0.116562665, 0.29287666, -0.13814074, 0.2658047, -0.270531, 0.19597577, -0.04692207, 0.28904793, -0.09829146, 0.24158104, -0.03946344, -0.12598358, -0.3361825, -0.19800447) * go_1(0.0, 0.0);
result += mat4(0.020092675, 0.049266458, 0.03696139, -0.046251137, 0.029122403, -0.008378672, 0.044602558, 0.092563495, -0.0036082428, -0.072675824, 0.030523287, 0.006169521, -0.031133244, -0.011250458, -0.026590217, 0.023079094) * go_1(0.0, 1.0);
result += mat4(0.007384019, 0.031913586, 0.002072675, -0.019807052, 0.010384438, 0.050076224, 0.010438329, 0.009595051, 0.022497892, 0.012009176, 0.009222753, -0.008563874, 0.017106988, -0.003105622, 0.01070336, 0.011805944) * go_1(1.0, -1.0);
result += mat4(0.017091183, -0.035133313, 0.012425838, -0.03395959, 0.03418688, -0.10616231, 0.0101681305, -0.03682252, -0.016497994, -0.05231084, 0.025178006, 0.008926557, 0.025942912, 0.019970346, 0.03534238, -0.07596637) * go_1(1.0, 0.0);
result += mat4(0.007215777, -0.0006424821, -0.020822426, 0.011314772, 0.0183502, -0.015352454, 0.02972497, -0.053287935, 0.024020335, -0.006380922, -0.008620774, -0.041896872, 0.021631774, 0.013320375, 0.024711635, -0.020357909) * go_1(1.0, 1.0);
result += mat4(-0.033131246, 0.027936278, -0.047840517, 0.0019488486, -0.17501047, -0.0178374, 0.02549812, -0.019010937, 0.079489246, -0.027291514, 0.004313802, -0.03478066, -0.004887971, 0.019281879, 0.04073947, 0.022658588) * go_2(-1.0, -1.0);
result += mat4(0.110482916, -0.021340236, 0.09848104, 0.0034104201, 0.0032655075, -0.04557326, 0.07156056, 0.045965493, -0.22822224, 0.115162075, 0.027745042, 0.07251069, 0.05100454, -0.034554593, -0.11214564, -0.009064197) * go_2(-1.0, 0.0);
result += mat4(-0.017621655, 0.01024623, 0.009554872, -0.00078690174, -0.0069463328, -0.014670676, -0.041410644, -0.007414249, -0.031177497, -0.007517117, -0.20814678, 0.049873244, -0.02482445, -0.031338003, 0.06920326, -0.015171424) * go_2(-1.0, 1.0);
result += mat4(0.18918292, -0.15450309, 0.05504167, -0.061840136, -0.057958793, -0.28908864, 0.06820344, 0.09923399, -0.008387437, -0.075379215, -0.01747373, 0.048925415, -0.13222353, -0.15354146, 0.022480693, 0.04943612) * go_2(0.0, -1.0);
result += mat4(0.0469381, 0.05393423, 0.1681062, -0.10543653, 0.17948511, 0.16570628, -0.33344334, -0.13197891, 0.16509773, -0.26174626, 0.13757275, -0.29244694, 0.35424834, 0.35368237, 0.156861, -0.04775442) * go_2(0.0, 0.0);
result += mat4(0.026892537, 0.0075510717, 0.015918663, 0.06070227, -0.02288592, 0.0027507204, 0.05279965, -0.03042772, -0.044760384, 0.0234673, 0.01604264, -0.04277388, 0.0011313064, -0.0052253264, 0.08374709, 0.14929597) * go_2(0.0, 1.0);
result += mat4(0.016119812, 0.061383534, -0.013537205, -0.0017921093, 0.043676157, 0.09811408, -0.015655283, 0.0007943268, -0.053843908, 0.069290705, -0.028319253, 0.020141726, -0.038996387, -0.03628716, 0.012679114, 0.015012319) * go_2(1.0, -1.0);
result += mat4(-0.02019775, 0.022393003, 0.020688228, 0.10277296, -0.06365119, -0.015666502, 0.012721399, -0.16204305, -0.0037819904, 0.012113873, -0.040969223, 0.069086574, -0.052415807, 0.060331605, -0.04201384, 0.07953157) * go_2(1.0, 0.0);
result += mat4(-0.0019123453, 0.012750492, -0.007235785, -0.01268919, -0.038674437, -0.043993857, 0.028753003, 0.07664717, -0.015077012, -0.027486047, -0.011141094, -0.030269727, 0.0016567699, -0.003331901, -0.021631587, -0.00040226072) * go_2(1.0, 1.0);
result += mat4(-0.03769701, 0.0045639244, -0.0069983527, -0.0064906892, 0.03318896, 0.011733902, 0.0023203227, 0.013374876, 0.037507236, 0.018019466, 0.013330661, 0.009231364, 0.00018865235, -0.005706915, -0.00011657552, 0.0038968239) * go_3(-1.0, -1.0);
result += mat4(0.022072105, 0.019486066, -0.013029048, 0.017470635, -0.03662149, -0.011397823, 0.02397534, -0.008561204, -0.026196644, 0.01626692, 0.011886567, 0.021061733, -0.03310679, -0.025446283, -0.006469576, -0.010118362) * go_3(-1.0, 0.0);
result += mat4(-0.014853227, -0.0062806485, -0.005624992, 0.0017175867, -0.007843849, 0.0008925535, -0.041000694, 0.0049381475, 0.0019743184, -0.035099152, -0.01074269, -0.0128827905, -0.010841019, -0.0093286475, -0.030476939, -0.018505717) * go_3(-1.0, 1.0);
result += mat4(0.016344415, -0.04647131, 0.021242643, 0.004836572, -0.061090752, -0.006488986, -0.050970413, -0.029668579, -0.015889898, 0.010811246, 0.0018357672, 0.012481409, 0.008317143, 0.009978102, -0.0015472731, -0.011174326) * go_3(0.0, -1.0);
result += mat4(-0.004087798, -0.01634328, -0.031607483, -0.068488315, 0.038035624, -0.02797923, 0.017972443, 0.029961389, -0.029277585, -0.015558678, -0.08634699, -0.039436456, 0.19870138, 0.06507983, 0.130592, 0.059745777) * go_3(0.0, 0.0);
result += mat4(-0.0028183246, -0.008089249, 0.02188247, 0.0049699014, -0.03830487, -0.0079993615, -0.028960107, -0.045729056, 0.0021651732, 0.010072074, 0.031335246, 0.0012719089, 0.015795005, 0.011290197, 0.08071912, 0.04273827) * go_3(0.0, 1.0);
result += mat4(-0.0011167483, 0.024682038, -0.009224286, 0.005520499, 0.014198537, -0.0032909375, 0.0005767499, -0.02676088, -0.0019766665, -0.015222206, -0.00080782827, -0.011807755, -0.02560086, -0.015391911, -0.008948504, -0.0062184683) * go_3(1.0, -1.0);
result += mat4(-0.009399661, -0.0019192873, 0.000261681, 0.020112153, 0.0077712294, 0.019477246, 0.030144244, 0.053777162, 0.030650103, 0.0021887033, 0.0092345085, -0.029658241, -0.03723785, 0.073152155, -0.058525253, 0.023017056) * go_3(1.0, 0.0);
result += mat4(0.012911211, 0.010375983, -0.00055489264, 0.005504194, -0.004187377, -0.02239082, -0.008734182, -0.027458502, -0.005602922, 0.009588401, 0.015889015, 0.036346428, -0.038325973, -0.018252429, -0.02944341, 0.011490681) * go_3(1.0, 1.0);
result += vec4(-0.0021447246, -0.0025527438, -0.0016466968, -0.0020245572);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(L)-Depth-to-Space
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_last_tf
//!BIND conv2d_last_tf1
//!BIND conv2d_last_tf2
//!SAVE MAIN
//!WIDTH conv2d_last_tf.w 2 *
//!HEIGHT conv2d_last_tf.h 2 *
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
vec4 hook() {
vec2 f0 = fract(conv2d_last_tf_pos * conv2d_last_tf_size);
ivec2 i0 = ivec2(f0 * vec2(2.0));
float c0 = conv2d_last_tf_tex((vec2(0.5) - f0) * conv2d_last_tf_pt + conv2d_last_tf_pos)[i0.y * 2 + i0.x];
vec2 f1 = fract(conv2d_last_tf1_pos * conv2d_last_tf1_size);
ivec2 i1 = ivec2(f1 * vec2(2.0));
float c1 = conv2d_last_tf1_tex((vec2(0.5) - f1) * conv2d_last_tf1_pt + conv2d_last_tf1_pos)[i1.y * 2 + i1.x];
vec2 f2 = fract(conv2d_last_tf2_pos * conv2d_last_tf2_size);
ivec2 i2 = ivec2(f2 * vec2(2.0));
float c2 = conv2d_last_tf2_tex((vec2(0.5) - f2) * conv2d_last_tf2_pt + conv2d_last_tf2_pos)[i2.y * 2 + i2.x];
float c3 = c2;
return vec4(c0, c1, c2, c3) + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Upscale_Denoise_CNN_x2_M.glsl
+300
View File
@@ -0,0 +1,300 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.029052526, 0.059789784, -0.024398074, 0.06907132, 0.18920785, -0.12923062, 0.0766382, -0.12048348, -0.017786544, 0.06251133, -0.068393864, 0.056690093, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.14032267, -0.077691495, -0.009036259, -0.13049065, 0.20954624, 0.023231741, -0.2759354, 0.49927905, 0.039609738, -0.092625424, 0.09426452, -0.2246486, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.023119625, 0.046549924, 0.073033765, 0.03727065, 0.04498207, 0.024455868, 0.17602317, -0.3150503, 0.019985953, 0.03670126, 0.0071220254, 0.107966185, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.111121014, -0.084099665, 0.12595509, -0.048271902, -0.007799661, 0.04831373, 0.11868961, 0.11607051, 0.05169621, -0.050569464, 0.120362274, 0.034607537, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.41167754, -0.44940078, 0.35485214, 0.58048695, -1.0151424, -0.70137614, 0.38405335, 0.37337455, -0.096364655, -0.14538667, 0.17917591, 0.32259464, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.06378494, -0.040756933, -0.4773648, -0.47702238, 0.1803328, -0.21388084, -0.5509359, -0.6491179, -0.048081584, -0.0025129975, -0.28561604, -0.22229671, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(-0.037024107, 0.016497454, -0.05315267, -0.023392007, 0.1840294, 0.12675077, 0.037417043, -0.022394283, -0.028192522, -0.016344562, -0.07269005, -0.04747136, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.039480202, 0.5577544, -0.117326505, 0.06622856, -0.038784727, 0.65673745, -0.109742545, 0.22294083, 0.00038519394, 0.24552485, -0.07008514, 0.00029412706, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.009279719, -0.031882852, 0.14124188, -0.0759899, -0.024016602, 0.15252088, 0.13614258, -0.09961189, 0.05446014, -0.03827061, 0.11210173, -0.028823104, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(0.012836382, -0.0062823873, -0.03165346, -0.0017501811);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_tf
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.06215308, -0.054471835, 0.1285146, 0.037585296, -0.14467795, 0.0057610427, 0.006528968, 0.18607244, 0.03762581, -0.121003255, 0.0827445, 0.076479666, 0.07540097, 0.16371846, -0.18786757, -0.12048073) * go_0(-1.0, -1.0);
result += mat4(-0.11520603, -0.22384967, 0.0970881, 0.045122143, -0.40358877, 0.12487416, -0.4489702, 0.04854906, -0.08240888, -0.0058777514, 0.19108902, 0.042189106, -0.07843178, 0.0012592699, -0.11303816, -0.1118517) * go_0(-1.0, 0.0);
result += mat4(0.29387334, 0.08150406, -0.06009834, 0.07054583, -0.146034, 0.04053809, 0.23284695, -0.08233496, 0.0957811, 0.20221621, 0.13570721, -0.081069246, -0.031743366, -0.038912926, -0.059060514, 0.05190416) * go_0(-1.0, 1.0);
result += mat4(0.18404631, -0.034244366, -0.13406059, 0.2242061, -0.23668705, -0.10359684, -0.09689738, -0.04932347, -0.0020525968, 0.15236467, -0.2634303, -0.029878438, 0.3283669, 0.09891668, -0.46656898, -0.03271751) * go_0(0.0, -1.0);
result += mat4(-0.1824976, -1.0545974, 0.93027455, -0.13887188, 0.3128633, -0.2734884, -0.831517, -0.18065166, -0.2119423, 0.19241124, -0.13313763, -0.10523897, 0.2675327, -0.06853148, 0.007885104, 0.26000848) * go_0(0.0, 0.0);
result += mat4(-0.18109167, -0.019768981, -0.14131357, -0.3181756, 0.22158594, 0.1431138, -0.12970252, -0.011459096, -0.03742945, 0.2316056, -0.054623842, -0.09360549, 0.10176328, -0.108150974, 0.122787155, 0.07614884) * go_0(0.0, 1.0);
result += mat4(-0.02370754, -0.10264054, 0.030659392, 0.056694325, 0.034085, -0.0538203, 0.09111551, 0.0063995267, 0.0835243, -0.06623529, 0.20924146, 0.09457414, 0.27925664, 0.049511474, -0.22062886, 0.03312504) * go_0(1.0, -1.0);
result += mat4(0.17009354, 0.34391564, -0.1680695, -0.051450633, -0.044037253, -0.1412577, 0.01097572, -0.049040757, 0.104024716, -0.34571946, 0.5213214, -0.17010914, -0.016452854, 0.3303069, -0.22249438, 0.23866816) * go_0(1.0, 0.0);
result += mat4(0.20491506, 0.20098424, 0.015425732, -0.033999693, -0.0111842435, 0.09945295, -0.025766203, 0.17068656, 0.049262784, 0.0077788536, 0.068585835, 0.19229786, -0.013048818, 0.04877973, 0.024053875, -0.06846659) * go_0(1.0, 1.0);
result += mat4(0.14208305, 0.09790381, -0.008420949, -0.016165754, 0.02445528, 0.08700781, 0.046639573, -0.22105917, -0.08529265, 0.06606378, 0.0947481, 0.08149193, -0.0959293, -0.037756894, -0.008136973, 0.046241503) * go_1(-1.0, -1.0);
result += mat4(0.2577669, 0.13766493, 0.021107635, 0.018978242, 0.452542, 0.25566816, -0.68909633, 0.03804329, 0.06771752, 0.07894156, 0.22501312, -0.047511246, 0.00040517355, -0.0202232, -0.27541754, -0.040150844) * go_1(-1.0, 0.0);
result += mat4(-0.30176973, -0.15739526, -0.038548045, -0.07003333, 0.32053417, 0.025467036, -0.044913124, 0.20454903, 0.12475206, -0.03966162, 0.07139637, 0.12101497, -0.10777517, -0.062379625, 0.06598757, -0.14795317) * go_1(-1.0, 1.0);
result += mat4(0.12068516, 0.0026514034, -0.055378057, -0.0976728, 0.15887645, 0.15590422, 0.076294206, -0.15417404, -0.16548084, -0.18422292, -0.1670212, 0.041155312, -0.11765263, 0.16991171, -0.21535093, 0.01542368) * go_1(0.0, -1.0);
result += mat4(-0.37845853, 0.5732961, 0.114283465, 0.14638355, -0.109194644, 0.087304994, -0.15938401, 0.58242995, -0.025850652, 0.02730721, -0.48582682, -0.2547883, 0.1899583, 0.24296008, -0.8162976, 0.018036429) * go_1(0.0, 0.0);
result += mat4(0.1633212, -0.117295206, 0.021892091, 0.07762347, -0.09726402, -0.1364192, 0.10752197, 0.42020246, 0.06665656, -0.10822656, 0.1337331, 0.0552859, 0.04700212, 0.108017646, -0.2009353, -0.0435288) * go_1(0.0, 1.0);
result += mat4(-0.045603696, 0.05774526, -0.0071174325, 0.24119262, -0.06899063, 0.016012343, 0.009982042, -0.19038968, -0.17796072, -0.12510185, 0.22739507, -0.1805478, -0.100294635, 0.017557602, 0.039842658, 0.13116726) * go_1(1.0, -1.0);
result += mat4(0.0131523665, -0.20472725, 0.121814765, -0.17769355, 0.097669855, 0.09648846, -0.072887406, 0.22992326, -0.019087939, 0.35375193, -0.057155706, 0.17699116, 0.030690158, -0.423475, 0.03703492, -0.03429164) * go_1(1.0, 0.0);
result += mat4(-0.12143413, -0.018402342, 0.04536776, -0.12743106, 0.03355068, -0.09694192, 0.09913357, -0.036602203, 0.11038047, 0.13236065, 0.12966877, -0.10163848, 0.0030612876, -0.116145626, 0.045318183, 0.11492169) * go_1(1.0, 1.0);
result += vec4(0.05657016, -0.04848861, 0.10297782, -0.0076417355);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_1_tf
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.088122115, -0.009916053, -0.124469265, -0.032139737, -0.13709281, 0.09177288, -0.06794775, -0.03962873, 0.17613642, -0.11064388, 0.2531882, -0.3817648, -0.1172188, -0.042132895, -0.098772734, -0.114560865) * go_0(-1.0, -1.0);
result += mat4(0.18876404, -0.14613804, 0.23869626, 0.06580185, -0.13533239, 0.25754455, -0.29734856, 0.028218834, -0.39304733, -0.14716247, 0.19408274, -0.18518063, -0.31482637, -0.1508887, -0.3841371, 0.021975968) * go_0(-1.0, 0.0);
result += mat4(-0.22316615, -0.0923483, 0.16932568, -0.13138154, 0.139829, 0.010975908, -0.0587337, -0.054484393, -0.13758336, -0.030077504, -0.050642505, -0.14933856, -0.040563874, -0.030220931, 0.2867556, 0.17022403) * go_0(-1.0, 1.0);
result += mat4(0.12611523, -0.07087836, 0.08281469, 0.024588918, -0.023549056, -0.13102995, 0.17571726, 0.0740372, -0.3167631, 0.17491543, 0.4459055, -0.4687942, -0.19755729, 0.03723031, -0.06757113, 0.03502462) * go_0(0.0, -1.0);
result += mat4(0.12098187, 0.12341856, -0.061940372, 0.7251308, 0.055730965, -0.5169302, 0.37959704, -0.08753306, -0.45700142, -0.4960699, 0.1690022, -0.40233734, 0.0262836, -0.13345262, 0.11002605, -0.16773209) * go_0(0.0, 0.0);
result += mat4(-0.20428565, 0.117523015, -0.044863444, -0.1770644, 0.22925, 0.029694336, -0.23891294, 0.039587863, -0.11235541, -0.23890465, 0.037618574, -0.039127905, 0.14058869, 0.020599412, -0.074353516, 0.12343045) * go_0(0.0, 1.0);
result += mat4(-0.04680316, -0.049870726, 0.06975308, -0.21486782, -0.08177838, 0.09760846, -0.031408366, 0.13881667, -0.14650045, 0.29182404, -0.080848776, -0.25525567, 0.018876432, -0.015662232, -0.016014043, -0.08435915) * go_0(1.0, -1.0);
result += mat4(-0.100864016, -0.24647528, -0.007994345, 0.13047779, 0.14746517, 0.25517163, 0.054900885, -0.07251866, -0.29500577, -0.03758923, 0.05514366, -0.058372885, -0.03055354, -0.062586576, 0.017739896, 0.08644674) * go_0(1.0, 0.0);
result += mat4(-0.029502464, -0.08905223, 0.0047584837, -0.09646073, 0.044714086, 0.15522493, -0.070930906, -0.026954453, 0.057949875, -0.017211404, -0.00566463, -0.0050975676, 0.0050182147, -0.010722001, 0.011812942, -0.04698445) * go_0(1.0, 1.0);
result += mat4(0.18863353, -0.11575336, 0.26541254, -0.15280409, 0.14376, -0.05783716, 0.08554402, 0.27605456, 0.004611954, 0.074173525, -0.07963756, 0.082979314, 0.099553905, -0.06539344, 0.4330784, 0.07996894) * go_1(-1.0, -1.0);
result += mat4(-0.31001288, 0.035875235, 0.049856357, -0.09614268, 0.23397788, -0.12425775, 0.45108303, 0.27973723, 0.0753222, 0.11388394, -0.043821793, -0.05610102, -0.06536777, 0.009822641, 0.7956708, -0.05798737) * go_1(-1.0, 0.0);
result += mat4(0.19827974, 0.010130333, -0.13153136, 0.11593003, -0.15762039, -0.0040722084, 0.20404483, 0.28999883, 0.08152756, 0.07773477, 0.019730574, 0.0123460535, -0.034676805, -0.19133334, 0.01860159, -0.12945038) * go_1(-1.0, 1.0);
result += mat4(-0.1861255, 0.039945368, 0.28345293, -0.17425321, 0.36748698, 0.03729066, -0.35957313, 0.11234573, -0.07122196, 0.012845119, -0.09049443, 0.10106711, 0.07425845, -0.14626606, 0.46169114, -0.2652126) * go_1(0.0, -1.0);
result += mat4(-0.6222811, -0.08538015, 0.023319554, -0.7206892, -0.33495513, 0.2960924, -0.033479776, -0.29255456, 0.29802337, 0.47570458, 0.012769826, 0.19874385, -0.25652033, -0.4018595, 0.3055839, 0.1881051) * go_1(0.0, 0.0);
result += mat4(0.32152474, 0.0024920676, -0.113435976, 0.14440896, -0.287736, 0.0251382, 0.28160754, 0.02769615, 0.067614004, 0.0832741, -0.095353454, -0.19792004, -0.40394694, -0.24224225, 0.3224996, 0.030300485) * go_1(0.0, 1.0);
result += mat4(0.0045148246, -0.04621849, -0.026470715, 0.0588576, 0.14559188, 0.037437905, -0.13778603, 0.08173416, 0.033548757, -0.015654223, 0.15016593, 0.07761835, -0.016546778, 0.02640291, 0.112717085, 0.020371364) * go_1(1.0, -1.0);
result += mat4(0.114227325, -0.0405595, -0.11662477, 0.014747093, 0.11170598, 0.58740836, -0.27560827, -0.1848705, -0.02491223, -0.15605451, 0.0028677192, -0.11290364, -0.12331832, -0.3191161, 0.3505101, 0.15236251) * go_1(1.0, 0.0);
result += mat4(0.21131381, 0.13965495, -0.103683874, 0.26049778, -0.010777816, 0.015093082, 0.13207617, 0.14064828, -0.007847294, 0.025702007, -0.082993574, -0.04923462, -0.052900862, -0.006775377, 0.1432969, 0.09598549) * go_1(1.0, 1.0);
result += vec4(0.08015534, 0.10264796, -0.031173404, 0.21282151);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_2_tf
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.13262276, 0.18682314, -0.1433667, -0.0061677806, -0.15057871, -0.15389217, 0.40721065, -0.082456455, 0.028175479, -0.06136406, 0.13517159, -0.0066659097, -0.03311807, -0.056219388, 0.066265404, -0.017012158) * go_0(-1.0, -1.0);
result += mat4(0.0652481, -0.02717338, -0.17586891, -0.1458622, 0.37166637, -0.13651049, -0.095090784, 0.1450258, -0.08856753, -0.029000161, -0.11024598, 0.14231622, 0.027118085, 0.060637098, -0.028174674, 0.020973917) * go_0(-1.0, 0.0);
result += mat4(0.17137158, 0.015818363, -0.1761587, -0.07798954, -0.22039492, -0.08250406, 0.15350278, 0.05466543, 0.07231244, 0.124937475, -0.14530692, -0.036220204, -0.20202135, 0.16154502, -0.1472417, 0.045183204) * go_0(-1.0, 1.0);
result += mat4(-0.06751513, 0.3630837, -0.23374555, -0.17641832, 0.23866339, -0.12625019, 0.14955078, 0.3757683, 0.25546572, -0.0009440543, -0.029705383, 0.12500505, 0.039303612, 0.02745342, 0.06280759, -0.027673393) * go_0(0.0, -1.0);
result += mat4(-0.40253955, 0.5532656, 0.15580782, 0.23305601, 0.04307387, -0.37548792, 0.021682428, -0.14554474, -0.44655007, 0.12335231, 0.22693188, -0.19185324, -0.39905196, -0.36661598, 0.34626722, 0.3220371) * go_0(0.0, 0.0);
result += mat4(0.13051705, -0.051269528, 0.027860573, 0.12866034, 0.095374286, 0.0072371624, 0.06641015, -0.040609945, 0.14411138, 0.03813084, 0.024812538, -0.069997884, -0.2398024, 0.16384888, 0.004522481, -0.2734798) * go_0(0.0, 1.0);
result += mat4(-0.048976544, 0.36923414, -0.23769425, -0.02964149, 0.13426293, -0.070416726, -0.036279447, 0.21007125, -0.0062456504, 0.12307804, -0.18920022, 0.016429992, 0.091225415, -0.00714184, -0.079064, 0.050525308) * go_0(1.0, -1.0);
result += mat4(0.007005748, -0.1929285, -0.27960134, -0.014070343, -0.012031938, -0.21320626, 0.22591045, 0.06750757, 0.038049847, -0.08933499, 0.15640227, 0.36653376, 0.11274315, 0.0015512784, -0.14319079, -0.41117874) * go_0(1.0, 0.0);
result += mat4(0.039254356, 0.04123307, -0.14476523, 0.19676228, -0.1746638, 0.068685316, 0.19318552, -0.007086376, -0.08810745, 0.041937724, 0.1393943, 0.27539206, -0.08331265, 0.043064818, -0.02783017, -0.13006629) * go_0(1.0, 1.0);
result += mat4(0.18761271, -0.009960496, -0.18572417, 0.010640895, 0.10240658, 0.036137953, -0.109363064, 0.05820501, -0.04092678, 0.11809751, -0.11843415, 0.11893309, -0.06356792, 0.1509876, -0.12252014, -0.0070098704) * go_1(-1.0, -1.0);
result += mat4(-0.0012312894, 0.038436964, -0.046054237, 0.04859312, -0.4190657, 0.2529927, 0.23133701, -0.00065297337, -0.039581586, 0.00905735, 0.16532114, -0.12568031, 0.17818217, -0.28053075, 0.38509414, -0.03763847) * go_1(-1.0, 0.0);
result += mat4(-0.0897875, 0.063593514, 0.07660054, 0.12268424, 0.21554653, -0.1025501, 0.2557211, 0.04492533, 0.10992355, -0.035215836, -0.009733763, -0.02165148, 0.08618596, -0.19276536, 0.18174514, -0.18021213) * go_1(-1.0, 1.0);
result += mat4(-0.002999377, -0.12630916, -0.030010369, -0.2676409, -0.20229307, 0.15253967, -0.12200155, -0.1552754, -0.16193017, 0.10819683, 0.10696224, -0.1920264, -0.29354608, -0.32021165, 0.08644405, -0.16153689) * go_1(0.0, -1.0);
result += mat4(0.49931613, -0.3669461, -0.49107462, -0.3654748, 0.32047966, 0.03246311, -0.06424334, 0.009108802, 0.2367612, -0.46587244, 0.16957493, 0.3237888, 0.93676794, 0.01834384, -0.9349752, -0.04654371) * go_1(0.0, 0.0);
result += mat4(-0.112562165, 0.006074484, -0.12288025, -0.08560263, 0.25336134, 0.025205871, 0.25063732, 0.12370882, -0.40429187, 0.12992847, -0.2816234, 0.08179623, 0.27197668, 0.066299304, -0.12988937, 0.16257611) * go_1(0.0, 1.0);
result += mat4(0.047864527, -0.05821779, -0.06311128, -0.0065775234, -0.065763995, 0.014864688, 0.09148591, -0.25059348, 0.008846306, -0.22123712, 0.4062609, -0.100248575, -0.50293785, -0.13373566, 0.21480446, -0.0841981) * go_1(1.0, -1.0);
result += mat4(0.19313097, -0.061253734, -0.1801314, -0.20178059, -0.039574936, 0.08167749, 0.010974997, 0.069656976, -0.13193963, 0.35555324, 0.62686867, -0.28656846, -0.27831817, -0.0040086447, 0.4031064, 0.47767937) * go_1(1.0, 0.0);
result += mat4(0.15396428, 0.069321476, -0.15190981, -0.24133344, 0.106151104, -0.11271092, 0.06878746, 0.14279713, -0.02006402, -0.36284852, -0.00926688, -0.39887694, -0.20926239, -0.021860912, 0.07588468, 0.2620174) * go_1(1.0, 1.0);
result += vec4(-0.0073282495, -0.040352557, -0.063710704, 0.07255652);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_3_tf
//!SAVE conv2d_4_tf
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.17903937, -0.0014294779, 0.1824805, -0.19555633, -0.0052551827, -0.013796094, 0.06358042, 0.13301018, 0.008874768, 0.06605332, 0.06117636, 0.012946474, 0.048656575, 0.0060409275, -0.0671362, -0.06897735) * go_0(-1.0, -1.0);
result += mat4(-0.16098012, 0.10772552, -0.13175552, -0.5299018, 0.068713695, -0.048258893, -0.49698257, 0.36581638, 0.21755004, -0.12125899, -0.27382872, -0.12268086, 0.014334542, 0.20573758, 0.45879167, -0.29648975) * go_0(-1.0, 0.0);
result += mat4(0.06860283, -0.18047708, 0.024707617, 0.11900479, 0.09474589, -0.16559775, -0.054095846, -0.011377782, -0.008733984, 0.105020404, -0.040116277, -0.0022003972, 0.1453799, -0.032110006, -0.018741792, -0.12511599) * go_0(-1.0, 1.0);
result += mat4(0.20024729, -0.01969923, -0.026999667, -0.39064395, -0.14559332, -0.11634086, -0.13226044, 0.11779975, -0.08838282, -0.0882447, -0.23166943, -0.15760234, 0.030928904, -0.032423917, 0.20324136, -0.19692755) * go_0(0.0, -1.0);
result += mat4(0.49499384, 0.7327846, -0.6173799, -0.53821295, -0.15000962, 0.11169762, 0.6942423, 0.07956513, 0.06913002, -0.19037646, -0.19826908, 0.68080276, -0.2747096, -0.15832238, 0.47366706, 0.090432756) * go_0(0.0, 0.0);
result += mat4(-0.18274948, 0.09204629, 0.16644076, 0.05641037, 0.03328184, -0.6218293, 0.26432592, -0.093742386, 0.33038342, -0.24853565, -0.23683667, -0.37430722, -0.20684583, -0.32283148, -0.07633969, -0.08765815) * go_0(0.0, 1.0);
result += mat4(0.06821987, 0.06395764, -0.14685121, -0.15894371, -0.093540885, 0.057568345, -0.048376244, -0.009256543, -0.26325077, -0.03193119, -0.16857445, -0.02404981, 0.110593356, 0.042911418, 0.06626762, -0.0312436) * go_0(1.0, -1.0);
result += mat4(0.3108626, 0.37123847, -0.082249805, -0.21339422, -0.3756041, -0.08518717, -0.16853802, 0.011641729, -0.30096757, 0.26942274, -0.08990497, -0.19451031, 0.21974437, -0.04231723, 0.26160353, -0.040834647) * go_0(1.0, 0.0);
result += mat4(0.11795158, 0.24436565, 0.043223023, -0.0159957, -0.19689156, 0.13223267, -0.013983249, 0.09437164, -0.47648698, -0.00082660443, -0.085406005, 0.10885898, 0.104696035, -0.053257108, 0.024389362, 0.0282572) * go_0(1.0, 1.0);
result += mat4(0.032890156, 0.0115719065, -0.01898909, -0.03034875, -0.041037276, -0.1026382, 0.03337663, 0.20108728, -0.00023235095, -0.018033072, -0.028535927, 0.07359915, 0.075182244, 0.02959868, 0.15107772, -0.09815672) * go_1(-1.0, -1.0);
result += mat4(-0.004040557, 0.06707476, 0.039022792, 0.52437925, -0.08027356, 0.040488366, 0.035332825, 0.07683081, -0.03521227, -0.081861034, 0.090804815, 0.10580108, 0.20452882, -0.58755285, 0.04303056, 0.41562977) * go_1(-1.0, 0.0);
result += mat4(0.09290062, 0.03495193, 0.02347216, -0.012873525, -0.076936446, 0.1453216, -0.03742271, -0.14174925, -0.058219753, 0.19095406, 0.055627216, 0.09437343, -0.010424211, -0.314692, 0.3314579, -0.053285643) * go_1(-1.0, 1.0);
result += mat4(-0.053961687, 0.1483992, 0.042458896, -0.1966439, 0.13864957, 0.07587672, -0.06519269, 0.09530391, 0.04215073, 0.039545458, 0.21056756, 0.09972659, 0.02987125, -0.08102741, 0.07075036, 0.21867757) * go_1(0.0, -1.0);
result += mat4(-0.5512795, 0.03104814, 0.27901977, 0.122875504, -0.2656715, 0.007895486, -0.6735937, 0.20810314, -0.31432617, 0.07420857, 0.2573659, -0.35361463, 0.19826569, -0.47774056, 0.15816487, -0.29203883) * go_1(0.0, 0.0);
result += mat4(0.35078493, -0.07371588, -0.026663188, -0.20976657, -0.009644347, 0.037428845, -0.33933878, -0.010807704, 0.088060796, 0.16753472, -0.12296045, 0.17563403, 0.1501952, 0.07353703, 0.32531765, 0.11667607) * go_1(0.0, 1.0);
result += mat4(0.096126616, -0.058021486, -0.03439203, 0.06868024, 0.047914367, 0.026945053, 0.04207778, 0.046023168, 0.16024022, 0.07846185, 0.004195093, 0.07272046, -0.10458233, -0.0904536, 0.16049337, 0.015941419) * go_1(1.0, -1.0);
result += mat4(0.032256138, -0.055398785, 0.079738356, 0.113359064, 0.11975066, -0.074372105, 0.102006756, -0.011490042, 0.15155345, 0.0025528704, 0.23328577, -0.059241068, -0.067783386, -0.18220833, 0.0057692174, 0.039900843) * go_1(1.0, 0.0);
result += mat4(-0.06173998, -0.07121991, -0.01118306, -0.063749574, -0.032665797, 0.0014987896, 0.03113169, 0.06916617, 0.0066490914, -0.052818965, -0.050131317, 0.10337558, -0.030870482, -0.14671221, 0.12152145, -0.05003445) * go_1(1.0, 1.0);
result += vec4(-0.010524109, -0.008519857, -0.08958723, -0.07917139);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_4_tf
//!SAVE conv2d_5_tf
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.11029161, 0.027180295, -0.115622066, 0.16493714, 0.29633296, -0.11739625, -0.36390316, 0.15221693, -0.009233659, -0.062213745, -0.07184558, 0.07418268, -0.05182182, 0.0066014086, -0.006811494, -0.010030367) * go_0(-1.0, -1.0);
result += mat4(-0.18361749, 0.08565693, 0.24127418, -0.20478591, 0.6198113, -0.17994536, -0.011840256, 0.120292775, 0.2873902, -0.019704796, -0.062267166, 0.0104749305, -0.048370067, -0.028105626, 0.11494511, -0.15941763) * go_0(-1.0, 0.0);
result += mat4(-0.08084502, 0.10195475, -0.03200553, 0.032734055, 0.030348243, -0.028927604, 0.045914374, 0.029237835, 0.07756032, -0.06346545, -0.290196, 0.057043966, 0.13982558, -0.12195619, -0.15895663, -0.10097537) * go_0(-1.0, 1.0);
result += mat4(-0.12018707, -0.320156, -0.4089669, 0.26015735, 0.59622765, -0.05654362, 0.28581724, 0.32069868, -0.0013007161, -0.060870633, -0.2732852, 0.2357145, 0.2137239, 0.0110256495, -0.069258444, 0.113870576) * go_0(0.0, -1.0);
result += mat4(0.54700065, -0.072552234, 0.27267826, -0.26660076, 0.7043544, 0.18192886, 0.80024594, 0.2447395, -0.3289639, -0.2681839, 0.063631415, -1.0118654, 0.45691678, 0.42904988, -0.2301862, -0.6652257) * go_0(0.0, 0.0);
result += mat4(0.19215634, 0.030154131, 0.07679603, 0.50318545, 0.056434657, 0.028623195, -0.14471184, -0.13905096, -0.03254216, -0.1191584, -0.18907212, 0.49208716, 0.5069476, -0.1490824, -0.104480386, -0.06595394) * go_0(0.0, 1.0);
result += mat4(-0.08893682, 0.13113782, 0.023672188, 0.013086517, -0.25986442, 0.038162243, -0.10951209, -0.2027832, -0.013547809, -0.029482972, -0.17670235, 0.13529542, -0.0621569, -0.0979757, -0.10714689, -0.08474307) * go_0(1.0, -1.0);
result += mat4(-0.032828752, 0.00037559783, 0.023968933, -0.047482926, -0.20302027, 0.08830911, -0.20885307, -0.11137413, 0.16585048, -0.076796696, -0.030462325, -0.2020944, 0.048723634, -0.45607433, -0.29950324, -0.5867916) * go_0(1.0, 0.0);
result += mat4(0.008863689, 0.061761267, -0.039097138, 0.24465923, -0.05917457, -0.21383028, -0.085846715, -0.14150433, 0.0988731, -0.0160538, -0.045119412, 0.095252946, -0.057551738, 0.21348421, -0.03480491, -0.26071647) * go_0(1.0, 1.0);
result += mat4(-0.21351442, 0.10038809, 0.34001955, -0.100911774, 0.0208522, -0.028755441, 0.025793588, 0.013080005, 0.03849989, 0.13662058, 0.04311886, 0.17398632, -0.01397261, -0.016415505, -0.0070752064, 0.007656161) * go_1(-1.0, -1.0);
result += mat4(-0.280189, 0.09252764, -0.077729605, 0.12662902, -0.10433321, 0.03644144, -0.06625324, 0.05696802, 0.15468478, 0.08328583, 0.069849946, 0.061947342, -0.05560477, -0.0074776993, -0.15365681, -0.03526299) * go_1(-1.0, 0.0);
result += mat4(0.05886785, 0.15303846, 0.0066637015, -0.19983207, -0.07803175, -0.10772685, -0.12690999, -0.08275092, 0.033436153, 0.08424011, 0.17092863, 0.0043526487, 0.014620474, 0.044702258, 0.1686881, -0.016890949) * go_1(-1.0, 1.0);
result += mat4(0.1833738, 0.14381635, -0.025888365, -0.14182197, -0.25804865, 0.07216123, 0.025790794, 0.14096753, 0.023591481, 0.15610993, 0.026975863, 0.008755717, -0.13039349, -0.063048325, -0.121329494, -0.12331732) * go_1(0.0, -1.0);
result += mat4(0.0005065098, 0.44017914, 0.18493074, 0.13099027, -0.36087477, -0.37567857, -0.48981526, 0.5590752, -0.23918836, 0.19170256, 0.16816153, -0.29986876, -0.44738817, 0.018545123, 0.66217834, 0.31810755) * go_1(0.0, 0.0);
result += mat4(-0.16725904, 0.05753713, 0.058880586, -0.336765, 0.013667228, 0.056172702, 0.13465533, -0.07573556, -0.06313958, 0.06746643, 0.18878669, 0.09404202, -0.21780397, 0.12862128, -0.09476746, -0.34096682) * go_1(0.0, 1.0);
result += mat4(-0.07169524, 0.072302215, 0.052789338, -0.14035568, 0.078670934, -0.22246763, -0.0098074945, 0.024950746, 0.10949147, 0.06182366, 0.021721192, 0.12129548, 0.094007075, 0.06076156, 0.016474832, 0.08092115) * go_1(1.0, -1.0);
result += mat4(-0.10960447, 0.1878152, -0.029822018, 0.10598909, 0.1582181, 0.086522795, 0.093725055, 0.12908185, 0.23202112, -0.28859115, 0.26614165, 0.124523655, 0.19427507, 0.059677128, 0.003624697, 0.44220912) * go_1(1.0, 0.0);
result += mat4(-0.03620583, -0.102766834, 0.025527107, -0.11316131, -0.1507822, 0.0543862, -0.08225627, -0.06438472, 0.04580623, 0.6329729, 0.23854075, 0.35752076, 0.04363613, -0.12580468, -0.0006126687, -0.04995386) * go_1(1.0, 1.0);
result += vec4(0.060475674, -0.042036578, 0.06406282, 0.05569301);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_5_tf
//!SAVE conv2d_6_tf
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.008187961, -0.08433309, -0.17281345, 0.1306418, -0.2925821, 0.20668334, 0.14854355, -0.15960559, 0.08599311, -0.096088655, -0.10121403, 0.067429096, 0.049158614, 0.036637552, 0.22137405, -0.17016457) * go_0(-1.0, -1.0);
result += mat4(0.024813082, 0.028489944, 0.06814137, -0.1245949, 0.54239255, 0.08648708, 0.28979865, 0.110916786, -0.1927179, -0.17756873, -0.1878214, 0.05795718, -0.080397904, 0.22125137, 0.1907366, -0.016493658) * go_0(-1.0, 0.0);
result += mat4(0.027259264, 0.01494357, 0.04852894, 0.037580628, 0.031005561, 0.003570554, -0.072993, -0.053475574, 0.031119492, -0.14140029, -0.10386501, -0.015266508, 0.01153506, 0.16006693, 0.088294305, 0.04201491) * go_0(-1.0, 1.0);
result += mat4(0.13026185, 0.097255, 0.49145448, -0.33619553, -0.21144676, 0.019042643, -0.27274492, 0.3033865, 0.14040698, -0.13656893, 0.28211337, -0.26930946, -0.1626638, 0.105105706, -0.50837296, 0.39536825) * go_0(0.0, -1.0);
result += mat4(-0.42495522, 0.14972518, 0.0007564128, 0.37367433, 0.44553527, 0.3338494, -0.26058698, 0.087256804, -0.4324135, 0.20706014, 0.33552194, -0.13375738, -0.13469471, 0.22374928, -0.36969653, -0.34171587) * go_0(0.0, 0.0);
result += mat4(0.26543954, -0.004381978, 0.10609993, -0.09718426, -0.15620759, -0.03287476, 0.093032375, 0.00028344034, -0.11699793, -0.016492033, 0.023340177, 0.0062737763, -0.14305823, -0.2721832, -0.160177, -0.06915171) * go_0(0.0, 1.0);
result += mat4(0.03334679, 0.12436332, -0.13226178, 0.13868971, 0.017779246, -0.012697869, -0.11553709, 0.08638636, 0.0955215, -0.0309646, 0.040856246, -0.03978358, 0.023490254, -0.07178907, 0.23794931, -0.1714287) * go_0(1.0, -1.0);
result += mat4(-0.11820261, 0.116130814, 0.58924234, -0.37785482, 0.016644944, -0.071019046, 0.0076222476, -0.024118654, -0.076183304, -0.14971451, 0.06356606, -0.07225465, -0.17400762, 0.030856986, 0.03957665, -0.0070553776) * go_0(1.0, 0.0);
result += mat4(0.10954708, 0.063694, -0.058218896, 0.0010372304, 0.032423936, 0.006164447, -0.031383317, 0.012955956, -0.17115591, 0.16328962, 0.07279567, 0.06571465, 0.005532307, 0.13575353, 0.04082173, 0.041579492) * go_0(1.0, 1.0);
result += mat4(0.03146011, -0.08227295, -0.03498218, 0.04772092, 0.12055223, -0.12383867, 0.05448358, -0.07948453, -0.019064998, -0.0964146, -0.024651276, 0.041473705, -0.06493721, -0.054806646, -0.21607941, 0.20078054) * go_1(-1.0, -1.0);
result += mat4(-0.25740683, -0.33160943, -0.37422308, 0.12679969, -0.032204475, 0.41485202, 0.4538808, -0.082535125, 0.11784846, 0.10195789, 0.064491615, -0.10170162, -0.09500746, -0.15640756, -0.079364255, -0.12576963) * go_1(-1.0, 0.0);
result += mat4(-0.02532797, -0.014487023, -0.09441118, -0.060885422, -0.41196415, -0.1359501, 0.07101173, -0.053279232, 0.010979353, 0.1914526, 0.054606825, 0.015926225, 0.10410896, 0.010272597, -0.048138764, -0.02698072) * go_1(-1.0, 1.0);
result += mat4(-0.35856235, 0.099759184, -0.11972965, -0.03850837, -0.5143867, 0.3721666, -0.100802526, 0.21814734, -0.11864143, 0.15086797, 0.047075786, -0.14188164, 0.48882273, -0.12767795, 0.4937544, -0.41288656) * go_1(0.0, -1.0);
result += mat4(0.21679138, 0.023770422, -0.5454043, 0.18567741, 0.15965948, -0.84900963, -0.4684333, -0.21884751, 0.5876668, -0.9346244, -0.30144307, 0.97177315, 0.24103107, 0.35953388, 0.2032729, 1.2934744) * go_1(0.0, 0.0);
result += mat4(-0.5121466, -0.123357795, 0.1833694, 0.048652876, -0.20895603, 0.0619325, 0.064119816, 0.072841786, -0.21813762, -0.126957, -0.23441431, -0.009071302, -0.09766064, -0.12546945, 0.086008705, -0.0072638122) * go_1(0.0, 1.0);
result += mat4(0.15312338, -0.051029235, 0.07638347, -0.14028431, 0.10694411, -0.14639509, 0.3193828, -0.22767228, -0.19987194, 0.18207504, -0.19648756, 0.24752761, -0.03402804, -0.04186147, -0.20177092, 0.09467012) * go_1(1.0, -1.0);
result += mat4(-0.3587345, -0.20358992, -0.11016057, 0.21079709, -0.26201126, 0.040362626, 0.3186598, -0.059521858, 0.27564716, -0.041431133, 0.19315968, -0.30228892, 0.01191173, -0.10380854, 0.03030344, 0.026699625) * go_1(1.0, 0.0);
result += mat4(0.13373446, -0.011457521, -0.24851708, 0.06563771, -0.051668253, 0.09096929, -0.013976447, 0.041433394, -0.046981215, -0.00015144625, 0.05696515, 0.024501698, 0.2714476, -0.017434085, 0.025333954, -0.054034695) * go_1(1.0, 1.0);
result += vec4(0.06757453, -0.021112159, -0.015639946, 0.05520713);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Conv-4x1x1x56
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_1_tf
//!BIND conv2d_2_tf
//!BIND conv2d_3_tf
//!BIND conv2d_4_tf
//!BIND conv2d_5_tf
//!BIND conv2d_6_tf
//!SAVE conv2d_last_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_2 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_4 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_5 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_6 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_8 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_9 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_10 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_12 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_13 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(0.03795613, 0.09572901, 0.019826923, 0.10568741, -0.0030050736, -0.018890928, 0.0095737, 0.00807826, -0.022741016, 0.0046556294, -0.017018225, -0.010523109, -0.017621946, -0.0006488902, -0.009405731, -0.0027796263) * g_0;
result += mat4(-0.046617493, -0.018167915, -0.039274286, -0.027566826, -0.015821747, 0.003789104, -0.0020801623, 0.004032968, -0.05708595, -0.018440764, -0.032891296, 0.004184342, 0.047413353, 0.0034510887, 0.019148773, -0.0035636695) * g_1;
result += mat4(-0.046619494, -0.017274255, -0.03372405, -0.011152855, 0.10981248, 0.036214054, 0.07969624, 0.05590572, -0.031791378, -0.00307391, -0.0032425344, 0.0025762853, 0.0053703627, -0.02076939, -0.00058634114, -0.012593452) * g_2;
result += mat4(0.110471316, 0.031102506, 0.07860556, -0.018570926, -0.05038586, -0.07667239, -0.0819002, -0.08958284, 0.03846167, -0.007570915, 0.008598097, -0.0082979705, -0.03610172, -0.022735123, 0.02343143, 0.030037913) * g_3;
result += mat4(-0.075562544, -0.020187575, -0.020969959, 0.0062222136, 0.019780673, 0.059694994, 0.019240001, 0.05951303, 0.004168261, 0.00041100322, -0.0013793377, 0.002048099, -0.040564027, -0.031818517, -0.015498987, -0.02695407) * g_4;
result += mat4(-0.0016428401, 0.018965026, -0.013192817, -0.008289604, -0.044686675, -0.009061507, -0.049217258, -0.043777503, -0.07308355, -0.063734084, 0.019393511, -0.028853234, 0.057311818, 0.04126226, 0.086301416, 0.11784249) * g_5;
result += mat4(-0.06087458, 0.046508487, -0.10723279, 0.017619802, 0.13637137, 0.2054238, 0.013641375, 0.091581754, 0.03556439, 0.0500333, 0.0696777, 0.0922045, -0.020914901, -0.025425691, -0.050319638, -0.049094327) * g_6;
result += mat4(0.0030941095, -0.008679898, -0.05815756, -0.038728733, -0.062450465, -0.073838525, -0.030359933, -0.08355475, -0.039032117, -0.0689333, -0.04834296, -0.079471886, 0.09694701, 0.17491414, 0.093450785, 0.16742545) * g_7;
result += mat4(0.035618782, -0.027659958, 0.055540156, 0.013073733, 0.12144545, 0.05981087, -0.015131131, -0.0476281, -0.090847984, 0.005347584, 0.015588529, 0.024184622, -0.10743599, -0.01785147, -0.08566232, -0.14611128) * g_8;
result += mat4(-0.03812077, 0.018126076, -0.016625525, -0.06906415, -0.06267368, -0.058914356, 0.0009385371, -0.026746314, 0.048242237, 0.028906677, -0.028120263, -0.004209134, 0.009636235, 0.013206963, 0.07449269, 0.038961377) * g_9;
result += mat4(-0.014510558, -0.021065345, 0.09356215, -0.005815953, 0.08807958, 0.067895725, 0.08723713, 0.057831496, -0.10227873, -0.07699344, -0.06321843, -0.07448854, 0.09820774, 0.007563063, -0.14045772, -0.014161681) * g_10;
result += mat4(-0.18385889, 0.2255883, -0.29741547, 0.14618248, -0.08100661, -0.06860545, -0.112705804, -0.122642964, -0.06736901, 0.06971933, 0.12909706, -0.0418256, -0.32786265, 0.032497127, 0.4390302, 0.032726523) * g_11;
result += mat4(0.10560793, 0.083280005, -0.20369564, -0.14290833, -0.119196005, -0.028741803, 0.020456403, -0.06509816, 0.073811695, 0.02724128, -0.08691891, 0.10240907, 0.16827166, -0.17502932, -0.18295282, 0.15154512) * g_12;
result += mat4(0.0036247042, -0.002368346, 0.049646147, 0.058079436, 0.14403848, 0.07125248, 0.040327612, -0.013934329, 0.03871744, -0.1717596, 0.20666012, -0.24093682, -0.09846371, 0.011563227, 0.11973811, -0.0574434) * g_13;
result += vec4(0.022095086, 0.021079032, 0.030224537, 0.02154015);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(M)-Depth-to-Space
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_last_tf
//!SAVE MAIN
//!WIDTH conv2d_last_tf.w 2 *
//!HEIGHT conv2d_last_tf.h 2 *
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
vec4 hook() {
vec2 f0 = fract(conv2d_last_tf_pos * conv2d_last_tf_size);
ivec2 i0 = ivec2(f0 * vec2(2.0));
float c0 = conv2d_last_tf_tex((vec2(0.5) - f0) * conv2d_last_tf_pt + conv2d_last_tf_pos)[i0.y * 2 + i0.x];
float c1 = c0;
float c2 = c1;
float c3 = c2;
return vec4(c0, c1, c2, c3) + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Upscale_Denoise_CNN_x2_S.glsl
+158
View File
@@ -0,0 +1,158 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(S)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(6.5515305e-05, 0.09565814, -0.0022499533, 0.14627136, -0.0065872427, 0.1441769, 0.17772098, 0.16298898, 0.03727593, 0.02010636, 0.013131043, 0.07891907, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.029612074, -0.01204274, 0.07698074, 0.3855172, 0.0045466167, -0.0859741, 0.26930287, 0.67549795, -0.036623597, 0.051749162, -0.04714053, 0.16092339, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(-0.030328937, -0.15884648, 0.0082092965, -0.05052196, 0.041409027, -0.23017453, 0.31568366, 0.05136558, -0.0106390705, -0.12503141, -0.07030922, -0.08512375, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.059616547, -0.12322959, 0.058520414, -0.039292034, 0.08059592, -0.22441447, 0.15380386, -0.17675085, -0.009270574, 0.034731936, -0.048767723, 0.025933916, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.4495482, 0.37551787, -0.4227873, -0.4890034, -0.9007091, 0.7524192, -1.271679, -0.68366605, -0.07302573, 0.09378561, 0.010367829, -0.24593607, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(0.12684742, -0.11042779, 0.01793761, 0.06982078, 0.12901784, -0.10123104, -0.2129385, -0.15062876, 0.019824497, -0.015181707, 0.070795976, 0.13549626, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(-0.036070887, -0.2733308, 0.05836442, -0.06817092, -0.08980838, -0.514616, 0.2965783, 0.103823625, -0.015213521, -0.16376303, 0.0017071419, -0.0922202, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.053406045, 0.011273207, -0.05544644, 0.09432561, -0.04143601, -0.0783786, -0.39899537, 0.040322974, -0.046442945, 0.052499074, 0.03397099, 0.05516481, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.35976252, 0.197882, 0.031213427, -0.02211337, 0.7940331, 0.327452, 0.30120966, 0.03181121, 0.13782893, 0.060073618, -0.00940469, -0.0358819, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(-0.004601904, -0.0030944077, 0.14569537, -0.016794242);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_tf
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.103708945, -0.050891697, -0.2067834, -0.033582103, -0.08676132, 0.15528207, -0.10070597, -0.13641205, 0.030959459, 0.12798834, -0.058627255, -0.008511715, 0.023304658, -0.027084433, 0.120355256, -0.023104342) * go_0(-1.0, -1.0);
result += mat4(0.0550643, -0.26851672, 0.11073926, 0.21989855, 0.012853378, 0.028077757, 0.073306665, -0.04551125, 0.16005373, -0.018154016, -0.12347146, -0.07590073, -0.10193998, 0.084696375, 0.04041413, -0.030883553) * go_0(-1.0, 0.0);
result += mat4(-0.04816972, 0.0804637, 0.0071406, -0.08482986, 0.11176785, 0.060121994, -0.047804814, -0.036170192, 0.01989302, -0.12537469, -0.16283676, 0.19132937, -0.052577138, -0.005143432, 0.045614418, 0.04198543) * go_0(-1.0, 1.0);
result += mat4(-0.33660156, 0.036350835, -0.4623589, -0.04140598, 0.2436438, -0.044735093, 0.20876355, -0.004252532, 0.81046224, -0.18550895, 0.32743093, 0.109012894, -0.34675312, -0.03464997, -0.09489919, -0.07961427) * go_0(0.0, -1.0);
result += mat4(-0.08862038, -0.8168393, 0.03584266, 0.32159033, 0.06634099, 0.2985745, -0.18204363, -0.016070427, 0.35503992, 1.1388919, 0.16171643, -0.63834023, -0.0037699202, -0.27919513, -0.20949292, 0.03270466) * go_0(0.0, 0.0);
result += mat4(0.021701936, -0.04537874, -0.05514495, 0.23225744, 0.024968185, 0.1816845, 0.03485249, -0.28249854, -0.37759346, -0.3225813, 0.021595621, 0.17104608, -0.0044055753, 0.01621266, -0.015169225, 0.08956203) * go_0(0.0, 1.0);
result += mat4(-0.033255238, -0.110517226, 0.10664505, 0.019566126, -0.0695305, 0.059743922, -0.19161415, -0.024217626, -0.08578889, -0.16358584, -0.23050265, -0.004697784, -0.060790297, 0.1174991, 0.08205285, -0.011846926) * go_0(1.0, -1.0);
result += mat4(0.6119327, 0.0791928, -0.118774265, 0.42233524, -0.16248553, -0.017692063, 0.13530938, -0.3207985, -0.147722, -0.24525681, 0.05243329, -0.38583818, 0.5147888, -0.072632834, -0.6014986, 0.26713687) * go_0(1.0, 0.0);
result += mat4(0.23735437, -0.032110002, 0.17445332, -0.3272264, 0.020623574, 0.26734766, -0.16806662, 0.0796467, -0.34921628, 0.016648084, -0.14200358, 0.59190625, 0.13177821, 0.11139572, -0.14972521, -0.16784541) * go_0(1.0, 1.0);
result += mat4(-0.047283772, -0.003196778, 0.44890094, 0.14619343, -0.17113213, -0.068454474, 0.07681565, -0.04306807, -0.0022641511, -0.20954822, 0.0344229, 0.014815744, -0.010632933, 0.13355999, -0.0860752, -0.069001146) * go_1(-1.0, -1.0);
result += mat4(0.11664345, 0.099102855, 0.1642523, 0.047408774, 0.038490184, 0.16064398, -0.08694127, -0.2149453, -0.1413128, -0.06531084, -0.10105762, 0.19743964, 0.10458527, -0.04133969, 0.1425028, -0.013283083) * go_1(-1.0, 0.0);
result += mat4(0.0138432095, -0.20053013, 0.079355195, 0.273772, 0.05484276, 0.13891658, 0.16240036, -0.25245088, 0.011192391, 0.104164094, 0.08112111, -0.250435, -0.0559613, -0.031029798, -0.015725998, 0.09240792) * go_1(-1.0, 1.0);
result += mat4(0.18754779, -0.33171803, 0.34917468, 0.29074225, -0.37954012, 0.20898043, -0.24973525, -0.13707505, -0.31585664, 0.13607393, -0.29118514, 0.015055187, 0.18549949, -0.06351915, 0.2823401, -0.00019733967) * go_1(0.0, -1.0);
result += mat4(0.10060476, 0.2883022, -0.15810104, -0.041112892, 0.31050095, 0.18517002, 0.020033397, -0.35919502, -0.17903808, -0.43506318, -0.14783014, 0.20092726, -0.002020754, 0.13320895, 0.040995706, 0.052643474) * go_1(0.0, 0.0);
result += mat4(-0.014892139, 0.005828587, 0.044784732, -0.27272886, 0.21069369, 0.044396695, -0.03411123, 0.031441864, 0.17224072, 0.1708587, -0.00729118, -0.13070418, -0.19128975, -0.09342688, -0.051133234, -0.089075714) * go_1(0.0, 1.0);
result += mat4(0.08799108, 0.04157696, -0.15010124, 0.26832178, -0.0040120087, 0.040308744, 0.17632529, -0.09464763, 0.07786305, 0.038288828, 0.40799135, 0.037377868, -0.049877923, -0.25080636, 0.00068664295, 0.0013101585) * go_1(1.0, -1.0);
result += mat4(0.0353459, -0.21445732, 0.112647906, -0.3513759, 0.16887255, 0.3224789, -0.17073384, 0.10875396, 0.18919177, 0.14288992, 0.07364533, 0.20205943, -0.34363645, -0.3520186, 0.6763608, -0.19051236) * go_1(1.0, 0.0);
result += mat4(-0.032245517, 0.039594565, -0.11825768, 0.16509856, 0.11749939, -0.005166539, 0.10740687, -0.3794017, 0.12722437, 0.14066173, 0.08025407, -0.34773758, -0.027300838, -0.08963159, 0.29774833, 0.053532287) * go_1(1.0, 1.0);
result += vec4(0.022899346, 0.033619333, 0.030674957, -0.017047008);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_1_tf
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.0714004, -0.0545495, -0.050848898, 0.04724593, 0.2214181, 0.26353878, 0.07314053, -0.18771721, 0.06282607, -0.03720548, 0.020577375, -0.08951135, 0.40820515, 0.012179098, 0.52947706, -0.48448065) * go_0(-1.0, -1.0);
result += mat4(0.10311368, -0.10970221, 0.07008208, -0.07143153, 0.073753305, 0.03786335, -0.4312538, -0.17680745, -0.15527713, -0.06711554, -0.21828765, 0.27252844, -0.0025433605, 0.31595528, -0.06065309, 0.059542265) * go_0(-1.0, 0.0);
result += mat4(-0.036736265, 0.08704119, -0.06530063, 0.04546563, 0.010335546, -0.040761005, -0.021500558, 0.104531065, 0.094652064, -0.05088704, 0.14768088, -0.08585825, 0.057680476, 0.09885713, 0.18074304, -0.14277679) * go_0(-1.0, 1.0);
result += mat4(-0.04810641, -0.01735864, -0.06405213, 0.04889552, -0.011552542, -0.04617259, 0.023976233, 0.27587202, -0.117965676, -0.07052052, -0.030583147, -0.036600694, -0.08542387, -0.053850796, 0.27242282, -0.73792183) * go_0(0.0, -1.0);
result += mat4(-0.1340838, 0.1256252, -0.040528856, 0.13554344, -0.13733707, -0.14641404, 0.42666963, -0.4933124, -0.34908, 0.054332364, -0.2768947, 0.44689894, 0.42182985, -0.027279109, -0.17136064, -0.009496184) * go_0(0.0, 0.0);
result += mat4(0.075086355, -0.025501372, 0.02172236, -0.052761186, -0.055753034, -0.028023237, -0.08829973, 0.14333946, 0.062496934, 0.034493748, 0.17640088, -0.084869936, 0.21283653, 0.1184779, 0.0016387368, -0.14988145) * go_0(0.0, 1.0);
result += mat4(0.054841094, 0.040639404, -0.025044259, -0.071105786, -0.07473824, -0.04719771, 0.016553668, -0.10028357, 0.009365985, -0.0133521445, 0.022320358, -0.09318326, 0.17342545, 0.19281831, 0.16737404, -0.09583887) * go_0(1.0, -1.0);
result += mat4(-0.03950585, 0.091417804, -0.021395942, 0.08735149, -0.029363452, -0.04763804, -0.1430701, 0.15344201, -0.006604305, 0.05897304, -0.13595524, 0.083323576, 0.008187976, 0.12946083, 0.14983748, -0.08178542) * go_0(1.0, 0.0);
result += mat4(-0.00046765045, -0.07914878, 0.03529457, -0.007752294, -0.10084779, -0.1531338, -0.1408283, 0.20638838, 0.01466853, -0.059309185, -0.11161097, 0.08481583, 0.090416916, 0.081118226, 0.08677104, -0.20095336) * go_0(1.0, 1.0);
result += mat4(0.3200496, -0.049090706, 0.11554867, -0.11949655, -0.18064958, 0.0012254696, -0.032284267, 0.00076361356, -0.13239916, -0.13838826, -0.20345089, 0.00692921, -0.2271236, -0.07132879, -0.097703665, 0.29881954) * go_1(-1.0, -1.0);
result += mat4(0.4095371, 0.3008338, -0.43109173, -0.495734, 0.15016843, -0.3890023, 1.0669806, -0.20876339, -0.32241493, -0.10387533, -0.018227777, 0.1349976, -0.0019588785, -0.19263229, 0.38952798, 0.08135965) * go_1(-1.0, 0.0);
result += mat4(0.01517036, -0.51562387, -0.13939962, -0.23287989, 0.09597558, 0.017624658, 0.16989397, -0.09395267, -0.29612765, 0.11843327, -0.07493133, 0.14523852, 0.040488124, 0.016568637, 0.10204776, -0.13137013) * go_1(-1.0, 1.0);
result += mat4(-0.1512155, -0.12732185, 0.08002965, 0.024762904, 0.05106389, 0.011125884, -0.043196492, -0.17617282, 0.09791206, 0.120643355, 0.075500526, 0.10948051, 0.04969893, -0.20776172, -0.06905779, -0.20245977) * go_1(0.0, -1.0);
result += mat4(-0.41836104, -0.82896453, -0.20962712, 0.7804863, 0.17322528, 0.53994787, -0.18730208, -0.021233026, 0.7417944, -0.4544313, 0.23165174, -0.63969344, 0.09383021, -0.046137553, -0.07796646, 0.11413524) * go_1(0.0, 0.0);
result += mat4(-0.32532063, 0.09456587, 0.43708017, -0.40595353, 0.061229162, 0.006663704, -0.19821976, 0.07661682, -0.21427135, 0.17748164, -0.31958643, 0.3883502, 0.068938896, 0.022886515, 0.022923468, -0.04269318) * go_1(0.0, 1.0);
result += mat4(0.23775512, 0.04026384, 0.12276414, -0.2545085, 0.0894177, 0.115443565, 0.029124375, 0.08887401, -0.0057824687, 0.017655179, -0.025270017, -0.06643964, 0.01316084, 0.024039604, 0.034566984, -0.12682836) * go_1(1.0, -1.0);
result += mat4(0.036596492, 0.22772355, -0.05508538, -0.18005793, -0.06432669, -0.037058707, 0.2718052, -0.10313161, 0.016055575, 0.051271006, -0.038919963, -0.036601298, -0.019457681, 0.03805731, 0.03252896, -0.07179724) * go_1(1.0, 0.0);
result += mat4(0.15046261, 0.13090402, -0.023847125, -0.039356075, 0.045424663, -0.20594294, 0.2154043, -0.18429665, -0.07969159, 0.08719893, -0.057626463, 0.08344988, -0.018651528, 0.047302175, 0.060727824, -0.035960387) * go_1(1.0, 1.0);
result += vec4(0.04921464, -0.0011432811, 0.062071066, -0.06594219);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(S)-Conv-4x3x3x8
//!HOOK MAIN
//!BIND conv2d_2_tf
//!SAVE conv2d_last_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.04508749, 0.00222134, 0.013338363, -0.0067310617, 0.099346675, 0.05804196, 0.018694466, -0.008126048, 0.007771997, -0.0072556734, -0.008293339, 0.001518462, -0.06296499, -0.064195156, 0.0727399, 0.044078834) * go_0(-1.0, -1.0);
result += mat4(0.20800652, -0.016071903, -0.08095607, -0.03472411, -0.20690396, 0.061331827, -0.10627648, 0.12838624, 0.036534917, -0.006113497, 0.029266752, -0.002263159, 0.2937966, -0.05544609, 0.14546311, -0.01290958) * go_0(-1.0, 0.0);
result += mat4(0.07792222, -7.288649e-05, 0.2800036, 0.019709835, -0.010950291, 0.021879988, 0.037608813, 0.055267945, 0.018646395, -0.016691998, 0.03787624, -0.006547077, 0.03214097, -0.018541625, 0.12142825, -0.070806496) * go_0(-1.0, 1.0);
result += mat4(-0.009798109, -0.06606263, 0.0010101331, 0.009924258, -0.10272075, -0.07983353, 0.028398676, 0.04967719, 0.12467993, 0.06775066, 0.017111637, 0.012814711, 0.0031143876, -0.0902014, 0.11242646, 0.076476306) * go_0(0.0, -1.0);
result += mat4(0.07650971, 0.35096344, 0.0612814, 0.06036218, 0.253547, -0.0460987, -0.11145313, -0.48844674, -0.050644107, 0.038706005, 0.19390784, 0.035322774, -0.010191005, 0.58071, -0.2856661, -0.009533105) * go_0(0.0, 0.0);
result += mat4(-0.071486905, -0.036179904, -0.07303894, 0.19301178, -0.11499898, -0.024847068, -0.0027055284, 0.20373714, -0.09671404, -0.020897992, -0.25572056, -0.008931707, -0.13582602, -0.006546881, -0.16154496, 0.26454738) * go_0(0.0, 1.0);
result += mat4(0.005463064, 0.006769753, 0.0039625713, 0.014121269, -0.068200685, -0.057850275, 0.008622973, 0.061149873, 0.017436448, 0.11660872, -0.02994459, 0.008590145, -0.03223439, 0.052557915, -0.011846354, 0.03523357) * go_0(1.0, -1.0);
result += mat4(-0.00015264735, 0.0012872831, 0.021878848, 0.022240406, 0.01822283, -0.008284247, -0.018443186, -0.04997753, -0.111760505, -0.20911667, 0.006166832, 0.14597091, 0.02305932, -0.16312876, 0.023375351, -0.028755601) * go_0(1.0, 0.0);
result += mat4(0.013701143, 0.010794129, 0.0024321147, -0.018976321, 0.0365032, -0.006783485, 0.01046472, -0.08473902, 0.057523903, 0.029831914, 0.0040916028, -0.2046352, 0.03542, -0.034598, 0.0031058635, -0.20746285) * go_0(1.0, 1.0);
result += mat4(0.09283864, -0.0035849356, 0.013190911, -0.035437535, 0.035798516, 0.022954805, -0.0029692063, -0.006633743, -0.13456796, -0.011448714, 0.011536131, 0.046695728, -0.0359048, -0.01144856, -0.0027279712, 0.0065755467) * go_1(-1.0, -1.0);
result += mat4(-0.14295974, -0.0034393691, 0.0051469817, -0.021334402, -0.05882422, -0.003004241, 0.011182507, 0.0015169785, 0.08474255, 0.1255887, -0.23984577, 0.07119401, -0.12547183, 0.038449038, 0.007738907, 0.031506266) * go_1(-1.0, 0.0);
result += mat4(-0.028237654, 0.010254326, -0.11843009, 0.03034298, -0.038323015, 0.0026470951, -0.060652684, 0.0022312272, -0.022539174, -0.01008126, 0.14868541, 0.02881852, -0.05327277, -0.012296453, -0.21280704, -0.021286633) * go_1(-1.0, 1.0);
result += mat4(-0.034825645, 0.0877418, -0.009103147, 0.041650586, 0.0135769, -0.005229229, 0.00082947424, -0.0020421906, 0.12402267, 0.007698874, -0.056337915, -0.006580138, -0.018867968, -0.08487179, -0.020938644, -0.029210499) * go_1(0.0, -1.0);
result += mat4(-0.37082648, -0.30321857, -0.22912364, -0.07368761, 0.15169628, 0.0013253551, 0.09232649, 0.011408914, 0.06347244, -0.377988, 0.13980117, -0.41065913, -0.00040237256, -0.23220152, -0.03643865, -0.10101427) * go_1(0.0, 0.0);
result += mat4(0.10692653, 0.049867555, -0.011915118, -0.10688069, 0.042109665, -0.017163716, 0.10852331, -0.0088934945, 0.06780516, -0.017808875, 0.26564032, 0.0523693, 0.099033475, 0.042864073, 0.18299587, -0.13503626) * go_1(0.0, 1.0);
result += mat4(0.07014404, 0.08841395, 0.01895322, 0.0036451078, -0.00933168, 0.044764042, -0.0034986525, 0.010701783, -0.043601245, -0.1375109, 0.0039965697, -0.054331, 0.018830067, 0.040386382, 0.007759782, -0.012478715) * go_1(1.0, -1.0);
result += mat4(0.024152381, -0.11462646, 0.07005155, 0.0424638, -0.0048070764, 0.06089261, -0.036675487, 0.057459857, 0.02478629, 0.2926517, -0.08248396, -0.053960845, 0.013205341, 0.09851673, -0.04310949, -0.001428641) * go_1(1.0, 0.0);
result += mat4(0.016168298, 0.009701502, 0.0064305146, -0.068672284, -0.044653386, -0.016051823, -0.015055443, 0.032019246, -0.0829852, -0.011304939, 0.0023902296, 0.30322486, -0.023831543, -0.0046928846, 0.026961725, 0.16314326) * go_1(1.0, 1.0);
result += vec4(-0.0031417734, -0.002754766, -0.004053268, -0.003937834);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(S)-Depth-to-Space
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_last_tf
//!SAVE MAIN
//!WIDTH conv2d_last_tf.w 2 *
//!HEIGHT conv2d_last_tf.h 2 *
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
vec4 hook() {
vec2 f0 = fract(conv2d_last_tf_pos * conv2d_last_tf_size);
ivec2 i0 = ivec2(f0 * vec2(2.0));
float c0 = conv2d_last_tf_tex((vec2(0.5) - f0) * conv2d_last_tf_pt + conv2d_last_tf_pos)[i0.y * 2 + i0.x];
float c1 = c0;
float c2 = c1;
float c3 = c2;
return vec4(c0, c1, c2, c3) + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Upscale_Denoise_CNN_x2_UL.glsl
+1702
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shaders/Anime4K_Upscale_Denoise_CNN_x2_VL.glsl
+969
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@@ -0,0 +1,969 @@
// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(0.28296316, -0.020139743, 0.1038232, 0.09352482, -0.16964972, 0.07910997, -0.049914766, -0.10661066, -0.121037185, -0.029087039, -0.02511847, -0.078911744, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(-0.3927183, 0.01805193, -0.031168332, -0.13300525, 0.20814548, 0.118818566, 0.1655351, 0.095023684, 0.17600809, -0.03928444, -0.014350658, 0.08458312, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.079089314, -0.0421829, 0.05452305, -0.22055493, 0.013279097, -0.12875281, 0.02452735, -0.101503745, -0.085946664, 0.05539176, 0.022408713, 0.14837204, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(-0.102643915, -0.011254746, 0.1478563, 0.1030208, 0.12396588, 0.0016621432, 0.2551224, -0.10399001, -0.01068436, 0.07155532, -0.104522154, 0.026937222, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.8789423, 0.35707328, -0.29964274, -0.064913996, 0.4962815, 0.26001287, -0.9511284, 0.49574667, 0.39539725, 0.16308042, 0.119878456, -0.30259115, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.08852938, -0.32612664, -0.006712046, 0.28693515, 0.06320871, -0.3322611, 0.04651086, -0.11020996, 0.01821082, -0.22851005, -0.07803438, 0.021527015, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(0.12295851, -0.011285535, 0.015859747, 0.04005441, -0.018136669, 0.03171969, -0.0406123, -0.10731229, -0.12117574, 0.005033036, 0.047838476, 0.026843475, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(0.4655988, 0.05519082, 0.039515793, 0.28410903, -0.36144528, 0.13039446, 0.11338478, -0.2141387, -0.10026682, -0.07903024, -0.09410254, 0.043833878, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(0.110124744, -0.024725702, 0.028102143, -0.09493807, -0.06455328, -0.15164614, 0.04425987, 0.15483347, -0.045039337, 0.07210396, -0.005390788, -0.03832707, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(0.007907974, -0.035503313, 0.057224784, -0.19763541);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x3
//!HOOK MAIN
//!BIND MAIN
//!SAVE conv2d_tf1
//!WIDTH MAIN.w
//!HEIGHT MAIN.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (MAIN_texOff(vec2(x_off, y_off)))
vec4 hook() {
vec4 result = mat4(-0.012326053, 0.050769784, 0.1278702, -0.100782245, 0.14329414, -0.054558773, 0.023473471, 0.056829426, 0.048292916, 0.0046510273, -0.11478287, 0.0011030561, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, -1.0);
result += mat4(0.29542983, -0.55061895, -0.068554066, 0.1433222, -0.072878316, 0.30201668, -0.2223378, -0.06704077, 0.16955832, 0.3279914, 0.17619601, -0.1276919, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 0.0);
result += mat4(0.09623417, 0.30559412, 0.094622105, -0.076706685, 0.07943858, -0.084815115, 0.12472551, 0.079850115, -0.13044213, -0.21300878, -0.095747225, 0.13412355, 0.0, 0.0, 0.0, 0.0) * go_0(-1.0, 1.0);
result += mat4(0.21291664, 0.17195296, -0.20080926, 0.1064855, 0.10228669, -0.09580175, -0.11217631, -0.09740562, -0.0033135475, -0.053094357, 0.2983595, 0.035281878, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, -1.0);
result += mat4(-0.08955812, -0.45707774, -0.4606922, -0.5754473, -0.11395895, 0.33530128, 0.29705846, -0.18877256, -0.43502945, 0.114171304, -0.3750776, -0.081597246, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 0.0);
result += mat4(-0.26109028, 0.02662961, -0.10441071, 0.11199392, -0.12038989, -0.09642296, -0.061320662, -0.33058178, 0.20212512, 0.00840794, 0.14357455, -0.038080238, 0.0, 0.0, 0.0, 0.0) * go_0(0.0, 1.0);
result += mat4(-0.09533881, -0.13644339, 0.068756215, 0.079305276, -0.053370547, 0.19572955, 0.0682981, 0.14469264, 0.15582883, -0.057183057, -0.13919263, -0.016394936, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, -1.0);
result += mat4(-0.041189935, 0.39878023, 0.028704925, 0.30194348, -0.04486593, -0.33899093, -0.103968106, 0.21802065, -0.077099144, -0.07389541, 0.18069103, 0.18894517, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 0.0);
result += mat4(-0.12399862, 0.19246885, 0.034825478, -0.0044787163, 0.13121822, -0.13573012, -0.030162754, 0.1899518, 0.102326415, -0.061512686, -0.005647928, -0.0937634, 0.0, 0.0, 0.0, 0.0) * go_0(1.0, 1.0);
result += vec4(0.019286277, -0.033644073, 0.08196311, 0.0054393094);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.04088509, -0.06585775, -0.3094732, 0.12059048, 0.041417453, -0.06144871, -0.06655134, 0.03308842, 0.09287731, 0.010969216, 0.10343026, -0.11185897, 0.05685865, -0.09490512, 0.040908635, 0.03501189) * go_0(-1.0, -1.0);
result += mat4(-0.04854754, -0.098667145, 0.67147833, -0.11299351, -0.022114437, -0.029202767, 0.014179382, 0.26027945, 0.22076549, -0.16490546, -0.0010764733, 0.08405975, 0.11849154, -0.19072372, -0.35719597, -0.059621073) * go_0(-1.0, 0.0);
result += mat4(0.079224996, 0.0669873, -0.1718969, -0.05002573, 0.044926763, -0.02904369, 0.017489236, 0.01144465, 0.059109706, 0.064998455, 0.14725484, -0.23879208, 0.039234288, -0.027365638, 0.26172164, -0.094598554) * go_0(-1.0, 1.0);
result += mat4(-0.07159218, -0.03181544, 0.113837324, -0.053089984, -0.098298974, -0.29500297, 0.1608509, -0.044355504, 0.050882854, -0.19417204, -0.080487266, -0.00879743, 0.0007914453, 0.16640955, 0.21786706, 0.16398212) * go_0(0.0, -1.0);
result += mat4(0.16324541, 0.19753313, -0.46597233, -0.2593132, -0.2781038, -0.21973547, -0.024623038, -0.16348499, 0.3628299, 0.044888914, 0.04054647, -0.63605887, 0.02099492, 0.060544077, -0.49359834, 0.36336297) * go_0(0.0, 0.0);
result += mat4(-0.16885692, 0.31907207, 0.020906802, 0.13290039, -0.037330728, -0.022859452, -0.020451576, -0.113437995, -0.085683934, 0.054102756, -0.044824492, 0.061346747, -0.038684413, 0.098444365, -0.06734984, -0.17084897) * go_0(0.0, 1.0);
result += mat4(-0.015821548, -0.119599186, 0.1614827, 0.08383641, -0.07933593, 0.12528986, -0.06300182, 0.09286327, -0.10199266, 0.02419403, 0.0028411683, -0.09028338, 0.07962534, -0.08676035, -0.19237737, -0.115502626) * go_0(1.0, -1.0);
result += mat4(0.09471972, 0.21153462, -0.14393018, 0.055180002, 0.1817461, 0.016607309, -0.0771979, 0.11181317, -0.5491086, -0.102757886, -0.20952754, 0.022466583, -0.075119644, -0.14725658, 0.38451517, 0.12920731) * go_0(1.0, 0.0);
result += mat4(0.0867803, 0.114654355, 0.21199988, -0.15367955, -0.01803536, 0.056378633, 0.0018388306, 0.024613786, -0.13306658, 0.017211098, 0.073351346, -0.12064064, -0.10484361, -0.067748636, 0.033206712, -0.13061953) * go_0(1.0, 1.0);
result += mat4(-0.002236411, -0.022144757, -0.04586377, 0.101181075, -0.03511624, 0.08440529, 0.18544284, -0.22786349, -0.042184375, 0.015734851, -0.038622506, 0.038529944, -0.09170703, 0.034527462, -0.07817406, 0.10547265) * go_1(-1.0, -1.0);
result += mat4(-0.12135524, -0.07412039, -0.04979351, -0.082267545, 0.13343571, 0.29196215, -0.4364121, -0.10226428, 0.060835477, -0.23307934, -0.018231759, 0.15550235, 0.09095689, 0.18164484, 0.1322021, -0.022567045) * go_1(-1.0, 0.0);
result += mat4(-0.0054531163, -0.039762255, -0.030490747, 0.04779882, -0.15290286, 0.056712102, -0.0776974, 0.04114215, 0.15946816, -0.03882117, 0.16770308, -0.026126247, -0.027203865, -0.064107865, -0.13670811, 0.1556276) * go_1(-1.0, 1.0);
result += mat4(-0.092548385, -0.027285473, 0.084179096, 0.014961629, 0.2564254, 0.07626849, 0.28534448, 0.2588713, -0.018600503, -0.2433456, 0.041392803, -0.045712482, 0.26388907, -0.053502295, 0.14522223, 0.032808404) * go_1(0.0, -1.0);
result += mat4(-0.0013780193, 0.3482449, 0.071003586, -0.30707207, -0.05122194, -0.2833618, 0.07910779, 0.051078696, 0.021535402, 0.13021478, 0.022049015, -0.533547, 0.57265025, -0.12843914, -0.14913581, -0.1433724) * go_1(0.0, 0.0);
result += mat4(0.07382619, -0.12152924, 0.13364957, 0.181974, 0.15804219, -0.10126773, 0.3029618, -0.12874149, 0.13743348, -0.23245592, -0.20119278, 0.029547188, 0.042436857, 0.04213892, -0.07975374, 0.023821082) * go_1(0.0, 1.0);
result += mat4(0.022782229, -0.08359311, -0.060623147, 0.06565042, 0.09828792, 0.044808697, -0.28872305, -0.00092168007, 0.021737702, -0.08698349, 0.1950025, 0.07931995, 0.040952396, -0.07443172, -0.021157127, 0.0056698937) * go_1(1.0, -1.0);
result += mat4(-0.09995892, -0.2047294, 0.1414849, 0.062335726, -0.22492298, 0.05269799, -0.029233055, -0.050517935, -0.12534393, -0.12194023, -0.07035469, -0.070764475, 0.18903446, 0.07691209, 0.06153371, 0.011280912) * go_1(1.0, 0.0);
result += mat4(-0.036189888, -0.07586571, -0.05888163, 0.010425367, -0.028375402, -0.18870986, -0.19146784, 0.19274063, -0.18856238, 0.0064240266, -0.14537223, -0.06971656, 0.0852742, -0.04866623, -0.031686075, 0.031702038) * go_1(1.0, 1.0);
result += mat4(0.0618941, 0.100858234, 0.2628019, -0.048507668, -0.051001363, -0.03195978, 0.035452217, -0.001991919, -0.09649028, -0.047445696, -0.09221298, 0.07602656, -0.02382384, -0.119645916, 0.085616075, -0.07076033) * go_2(-1.0, -1.0);
result += mat4(0.019222878, -0.0491929, -0.4902266, 0.18501294, 0.014529614, -0.077125326, 0.011563931, -0.20236616, -0.101982154, -0.021150962, -0.07537948, -0.1540349, 0.028949164, -0.06827332, 0.0067634755, 0.09582376) * go_2(-1.0, 0.0);
result += mat4(-0.05995539, -0.031138182, 0.01334257, 0.06827176, -0.030762246, 0.006615233, -0.03562788, 0.016249394, -0.14797118, 0.014671043, -0.09325859, 0.25653747, -0.11474991, 0.05436232, 0.031051394, 0.04179694) * go_2(-1.0, 1.0);
result += mat4(0.032279838, -0.030521005, 0.0029688699, 0.005165139, 0.15907808, -0.20421815, -0.07713175, 0.067530625, -0.08619395, 0.026114263, 0.08821273, 0.011591694, 0.018677557, 0.057708874, -0.25859246, -0.18693781) * go_2(0.0, -1.0);
result += mat4(0.10823143, -0.31875235, -0.24394153, -0.0025489891, 0.016761065, -0.19857498, -0.07858479, -0.07811158, -0.38551694, -0.049090322, -0.050053325, 0.23398961, 0.014974165, 0.17498055, 0.29105362, -0.353647) * go_2(0.0, 0.0);
result += mat4(0.05621677, -0.19492444, 0.460332, 0.055917628, -0.06404381, -0.06684098, 0.053624872, 0.057300456, -0.019248677, -0.15110065, 0.032379635, -0.12673225, 0.0068658157, -0.13001235, -0.017716292, 0.064182095) * go_2(0.0, 1.0);
result += mat4(-0.06764552, 0.004707433, -0.13827331, -0.21957871, -0.03789028, -0.04962028, 0.022955444, -0.058468018, 0.13735814, -0.031270552, -0.018490225, 0.0063876202, -0.052979283, -0.030049473, -0.004811771, -0.0044099926) * go_2(1.0, -1.0);
result += mat4(-0.028652798, -0.027029367, 0.62600744, 0.0900562, 0.03869923, -0.20111556, 0.095930666, -0.13164565, 0.5562579, 0.011937122, 0.22882107, 0.030288015, 0.09856272, 0.04736032, -0.077492185, -0.10207275) * go_2(1.0, 0.0);
result += mat4(-0.10581002, -0.16504957, -0.5688921, 0.0414545, 0.04749444, -0.052849945, -0.011017121, -0.025284614, 0.14316759, -0.08547362, -0.09654446, 0.08682504, 0.050776027, 0.0678741, -0.04913651, 0.07527552) * go_2(1.0, 1.0);
result += mat4(0.04126091, 0.0048704315, 0.041699376, -0.05820725, -0.09664279, 0.07648305, -0.17979898, 0.11698985, -0.025436765, 0.023232851, 0.010656572, 0.08157569, 0.19584864, -0.022928072, 0.053339157, 0.0039929505) * go_3(-1.0, -1.0);
result += mat4(0.040733483, 0.12260473, 0.08071146, 0.07257762, -0.016945919, -0.31637576, -0.24281953, -0.0038469466, -0.10203634, 0.13631973, 0.06505259, -0.13119389, -0.09723076, -0.139551, -0.07504509, 0.08645985) * go_3(-1.0, 0.0);
result += mat4(0.017005404, 0.049066268, -0.007544932, -0.04884536, 0.09984347, -0.04447364, 0.4902235, -0.062780835, -0.18389583, 0.07305648, -0.22014385, 0.08004685, 0.0992568, -0.08569604, 0.093966395, -0.07047139) * go_3(-1.0, 1.0);
result += mat4(0.0017705248, 0.020553982, -0.09167042, 0.0036356782, -0.11867446, -0.07055574, 0.40252638, 0.09657129, 0.0888632, 0.1031708, -0.022127641, -0.023769693, -0.0861388, 0.13420185, -0.11774454, 0.038774434) * go_3(0.0, -1.0);
result += mat4(-0.15173717, -0.13590458, -0.0891863, 0.12289548, 0.13942605, 0.22152588, -0.19292432, 0.14169839, 0.010543665, 0.07648361, -0.057333756, 0.09535759, -0.053601623, -0.026824495, 0.09365424, 0.17476946) * go_3(0.0, 0.0);
result += mat4(-0.070416056, -0.061970036, -0.039723337, -0.18874651, -0.07098426, -0.019835865, -0.5612458, 0.060437083, -0.03774378, 0.18536821, 0.28587544, 0.035555754, 0.15771326, -0.13527197, 0.13342534, -0.06564073) * go_3(0.0, 1.0);
result += mat4(-0.10967661, 0.025388904, 0.09003177, -0.04087592, 0.09531671, -0.11809294, -0.41613623, 0.038198076, 0.01019813, -0.018864965, -0.18400626, -0.038704176, 0.0105671035, 0.024449013, -0.008989595, -0.027171193) * go_3(1.0, -1.0);
result += mat4(0.16193569, -0.21445285, -0.20130903, -0.13498883, -0.008031679, 0.050757203, 0.78938776, -0.03749514, 0.11998137, 0.19368882, 0.12328945, 0.0058578993, -0.13852382, -0.033867255, -0.018267661, 0.036348555) * go_3(1.0, 0.0);
result += mat4(-0.06254118, 0.087295115, 0.031116437, 0.0416281, 0.061828617, 0.34479564, -0.15537797, -0.17144552, 0.13989387, -0.13792284, 0.056215156, 0.12714528, -0.0198865, 0.04927947, 0.013614583, -0.041810013) * go_3(1.0, 1.0);
result += vec4(-0.044073943, 0.12072677, -0.0022342638, -0.24414532);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!SAVE conv2d_1_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.07115729, 0.01065505, 0.19167988, -0.02504489, -0.15064801, 0.079008736, 0.05437936, 0.027479589, -0.021383656, 0.032731537, -0.06657876, 0.022649521, -0.06501893, -0.02335689, 0.010445489, -0.05430297) * go_0(-1.0, -1.0);
result += mat4(-0.1178601, 0.07425715, 0.063272275, -0.18308601, -0.13955134, 0.005166404, -0.022591779, -0.016827974, -0.024990188, -0.13372071, -0.056342285, 0.12489847, 0.081861794, -0.07083351, 0.021897513, 0.0629395) * go_0(-1.0, 0.0);
result += mat4(0.051357627, -0.13874975, -0.09887168, -0.011908862, 0.03639772, -0.13195883, -0.05321156, 0.03913229, -0.08160194, -0.07128151, 0.043625016, 0.11966009, 0.03162217, 0.018834392, -0.0625129, 0.10726711) * go_0(-1.0, 1.0);
result += mat4(-0.15922394, -0.043482754, -0.22571066, 0.009280428, -0.3882705, 0.08418719, 0.15329506, -0.028419001, -0.011272379, 0.15897545, 0.041217074, -0.0143014155, 0.09451862, -0.056342427, -0.14568482, 0.05556279) * go_0(0.0, -1.0);
result += mat4(0.13879324, -0.23339099, -0.24573983, -0.09575104, 0.03823306, 0.4752516, -0.1696623, -0.18472373, -0.1510259, 0.23040254, 0.4196143, 0.3462817, 0.035172507, 0.18228662, 0.22475636, -0.19945027) * go_0(0.0, 0.0);
result += mat4(-0.08876766, 0.19567333, 0.25174314, -0.09637879, -0.007957943, 0.13510521, 0.030193076, -0.0018362573, -0.006884444, -0.41804117, -0.1026309, -0.053339038, -0.1283198, -0.03033918, 0.055674326, 0.094377995) * go_0(0.0, 1.0);
result += mat4(0.06780768, -0.07774435, -0.0616546, -0.046531744, -0.11723141, 0.10792474, 0.013314576, -0.031451598, -0.009870351, 0.10215877, -0.13101454, -0.19878799, -0.09712651, 0.10423937, 0.14170039, -0.03359521) * go_0(1.0, -1.0);
result += mat4(-0.020114673, -0.015194169, 0.03657608, 0.17162928, 0.070458665, -0.08041664, 0.14067306, 0.19699603, -0.28763783, -0.033556152, -0.6588468, -0.48221052, -0.123711474, -0.080758795, -0.3187303, 0.121004865) * go_0(1.0, 0.0);
result += mat4(-0.074900605, 0.09297913, -0.08621144, 0.116730206, -0.034766622, -0.10381484, 0.060793545, -0.014790814, -0.123858415, -0.0010626495, 0.20547503, -0.07206306, -0.17324795, 0.023932874, 0.017495958, -0.09924652) * go_0(1.0, 1.0);
result += mat4(-0.015568068, 0.005394868, 0.15463537, 0.06416607, -0.045670815, -0.013540727, -0.12960619, 0.0006581649, 0.09432853, 0.05575682, -0.022219105, 0.022416297, 0.0148129435, -0.067619696, 0.022989385, -0.09695771) * go_1(-1.0, -1.0);
result += mat4(-0.107209, 0.07072438, -0.10235772, -0.12078849, -0.02751833, -0.043195058, -0.17197154, 0.120612316, -0.17310137, -0.09429793, 0.06511165, 0.18072544, -0.21168593, 0.16383737, 0.25012484, -0.089589044) * go_1(-1.0, 0.0);
result += mat4(0.005439779, 0.0028433986, -0.09885586, -0.06572956, -0.0061691296, 0.15485546, -0.23724958, 0.004232802, 0.07794742, -0.012552598, 0.07554404, 0.10843201, -0.013223918, -0.08705092, -0.23228747, 0.03599732) * go_1(-1.0, 1.0);
result += mat4(-0.043396916, -0.10680695, -0.019935586, -0.06703658, -0.30075943, -0.010179525, 0.30197874, 0.04888297, 0.00779067, 0.22583807, 0.2039884, -0.0074303118, -0.19240093, -0.024718538, 0.057117213, 0.19431825) * go_1(0.0, -1.0);
result += mat4(-0.37633005, 0.043971814, -0.21423087, 0.118503235, -0.15058799, 0.115756795, -0.13719647, 0.020510519, 0.1123193, 0.14797291, 0.05467349, 0.2039607, -0.31973588, 0.1667847, -0.017739004, -0.11280262) * go_1(0.0, 0.0);
result += mat4(-0.0084394775, -0.1281101, -0.20841378, 0.01986435, -0.04122467, -0.21089631, -0.08062371, 0.11315133, 0.05693114, -0.23773515, 0.03792205, -0.008872407, 0.04554895, -0.10683658, 0.10683206, 0.06875721) * go_1(0.0, 1.0);
result += mat4(-0.103948504, -0.007483217, -0.12571928, 0.054868475, -0.030646881, -0.010098222, 0.019018777, -0.07072212, -0.10689893, 0.16498323, 0.048089568, -0.10912806, -0.027318537, -0.025491163, 0.012588013, 0.072701246) * go_1(1.0, -1.0);
result += mat4(0.14094622, -0.028118243, 0.016804086, -0.18000692, 0.33351874, 0.14980756, -0.07135749, -0.16573106, -0.17243773, 0.054617904, -0.2933543, -0.12602285, 0.08480712, -0.05704333, 0.22336398, 0.026583148) * go_1(1.0, 0.0);
result += mat4(0.046759557, -0.03100408, 0.40000245, -0.08521555, 0.19592628, -0.15150753, 0.25288078, -0.061794683, -0.047818147, -0.12249124, 0.020410215, -0.11503924, 0.046108168, 0.030459814, -0.14096366, 0.09120256) * go_1(1.0, 1.0);
result += mat4(-0.087491795, -0.024289595, -0.09060237, 0.020922959, 0.09557061, -0.08556962, -0.0503455, -0.010846053, 0.0030694185, -0.008256591, 0.08290225, -0.034981687, 0.07342003, -0.021816112, -0.13905519, -0.06265962) * go_2(-1.0, -1.0);
result += mat4(-0.08126147, -0.05866924, -0.015698025, 0.093630895, -0.02379264, 0.115918085, 0.19431724, 0.041815966, -0.051647816, 0.15277039, -0.03721037, -0.085520886, 0.041766718, 0.104392216, 0.0559556, 0.0049254233) * go_2(-1.0, 0.0);
result += mat4(-0.11176419, 0.112272635, 0.1367475, -0.010482275, -0.06719008, 0.064003386, -0.08132314, 0.015465676, 0.052741583, 0.06779717, 0.038533892, -0.16428822, 0.040990274, 0.002559234, 0.097567044, -0.058192518) * go_2(-1.0, 1.0);
result += mat4(0.17228632, 0.008296625, 0.009418271, 0.037103783, -0.0601486, 0.04531715, 0.19613501, 0.112170085, -0.02256726, -0.093685195, -0.1341531, -0.038480807, 0.109840475, 0.062418167, 0.15140085, 0.050787117) * go_2(0.0, -1.0);
result += mat4(0.15433665, 0.2104034, 0.12395812, 0.13799714, 0.14945604, 0.67457545, 0.27575177, -0.047493283, 0.24992993, -0.5305435, 0.0131732905, -0.36911693, 0.14442082, -0.18583177, -0.2861722, 0.19419897) * go_2(0.0, 0.0);
result += mat4(0.040242445, -0.13234852, 0.10056324, 0.055854917, 0.07447713, -0.023067042, 0.00021051937, -0.0495407, -0.22037992, 0.68047297, 0.05774606, -0.012461005, 0.104557075, 0.04832623, 0.010292581, -0.050617047) * go_2(0.0, 1.0);
result += mat4(-0.060079176, 0.086553656, 0.0060872175, -0.012576339, 0.025149338, -0.07379716, -0.18048704, -0.007130346, 0.007826557, -0.095655076, -0.0032888134, 0.21027069, -0.09868755, -0.1180311, 0.0081250835, -0.05078016) * go_2(1.0, -1.0);
result += mat4(0.19124818, -0.05949092, -0.36762074, -0.08203597, -0.10276991, 0.111005515, -0.2845309, 0.113985784, 0.07206471, -0.026585411, 0.20032002, 0.5691625, -0.0460136, 0.03874166, 0.09858682, -0.15913802) * go_2(1.0, 0.0);
result += mat4(-0.00397842, -0.014763085, 0.080231026, -0.09142265, 0.03637215, 0.064106315, -0.030963007, 0.0557953, 0.04173885, -0.024534896, -0.2092259, 0.06913638, 0.08103145, -0.0033994897, -0.10903093, 0.062850125) * go_2(1.0, 1.0);
result += mat4(0.01206918, 0.024855271, -0.051995132, 0.013999821, -0.021517826, 0.06216198, -0.050853133, -0.064136736, -0.047408275, -0.07858566, 0.074464396, -0.038218755, -0.13216262, 0.008905726, 0.10333, 0.03049554) * go_3(-1.0, -1.0);
result += mat4(-0.027152343, -0.069046065, -0.013017797, 0.0763, -0.08611993, -0.020867927, 0.012807627, -0.11971997, 0.025972975, 0.095127404, -0.070044935, -0.21399231, -0.22536097, -0.028828809, 0.123399965, -0.15967365) * go_3(-1.0, 0.0);
result += mat4(0.038314234, -0.014114242, 0.012115026, 0.05505015, 0.11785298, -0.08772618, 0.034408223, 0.09134674, -0.04727011, 0.020709611, -0.01780165, -0.14374214, -0.30412516, -0.011123043, -0.024216317, -0.007538433) * go_3(-1.0, 1.0);
result += mat4(-0.17673545, 0.077738725, 0.056153737, 0.028693894, 0.05688375, 0.021928595, 0.014585902, 0.019364892, 0.029056642, -0.2072201, -0.17548367, 0.085471265, 0.16439342, -0.0052957633, 0.22321554, -0.19246858) * go_3(0.0, -1.0);
result += mat4(0.1914782, -0.15620962, -0.16686897, -0.04141303, 0.07696967, -0.013115313, -0.057627093, -0.13849305, 0.08699377, -0.07339016, -0.053074118, -0.059418138, 0.19988623, -0.23852244, -0.12574267, -0.29139704) * go_3(0.0, 0.0);
result += mat4(-0.017691063, 0.18901291, 0.16250716, -0.11039392, 0.056900974, 0.036662772, -0.13399602, -0.11378214, -0.10924602, 0.2130181, -0.042094063, -0.012445028, 0.013168919, 0.119448364, -0.014406005, 0.0054324497) * go_3(0.0, 1.0);
result += mat4(0.11552786, 0.090796515, -0.11559005, -0.035706047, -0.044022456, -0.027642358, 0.08824298, 0.035067793, 0.18125483, -0.15502097, 0.094219126, 0.07493505, 0.022493582, 0.038250685, -0.076567575, -0.059311453) * go_3(1.0, -1.0);
result += mat4(-0.08612596, 0.016376335, -0.0023271537, 0.32511148, 0.03789289, 0.13106889, 0.22370385, 0.21145949, 0.1844514, -0.0766592, 0.093758754, 0.13821359, -0.062405586, 0.0028724174, -0.13588348, 0.00024406122) * go_3(1.0, 0.0);
result += mat4(-0.08991004, 0.074423954, -0.020964831, -0.070288494, -0.1192369, -0.015506713, -0.28136373, 0.042911243, 0.08215164, 0.11065419, -0.006201638, 0.057742044, 0.0014476188, -0.01443158, 0.22631277, -0.06787264) * go_3(1.0, 1.0);
result += vec4(-0.07235962, -0.019149294, 0.05072898, 0.03962245);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.14315613, -0.031299837, -0.011195234, 0.0073360316, 0.07264984, -0.110979274, 0.06560588, -0.040463638, 0.28964168, -0.05644335, -0.060729366, -0.15811591, 0.028339373, 0.027486937, 0.0360574, 0.05856459) * go_0(-1.0, -1.0);
result += mat4(0.16211128, 0.20672597, -0.30374205, -0.056202736, -0.10893948, 0.053066984, -0.18297112, 0.028844962, 0.22754766, -0.07141921, 0.07142953, -0.1357581, 0.008053467, 0.04668908, 0.17258649, 0.22506891) * go_0(-1.0, 0.0);
result += mat4(0.07014762, 0.032112304, 0.028849715, 0.09427007, 0.008323501, -0.085777245, 0.083501115, -0.16150802, 0.24127382, -0.1305689, -0.027557204, -0.15057805, 0.09748757, 0.08182083, -0.107643455, 0.020552907) * go_0(-1.0, 1.0);
result += mat4(-0.04630706, -0.056070503, 0.058440026, -0.005662525, 0.08736355, 0.08821088, -0.049539115, 0.08171937, 0.28466523, -0.025859421, -0.0026971614, -0.15181617, -0.022231927, 0.3566104, -0.024887348, 0.12051598) * go_0(0.0, -1.0);
result += mat4(-0.20976813, -0.23778942, 0.28854275, -0.27583683, -0.27604774, -0.15861328, 0.09581984, 0.06572128, 0.092306405, -0.06962751, -0.042226445, 0.035234913, 0.084891975, -0.03846841, -0.1473667, 0.2810354) * go_0(0.0, 0.0);
result += mat4(0.028011162, 0.08945262, 0.15859836, 0.18426442, 0.10649845, -0.0918649, -0.12257575, -0.00914911, 0.23701023, -0.030067213, -0.01938559, -0.11026175, -0.5953985, 0.28875506, -0.035278864, -0.05043055) * go_0(0.0, 1.0);
result += mat4(-0.14445779, -0.06907616, 0.13078876, -0.0089114, -0.110637166, -0.123719245, -0.094949, 0.046267383, 0.4727523, 0.0073195575, -0.014788787, -0.14922102, -0.021974785, -0.10706751, 0.00049029186, 0.09215345) * go_0(1.0, -1.0);
result += mat4(-0.20936993, -0.22377276, -0.07697398, 0.039161056, 0.044213686, 0.037542075, -0.06600642, 0.017124292, 0.3406197, 0.011907687, 0.019732054, -0.22745137, -0.22178015, 0.49051985, -0.03707166, 0.14849792) * go_0(1.0, 0.0);
result += mat4(0.07833466, 0.10888627, 0.16015877, -0.049263358, 0.29002127, -0.010949114, 0.013081097, -0.071674205, 0.3532135, 0.013165473, -0.05282189, -0.16688257, 0.009552089, -0.2740816, 0.04927233, -0.37047002) * go_0(1.0, 1.0);
result += mat4(0.23682123, -0.027914839, 0.02372468, -0.07127212, 0.053436097, 0.057737537, -0.008556659, -0.025973454, 0.06468388, 0.18805866, -0.08180048, 0.058999106, -0.3058321, -0.06642967, -0.092997625, 0.10527466) * go_1(-1.0, -1.0);
result += mat4(-0.1353085, -0.016593851, 0.21518163, -0.10272456, 0.14382689, 0.05056661, -0.27799338, 0.11351653, 0.05838342, 0.28104934, -0.03777824, 0.003435516, 0.057915565, -0.17574134, -0.24437475, 0.13420977) * go_1(-1.0, 0.0);
result += mat4(0.13400255, -0.056437124, 0.11310834, 0.040429913, 0.098928474, -0.020769242, -0.079605736, 0.0494632, 0.0660877, 0.098982334, -0.055884495, -0.046533633, 0.17815505, 0.027310565, -0.24176653, -0.025550256) * go_1(-1.0, 1.0);
result += mat4(0.03637618, -0.012618673, 0.11865397, 0.19804053, -0.03522831, 0.24310908, -0.056454524, -0.44885796, 0.02212509, -0.20253624, 0.038810212, -0.17396528, 0.08970355, 0.005103078, 0.061075203, 0.44292897) * go_1(0.0, -1.0);
result += mat4(-0.25074747, -0.0015575301, -0.685015, 0.07345307, -0.08419402, 0.06640714, 0.43799296, -0.17571151, 0.0049855476, 0.09024738, 0.055744022, 0.018739637, 0.34734032, 0.114896655, 0.0404696, -0.11327049) * go_1(0.0, 0.0);
result += mat4(-0.12284062, -0.31131, -0.14712588, -0.18645866, 0.17581487, 0.1357234, 0.09913364, 0.005298711, -0.056155153, 0.042429443, 0.039454732, -0.04111384, 0.2623163, 0.09701166, 0.022825675, 0.050480727) * go_1(0.0, 1.0);
result += mat4(0.058734808, 0.038528245, -0.042670116, -0.15190329, -0.028179986, -0.05362995, 0.017090468, -0.24449602, -0.08240927, -0.033122182, 0.009938243, -0.0052937623, 0.2171439, 0.06879817, -0.10361997, 0.018995138) * go_1(1.0, -1.0);
result += mat4(0.027555468, 0.016337285, 0.19074728, 0.26690376, -0.088713005, -0.0021182299, -0.23062791, -0.32101163, -0.0040022335, 0.16835448, 0.05424022, -0.02156396, 0.24163729, 0.10243619, -0.04331782, -0.014350939) * go_1(1.0, 0.0);
result += mat4(-0.13836963, 0.053369813, 0.036432605, 0.062288612, -0.06264361, -0.049093347, -0.0315955, -0.11237456, -0.064744405, -0.0151798045, 0.044210885, 0.010166375, -0.038355727, -0.05203739, -0.075036794, 0.1664177) * go_1(1.0, 1.0);
result += mat4(-0.08583114, 0.08268218, -0.05771351, 0.10195048, -0.10128163, 0.10874855, -0.02580701, 0.028834302, 0.1950179, -0.0130183315, 0.0092119705, -0.060479227, 0.117747106, 0.061403573, -0.0028475628, -0.032362986) * go_2(-1.0, -1.0);
result += mat4(-0.05310153, -0.061091065, 0.19438389, -0.10475873, 0.00045120303, -0.24876194, 0.017168125, -0.050173752, 0.012073283, 0.035660096, -0.017562328, -0.110271364, -0.015546384, 0.17965329, 0.10068208, -0.014481325) * go_2(-1.0, 0.0);
result += mat4(0.085558474, -0.0007109211, 0.20868625, 0.150163, -0.19283043, 0.025976779, 0.08384698, 0.031011146, 0.17268184, 0.008871077, -0.04097794, -0.12868725, 0.01336166, -0.038823843, 0.1703644, -0.067780636) * go_2(-1.0, 1.0);
result += mat4(0.06480841, -0.44256654, -0.19949587, -0.030677497, -0.27930573, -0.041867044, -0.15648738, 0.11573067, 0.28664824, 0.009770385, -0.058617204, -0.06607673, -0.038160402, 0.009497089, 0.03303058, -0.079379834) * go_2(0.0, -1.0);
result += mat4(0.17752203, 0.10979527, -0.058749028, -0.30194217, 0.30484176, -0.20980492, -0.05234784, -0.2590473, 0.23003183, 0.21903595, -0.024891363, -0.14337292, -0.02971356, -0.29613075, -0.045642294, 0.23826689) * go_2(0.0, 0.0);
result += mat4(0.018211683, -0.005840598, -0.19021381, -0.096696235, 0.39998052, -0.34746838, -0.039627917, 0.087701194, 0.15526368, -0.008095372, -0.044220537, -0.08634815, -0.121496454, -0.06792033, -0.14959472, 0.078917444) * go_2(0.0, 1.0);
result += mat4(0.33109078, 0.012287281, -0.034155898, -0.04840956, 0.068748444, 0.006142039, 0.06598935, 0.024775596, 0.22379673, 0.056089353, -0.006119644, -0.018509025, 0.10084137, 0.15556572, -0.041211523, -0.21550669) * go_2(1.0, -1.0);
result += mat4(-0.058160853, 0.08899222, -0.17401625, -0.1449813, -0.015872562, -0.03780256, 0.15702572, 0.34013954, 0.1580772, 0.074823864, 0.035488904, -0.01627819, -0.15551315, -0.3638866, -0.09833458, 0.15037175) * go_2(1.0, 0.0);
result += mat4(-0.12707977, -0.19947061, -0.11524648, 0.09216174, -0.07161296, 0.05675567, 0.06843247, 0.2803306, 0.25222927, -0.044076066, 0.053775772, -0.09939824, 0.16903089, 0.11475717, -0.07015584, -0.036021322) * go_2(1.0, 1.0);
result += mat4(-0.12290332, -0.05469477, 0.02696626, 0.051133692, -0.05541504, -0.2811521, -0.13008943, 0.031793896, -0.32529324, -0.01663752, -0.0658181, 0.17300756, 0.22281154, -0.11001508, 0.09578194, -0.055437982) * go_3(-1.0, -1.0);
result += mat4(0.083753526, -0.048933715, -0.13912897, 0.10929772, -0.1789828, -0.1586524, -0.10964165, -0.08210391, -0.11568187, -0.04813496, -0.2417861, 0.24446528, 0.13570863, -0.26869404, 0.3013413, 0.11678686) * go_3(-1.0, 0.0);
result += mat4(0.21105368, 0.15749952, -0.18983693, -0.023642758, -0.1633653, 0.10107988, 0.052329395, -0.080253236, 0.15375629, -0.045091413, 0.05070866, 0.12416106, 0.16600485, -0.10412354, 0.061849747, -0.084013924) * go_3(-1.0, 1.0);
result += mat4(0.03863923, 0.03690167, -0.053106382, -0.07523278, -0.04214836, 0.53898096, 0.15308584, 0.22835171, -0.24771535, 0.1402687, 0.1000896, -0.08719167, 0.0886567, 0.15255097, 0.14695966, -0.06659865) * go_3(0.0, -1.0);
result += mat4(0.110334344, -0.12696493, 0.24256139, 0.02536166, 0.08322421, 0.022147777, -0.35030407, 0.13734557, 0.053133942, 0.43650532, -0.30170345, 0.08751837, 0.012917502, 0.27496436, 0.11422729, 0.15508565) * go_3(0.0, 0.0);
result += mat4(0.16684863, 0.26743406, 0.15951683, 0.033597723, -0.044719726, 0.1127182, 0.007923161, 0.06415458, -0.07269362, -0.07828715, 0.09216738, 0.11528897, -0.13371283, -0.124177165, 0.14804523, 0.14156726) * go_3(0.0, 1.0);
result += mat4(-0.041141883, 0.023617791, 0.11484465, 0.13131519, -0.14753738, 0.17067687, -0.017538434, 0.24042644, -0.058103643, 0.3143255, 0.02476919, -0.0024666793, -0.26759955, -0.06099211, 0.006415725, 0.10394301) * go_3(1.0, -1.0);
result += mat4(-0.04198037, 0.03277123, -0.25069895, -0.21043587, -0.27417016, 0.08047665, 0.29731026, 0.07629813, -0.15695353, -0.14299184, 0.026618432, 0.13265325, 0.07727133, 0.12872085, 0.13887435, 0.1347057) * go_3(1.0, 0.0);
result += mat4(0.039232086, 0.117847264, -0.071643315, -0.040677182, -0.029160816, -0.06968689, 0.12880929, 0.037579957, -0.036671028, -0.022678757, -0.069731854, 0.10590314, 0.028034678, -0.015759282, 0.047180142, -0.16366881) * go_3(1.0, 1.0);
result += vec4(-0.079253934, 0.001511763, 0.100159355, 0.01585197);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!SAVE conv2d_2_tf1
//!WIDTH conv2d_1_tf.w
//!HEIGHT conv2d_1_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_1_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_1_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.024126908, 0.01737047, 0.04563732, 0.08303721, -0.21339902, 0.00025652428, -0.09666459, -0.07654246, -0.01201168, 0.14373912, 0.22268519, 0.049181588, -0.0751725, 0.006847365, -0.025867194, 0.19233267) * go_0(-1.0, -1.0);
result += mat4(-0.25251204, -0.34213448, -0.0022676045, 0.29270738, 0.08876456, 0.067294724, 0.2865476, -0.009144941, -0.074606106, 0.14566834, 0.14162645, 0.10980335, -0.7958991, -0.15410729, 0.038512416, -0.17033637) * go_0(-1.0, 0.0);
result += mat4(-0.115404196, -0.11004134, 0.13174473, -0.0006875606, 0.0051814034, 0.058522645, -0.0795437, 0.0011465811, -0.019500278, 0.12752724, 0.16985136, -0.054932587, 0.16734739, -0.04686017, -0.072241016, 0.054562975) * go_0(-1.0, 1.0);
result += mat4(-0.07528159, -0.113516726, 0.2081102, 0.009942251, 0.08256535, 0.050133914, 0.012745932, 0.13902397, 0.009369715, 0.083261885, 0.17366019, 0.069754004, 0.030654406, -0.045856245, -0.055254143, 0.16265897) * go_0(0.0, -1.0);
result += mat4(-0.14366727, 0.24948351, 0.12160293, 0.10929859, -0.116071545, -0.11725494, -0.13926856, -0.026759636, 0.12723772, 0.1938045, -0.02745115, -0.0644584, -0.23854719, 0.059308372, -0.446269, -0.06978486) * go_0(0.0, 0.0);
result += mat4(0.21108554, -0.1717225, 0.066633105, 0.15418948, -0.08902029, 0.047925282, 0.15817304, -0.080941506, 0.007364865, 0.10506626, 0.20205018, -0.078695655, 0.14004812, -0.3195092, 0.19157887, -0.12697977) * go_0(0.0, 1.0);
result += mat4(-0.08145032, -0.14292753, 0.066565305, -0.061348185, -0.08738346, 0.011608093, -0.0024047727, -0.024741996, -0.11547277, 0.10013328, 0.21730538, 0.05598899, -0.17741105, 0.075944185, 0.027434295, -0.2550598) * go_0(1.0, -1.0);
result += mat4(-0.026223006, 0.11214396, -0.133987, 0.1303522, 9.32011e-05, -0.14755996, -0.14002979, -0.039624512, 0.045111652, 0.17618611, 0.17764348, 0.104528464, 0.20592515, 0.07240335, -0.27604735, 0.038880046) * go_0(1.0, 0.0);
result += mat4(0.17734227, -0.002935363, 0.07505682, -0.029969893, -0.024536638, 0.11236127, 0.119374484, 0.08002781, -0.003541722, 0.1428466, 0.1729824, 0.055412393, -0.04790376, 0.18020035, 0.05376964, -0.1520942) * go_0(1.0, 1.0);
result += mat4(-0.11352182, -0.019249126, 0.10782615, 0.03079928, 0.020381734, -0.08998433, -0.09211494, -0.054406203, 0.1828849, -0.07692097, 0.004733955, -0.026685018, -0.08044814, -0.071961075, 0.029184176, -0.22562811) * go_1(-1.0, -1.0);
result += mat4(-0.34489468, -0.07447471, 0.026422959, 0.33550653, 0.22130035, 0.059709545, -0.07646962, -0.18386386, 0.33911958, -0.07534871, 0.040870134, 0.051136248, 0.32681262, 0.20612194, -0.1609581, -0.70460784) * go_1(-1.0, 0.0);
result += mat4(0.27617922, 0.09758603, 0.05103887, -0.09281693, -0.007143339, 0.006635712, -0.055270564, -0.022629099, -0.13023081, -0.013819027, -0.038695697, 0.047280338, -0.13964762, 0.09852924, -0.10056262, -0.084967695) * go_1(-1.0, 1.0);
result += mat4(0.1370323, 0.030904075, -0.033860117, 0.08926374, -0.14616281, -0.29926816, -0.23738252, -0.21374625, -0.14039646, 0.11503669, 0.082101606, -0.061717354, 0.021357644, -0.10676707, 0.03214661, 0.029967157) * go_1(0.0, -1.0);
result += mat4(-0.29881296, -0.22195289, -0.3512607, -0.2277441, 0.033705913, -0.23267402, -0.119738854, -0.18925253, 0.068823405, -0.15160555, 0.2585695, 0.10484223, -0.012574211, 0.38808516, 0.2599094, -0.4991424) * go_1(0.0, 0.0);
result += mat4(-0.07474731, 0.22742131, 0.014462262, 0.08409484, 0.09579643, -0.0519534, 0.0007793075, -0.044820115, -0.010144471, -0.040506937, 0.0056340825, 0.057767954, -0.14988829, -0.05099549, 0.007204364, -0.07094934) * go_1(0.0, 1.0);
result += mat4(-0.05736621, 0.12072876, -0.02037183, 0.05012334, -0.1173538, -0.10062993, -0.0033958228, 0.0142556345, -0.011005385, -0.0066177617, -0.058390465, 0.048240293, 0.09835053, 0.17917523, -0.06466951, 0.017518612) * go_1(1.0, -1.0);
result += mat4(0.1413101, -0.30268928, -0.17851736, -0.10797371, -0.01964573, 0.14356858, -0.06759965, 0.17416531, 0.13905385, -0.017476829, 0.06541924, -0.044690568, -0.080723755, -0.08610206, 0.095347285, -0.09233214) * go_1(1.0, 0.0);
result += mat4(-0.07254187, -0.091158785, 0.018472971, 0.03514051, 0.018888336, 0.107934274, -0.018830854, 0.10007211, -0.053966418, -0.035646267, -0.031214178, -0.05980228, -0.13045661, -0.011743741, -0.03325275, 0.071065165) * go_1(1.0, 1.0);
result += mat4(-0.037697386, 0.054388218, -0.010934479, 0.2266702, 0.049999133, 0.017648092, -0.044225454, 0.21611899, -0.03805845, 0.054236397, -0.018563407, -0.060588073, -0.031215845, 0.075081706, 0.07333242, -0.09651128) * go_2(-1.0, -1.0);
result += mat4(-0.32236508, -0.0026381002, -0.30787975, 0.2963127, -0.13276175, 0.1058753, -0.12744896, 0.09749292, -0.02683677, -0.0041124597, 0.006103888, -0.09997201, 0.092101686, -0.08375288, 0.09641652, 0.053333007) * go_2(-1.0, 0.0);
result += mat4(0.027999232, -0.060004722, -0.009207874, -0.0952888, -0.038418446, -0.13316345, 0.099323496, 0.048450433, 0.0443969, 0.056023613, 0.1156147, 0.018980766, 0.040020484, 0.07555044, 0.0039174426, -0.044098593) * go_2(-1.0, 1.0);
result += mat4(-0.101029314, 0.33333415, -0.22052327, -0.035329416, 0.17229559, 0.12564908, -0.07879576, -0.09248896, -0.03239869, 0.022611454, 0.05610472, -0.02181683, -0.06347532, -0.077292696, 0.02005389, -0.078899406) * go_2(0.0, -1.0);
result += mat4(-0.028139396, -0.04349171, -0.019393284, 0.42110333, 0.37065667, 0.5282552, 0.43816927, 0.19155908, 0.051832534, 0.02050813, 0.030795977, 0.023960136, -0.27617985, 0.19165507, -0.005492024, -0.13349663) * go_2(0.0, 0.0);
result += mat4(5.0700226e-05, 0.21293098, -0.39902148, -0.058406413, -0.06766975, 0.1129277, -0.012398328, 0.025031524, 0.03519656, 0.06486415, 0.15710293, 0.014098051, 0.057754945, 0.116186336, -0.14429826, 0.051864166) * go_2(0.0, 1.0);
result += mat4(-0.012280755, 0.043744788, -0.06420968, 0.012739398, 0.043073926, 0.031230433, 0.00036492705, -0.039208546, -0.09329152, 0.06928111, 0.11622664, -0.009106846, 0.111528054, -0.020315262, 0.036427997, 0.15881014) * go_2(1.0, -1.0);
result += mat4(-0.066635534, 0.13901882, 0.0885122, 0.1030835, 0.08539728, -0.015466482, 0.0706688, -0.1611047, 0.02179479, -0.00048529037, 0.08708685, -0.00894464, -0.13046473, -0.21456988, -0.20666413, 0.049039323) * go_2(1.0, 0.0);
result += mat4(-0.100800075, -0.03772198, -0.095183305, -0.15150243, -0.08743059, -0.24299338, -0.019315414, -0.1574107, -0.013610722, 0.064871654, 0.058439128, 0.008972897, 0.10339555, -0.027356634, 0.07666196, 0.048524544) * go_2(1.0, 1.0);
result += mat4(0.046309173, -0.03858991, -0.13260359, 0.0017626585, 0.1453724, 0.1402359, -0.079240486, 0.13017912, 0.0629575, -0.15448172, -0.1856442, -0.044694453, -0.17226808, -0.08065212, -0.008038736, -0.15994963) * go_3(-1.0, -1.0);
result += mat4(0.18369722, 0.03849556, -0.035185467, -0.20205377, 0.03879293, 0.02712859, -0.051278092, 0.14862835, 0.10261192, 0.18085574, -0.025982017, -0.029160796, 0.5301373, 0.09614058, 0.35518438, -0.014906588) * go_3(-1.0, 0.0);
result += mat4(-0.31154996, -0.06868871, -0.012681131, 0.028093819, -0.37321633, -0.14738804, 0.06060776, 0.050054748, 0.013779029, -0.020390315, -0.12487434, -0.0029474346, -0.274524, -0.09142805, 0.0132142445, 0.1577639) * go_3(-1.0, 1.0);
result += mat4(-0.02177336, -0.020817943, -0.0111796055, -0.0046033757, 0.45033064, 0.3573757, 0.55279994, 0.602122, -0.05536106, -0.33642644, -0.1851379, -0.052192084, 0.03683446, 0.13613251, 0.20098919, -0.090587094) * go_3(0.0, -1.0);
result += mat4(0.1520822, 0.37173554, -0.061298244, 0.0019386727, 0.44656134, 0.13406622, 0.39018136, 0.5722051, -0.13074401, 0.012778576, -0.2837446, 0.16098566, 0.100189455, -0.40386122, 0.17464107, -0.17862785) * go_3(0.0, 0.0);
result += mat4(-0.01217905, -0.24295084, 0.08192982, -0.14160301, -0.05936872, -0.003312342, -0.07542139, 0.13488367, -0.21560493, -0.14342502, -0.19195864, -0.09448305, -0.1038431, -0.075766176, 0.03226791, 0.06455397) * go_3(0.0, 1.0);
result += mat4(-0.076916575, -0.10891301, 0.032635316, 0.03848802, 0.15750243, 0.48169684, 0.5410635, 0.017279895, 0.012730932, -0.0059071835, 0.030766146, -0.0225503, -0.030178519, -0.05866621, 0.033593398, -0.00033098995) * go_3(1.0, -1.0);
result += mat4(-0.10757409, 0.2644168, -0.025696747, -0.0077012815, 0.31728277, 0.29771668, 0.2443613, -0.047722775, -0.083712585, -0.12742844, -0.3138776, -0.059888497, 0.12291351, -0.14435866, 0.051414594, -0.11889901) * go_3(1.0, 0.0);
result += mat4(-0.063888945, 0.002844068, -0.06129518, 0.03381495, 0.10176077, -0.11625004, -0.10745763, -0.20636752, -0.03820934, 0.01926402, -0.20310643, 0.09767577, -0.00776684, 0.13453315, -0.036967937, 0.09780335) * go_3(1.0, 1.0);
result += vec4(0.019374544, -0.050425697, -0.005817216, -0.0059976326);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.028328063, 0.038015317, 0.14893384, 0.10103896, 0.028176744, -0.02067147, -0.10970998, 0.015726602, -0.07402682, -0.075281784, -0.012586929, 0.053476278, 0.14823362, 0.20312984, 0.24213, 0.039118115) * go_0(-1.0, -1.0);
result += mat4(0.009731573, -0.019011121, 0.016360838, -0.0073153526, 0.14594506, -0.0427664, -0.094225354, -0.013891855, -0.037061375, 0.024959227, -0.12289382, -0.21792257, -0.33579424, 0.052678566, 0.04346115, 0.07943186) * go_0(-1.0, 0.0);
result += mat4(0.0022269129, 0.013298362, -0.045071404, -0.007918287, 0.010860651, -0.073057, -0.0042394064, 0.03340809, 0.04938919, -0.024218693, -0.008147567, 0.08848061, -0.06840333, 0.10077341, -0.272586, -0.06542769) * go_0(-1.0, 1.0);
result += mat4(0.15929016, -0.1415167, 0.057084452, 0.06830724, 0.0046992986, 0.068573505, 0.22142749, -0.18493174, -0.1006019, -0.11373546, 0.17520057, -0.12888812, 0.05176946, -0.14703397, -0.20610721, 0.16611591) * go_0(0.0, -1.0);
result += mat4(-0.0069309813, 0.22358349, -0.18569049, 0.13456121, -0.21528137, 0.04618922, -0.47261322, -0.09682613, 0.5402922, 0.15818685, 0.05288464, -0.09949312, 0.21833964, 0.06652228, -0.2694682, 0.58216536) * go_0(0.0, 0.0);
result += mat4(0.040808782, 0.023110595, 0.12678777, -0.09057271, 0.03159572, 0.044006016, -0.10090222, 0.09940838, -0.08454473, -0.118349984, -0.053009644, 0.24352531, -0.103818566, 0.12536442, -0.17832974, 0.25161982) * go_0(0.0, 1.0);
result += mat4(-0.026323501, -0.14911288, -0.0073903934, 0.06902844, 0.07188603, -0.05006621, 0.06539817, -0.048083752, -0.08032579, -0.07449341, -0.015944218, 0.032426495, 0.069349505, -0.07441237, 0.055614363, 0.065174624) * go_0(1.0, -1.0);
result += mat4(-0.046432327, -0.051616143, 0.017791865, -0.047294978, 0.025944458, -0.0020909954, 0.083794415, -0.055740435, -0.3720184, 0.06654654, 0.1944378, 0.07806658, 0.00870193, 0.005404396, -0.059417505, -0.06270168) * go_0(1.0, 0.0);
result += mat4(-0.011699918, -0.03260685, 0.016413182, -0.02199741, -0.042898953, -0.018734168, -0.12387174, 0.06405199, -0.050764065, 0.07050078, 0.006969675, 0.05508108, -0.079687595, 0.12154926, 0.071177684, 0.046873443) * go_0(1.0, 1.0);
result += mat4(-0.2158498, 0.03612371, -0.05268691, -0.065594874, 0.06997431, -0.07327132, -0.03323361, -0.23306306, -0.00011140713, -0.1891967, -0.017328357, 0.15796778, -0.061359044, 0.008202449, -0.031317197, -0.020873578) * go_1(-1.0, -1.0);
result += mat4(-0.022816254, -0.014594548, 0.0064240466, 0.07976367, -0.0070318123, -0.07651652, -0.111756384, -0.2788498, 0.16634429, -0.1583179, -0.10245271, 0.10480152, 0.345051, -0.07809675, 0.046080578, -0.32139245) * go_1(-1.0, 0.0);
result += mat4(0.020630263, 0.032152038, 0.0019161701, 0.05435833, 0.078139454, -0.10090956, 0.14244889, 0.017286595, 0.0039871824, -0.026395446, 0.14158171, 0.0010112645, 0.17055373, -0.08093189, -0.049234428, -0.33473247) * go_1(-1.0, 1.0);
result += mat4(-0.10982378, 0.029386539, -0.15483, -0.04345961, -0.16869037, -0.30862433, 0.060743757, -0.032285906, 0.017884266, -0.09846199, -0.090971105, -0.1693697, -0.063690096, -0.08489718, 0.18247683, -0.19921213) * go_1(0.0, -1.0);
result += mat4(0.1898742, 0.22187345, -0.28495324, -0.42578775, 0.12833633, -0.2251503, -0.025917793, 0.6011678, -0.36586264, 0.23302059, -0.072634645, 0.0064221635, 0.56792957, -0.4684677, 0.05015159, 0.30121225) * go_1(0.0, 0.0);
result += mat4(0.10837159, 0.14743729, -0.03639783, -0.34797576, -0.18306817, -0.07957882, -0.111433275, 0.30104128, -0.102763996, -0.01020151, 0.016333267, -0.012390819, 0.11835027, -0.12597388, -0.006298998, 0.0513052) * go_1(0.0, 1.0);
result += mat4(-0.23662986, 0.23325302, -0.046104953, 0.36488137, 0.06990537, -0.06887873, -0.012611426, -0.02618366, -0.05296669, 0.195254, 0.016366778, 0.01693462, -0.08488424, -0.24656284, -0.035283253, -0.15318634) * go_1(1.0, -1.0);
result += mat4(0.061704446, -0.26930714, -0.24598889, 0.27657726, 0.05046488, -0.341884, 0.10704377, -0.15971762, 0.072999336, -0.2005826, -0.05874223, -0.053938035, -0.08284583, -0.22792995, 0.1027033, -0.012932447) * go_1(1.0, 0.0);
result += mat4(-0.029079054, 0.14774945, 0.026151389, 0.12380946, 0.08926635, -0.08387116, -0.17018612, -0.09304499, 0.086990625, -0.27579373, 0.003823722, -0.024723161, 0.08762848, -0.10080674, -0.012214886, -0.30239874) * go_1(1.0, 1.0);
result += mat4(-0.25756493, 0.2537789, 0.21723714, 0.0017929028, -0.014724892, 0.086692676, 0.11934202, -0.025869334, 0.008618976, -0.0046638376, -0.06863114, -0.07598151, -0.17309345, 0.009138105, -0.099874064, 0.07377463) * go_2(-1.0, -1.0);
result += mat4(-0.39971545, 0.16774859, 0.13102596, 0.30735064, -0.060374007, -0.036933452, 0.14408773, 0.06479284, 0.03806265, 0.045560133, 0.043136165, -0.019244662, 0.17573427, -0.11398941, -0.0751098, 0.041702736) * go_2(-1.0, 0.0);
result += mat4(-0.074492976, 0.18349282, -0.009050458, 0.0869807, -0.23123743, -0.015426683, -0.14346392, 0.005445149, -0.05322614, 0.10287576, 0.16083732, -0.09557319, -0.13891783, -0.13752605, -0.023572346, 0.13608918) * go_2(-1.0, 1.0);
result += mat4(-0.31140685, 0.40130782, 0.07704675, 0.27509958, 0.09711739, -0.18293281, -0.14500841, -0.15334702, 0.098314695, 0.22749798, 0.006017282, -0.013669673, 0.07147038, 0.022289474, -0.036797456, -0.0013958871) * go_2(0.0, -1.0);
result += mat4(0.0547557, -0.03036202, 0.65113044, 0.10668893, 0.304707, -0.1456157, 0.27668485, 0.2279428, -0.42439902, -0.0073047588, 0.045635667, 0.271637, -0.19595222, -0.28107607, 0.3905438, -0.29898256) * go_2(0.0, 0.0);
result += mat4(0.076843366, 0.037181348, 0.08652873, 0.1756985, 0.03728033, -0.22783624, 0.16810594, -0.022009399, 0.16058537, 0.24559903, 0.05266939, -0.13929726, 0.15964857, 0.0013167082, 0.015017631, 0.101646364) * go_2(0.0, 1.0);
result += mat4(-0.3022452, 0.20052882, 0.13433233, 0.04250016, -0.15248592, 0.014216527, -0.23489903, 0.13919333, 0.22891816, -0.0053335144, -0.05567782, -0.12769286, -0.05337762, -0.11429989, -0.00882089, -0.030790573) * go_2(1.0, -1.0);
result += mat4(-0.11763547, 0.1073185, 0.15810886, 0.013149736, -0.028268294, -0.24712053, 0.08592036, 0.075742744, 0.19626461, -0.10880887, -0.22599675, -0.37207767, -0.032548983, -0.011045266, -0.035218395, 0.099996395) * go_2(1.0, 0.0);
result += mat4(0.05631665, 0.029538663, 0.043909863, 0.13720988, 0.10980592, -0.047748722, 0.080308706, -0.06828442, 0.1144396, -0.12510885, -0.067976676, 0.030742755, 0.07134681, -0.06652312, -0.0642328, -0.034490924) * go_2(1.0, 1.0);
result += mat4(0.019588284, -0.15197967, -0.16797094, -0.026324488, 0.014429439, -0.028491383, 0.059453625, 0.23443304, 0.02504347, 0.08872467, 0.032782357, -0.085310735, 0.013040259, -0.09837991, 0.073533125, -0.03544458) * go_3(-1.0, -1.0);
result += mat4(0.02198588, -0.09614766, 0.024655875, 0.025384603, 0.012162857, 0.065071434, 0.018112874, 0.19828922, -0.33289856, 0.011323505, 0.13696423, 0.31772846, -0.06587399, -0.05569957, -0.16469179, -0.22545892) * go_3(-1.0, 0.0);
result += mat4(-0.009093827, 0.086783886, 0.060070645, 0.049957857, 0.041628215, 0.082412794, 0.117729135, -0.178277, 0.08326062, -0.07120824, 0.1788718, 0.050748438, -0.08952197, -0.14609487, 0.05515471, 0.14784457) * go_3(-1.0, 1.0);
result += mat4(-0.10823147, -0.05108019, 0.092807196, -0.13899301, 0.19123949, -0.044189975, 0.0030145745, 0.08935499, -0.10338727, 0.01996205, 0.15671325, -0.08229972, 0.05603653, 0.043324884, 0.13562247, -0.11487494) * go_3(0.0, -1.0);
result += mat4(-0.18872134, -0.07302765, 0.030137405, 0.30928415, -0.07689583, 0.045998566, 0.45554903, -0.1653404, 0.14705873, -0.10649596, 0.46833125, 0.17608039, -0.43967086, 0.056812476, -0.17908083, -0.40455228) * go_3(0.0, 0.0);
result += mat4(-0.08093384, 0.032636635, 0.124594346, 0.13655491, 0.16780408, -1.4671803e-05, 0.13044862, -0.397665, -0.013273644, 0.08253894, 0.16302188, -0.052874118, 0.04073075, -0.18063635, -0.00838661, -0.31084144) * go_3(0.0, 1.0);
result += mat4(0.06804371, -0.14755388, -0.12055216, -0.00437858, -0.044694718, 0.22744909, 0.012434794, 0.06245207, 0.00560859, -0.15815294, -0.19711316, 0.07711764, 0.03078979, -0.09560189, 0.10509056, 0.010651465) * go_3(1.0, -1.0);
result += mat4(-0.026342146, 0.13919179, -0.0030414977, 0.06607403, 0.071292974, 0.065464914, -0.027091878, 0.10620255, -0.052090824, 0.06840278, -0.08457357, 0.08867469, 0.2976581, -0.6702739, -0.15472057, -0.3066263) * go_3(1.0, 0.0);
result += mat4(-0.00072869845, 0.046573937, -0.08363707, 0.07867379, 0.038065, 0.01228845, 0.031746328, -0.024448024, -0.065555945, 0.1220454, 0.032151606, -0.022336006, -0.0010816467, -0.026455112, 0.112422734, -0.10285581) * go_3(1.0, 1.0);
result += vec4(0.052450567, 0.10404023, -0.059578225, 0.009724121);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!SAVE conv2d_3_tf1
//!WIDTH conv2d_2_tf.w
//!HEIGHT conv2d_2_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_2_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_2_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.037506457, -0.06573841, -0.087879084, -0.06359248, -0.0017873603, -0.009097742, 0.010108622, 0.026364084, 0.012306545, 0.12607974, -0.088268295, 0.14034338, 0.24951904, 0.0983314, 0.03635719, -0.047059253) * go_0(-1.0, -1.0);
result += mat4(-0.05570699, 0.11044774, 0.04827364, -0.03185735, -0.032498132, -0.062959515, 0.2933071, 0.22244357, 0.061075654, 0.0064111133, 0.011452209, 0.11576761, 0.13969804, 0.20502032, 0.1114938, 0.022496287) * go_0(-1.0, 0.0);
result += mat4(-0.054194342, 0.000389916, -0.039589155, -0.018707246, -0.036095835, -0.06873059, -0.077109694, 0.028726012, -0.08820959, -0.109247595, -0.05745309, 0.043230128, 0.033671502, 0.16398554, 0.030398889, -0.17000203) * go_0(-1.0, 1.0);
result += mat4(-0.09218165, -0.12813722, -0.040984686, -0.016605416, 0.054269493, 0.12971285, -0.013961638, -0.17803082, -0.014683587, 0.2502267, -0.14249405, -0.025687713, -0.097426265, -0.30111355, -0.21776466, 0.008809217) * go_0(0.0, -1.0);
result += mat4(0.21033873, 0.15221386, 0.18138756, -0.08248389, -0.10091519, -0.06940753, -0.014009188, -0.3009861, -0.02452202, -0.08800422, -0.36376888, 0.18485394, 0.35076657, -0.13293292, 0.24624826, 0.39373755) * go_0(0.0, 0.0);
result += mat4(0.014170062, -0.029623963, 0.057001226, 0.09269898, -0.14630881, -0.16557585, 0.06735037, -0.015008042, -0.27238864, 0.081130914, -0.07869508, 0.098087415, 0.11217335, 0.48223323, 0.18613088, -0.035602476) * go_0(0.0, 1.0);
result += mat4(-0.21623239, -0.1125095, -0.09964635, 0.101452544, 0.11877652, 0.13471957, -0.10402355, 0.0077938605, 0.030518647, 0.22309083, -0.2115206, 0.017967062, -0.042780407, 0.099759325, -0.10465051, -0.033807248) * go_0(1.0, -1.0);
result += mat4(-0.059608232, 0.06684556, 0.00039066386, 0.08542961, 0.097183906, -0.1868667, 0.07778909, -0.06172202, 0.0021662437, -0.05387577, -0.4077133, -0.028940776, 0.110816136, -0.04154161, 0.030078325, 0.072834246) * go_0(1.0, 0.0);
result += mat4(-0.01881586, -0.06384429, -0.054874837, -0.016731417, -0.06570834, -0.13579571, 0.0033891131, -0.059161015, -0.11559389, 0.02149361, -0.08791608, -0.008113861, 0.08313892, -0.07327947, -0.013473171, 0.13254371) * go_0(1.0, 1.0);
result += mat4(-0.11458958, -0.08827364, -0.025030116, 0.12626298, 0.0070429775, 0.0337767, 0.051719055, -0.09654129, -0.04867615, -0.03609001, -0.06522421, -0.044131942, -0.048825134, 0.10652733, -0.015310965, -0.07341175) * go_1(-1.0, -1.0);
result += mat4(0.05782829, 0.014247012, 0.12126171, 0.100055166, 0.24079333, -0.20155986, 0.1640186, -0.12158374, -0.153708, -0.24445893, -0.10536192, 0.12758626, -0.19430119, -0.019024884, -0.080120996, -0.29866305) * go_1(-1.0, 0.0);
result += mat4(-0.017357074, 0.04390695, 0.12889594, 0.11451521, 0.03333342, -0.16417275, 0.10196121, 0.13059081, 0.09948873, 0.15007107, 0.22664218, 0.35449567, -0.089776486, 0.025239054, 0.12463201, -0.13109131) * go_1(-1.0, 1.0);
result += mat4(0.064875744, 0.40551752, 0.11903257, 0.14822967, 0.14993542, -0.12758526, 0.23159283, -0.06080246, -0.084577255, 0.14307548, -0.02186462, 0.05793564, -0.050965074, 0.23895216, -0.07796932, -0.1624384) * go_1(0.0, -1.0);
result += mat4(-0.15942748, 0.07191155, 0.42204422, 0.35219797, 0.23286703, -0.283381, -0.2749432, 0.25922084, 0.10494953, 0.14575887, -0.19649154, -0.14563714, -0.03709703, 0.023375817, -0.05610175, -0.32548484) * go_1(0.0, 0.0);
result += mat4(-0.04872624, -0.3592348, -0.027413938, 0.0836858, 0.046842758, -0.35193914, 0.06154142, 0.05559191, -0.22538327, -0.097689696, -0.21317257, -0.033945527, -0.23628096, -0.016477302, 0.027297588, -0.04105733) * go_1(0.0, 1.0);
result += mat4(0.11543502, -0.043297376, 0.118703, 0.15013209, 0.03191795, 0.014122794, 0.05156918, 0.023102578, 0.0808462, -0.06445798, 0.15860644, -0.062393136, -0.018691704, -0.00032888897, 0.01196705, -0.025045555) * go_1(1.0, -1.0);
result += mat4(0.08301664, 0.12298539, 0.20151077, 0.2993159, 0.16968682, -0.18196446, -0.13322797, -0.13693243, -0.0048389523, -0.057406515, 0.21409932, -0.060822334, -0.08554752, -0.19363636, -0.35241908, -0.32256603) * go_1(1.0, 0.0);
result += mat4(-0.0523748, 0.17082025, 0.08556144, 0.19181536, -0.2445756, -0.3616732, -0.01641404, -0.078599006, 0.23907976, 0.025989126, 0.07574993, -0.06859337, -0.06667767, -0.022847861, -0.037942342, -0.21112117) * go_1(1.0, 1.0);
result += mat4(0.15098672, 0.024212115, -0.19068481, -0.22606348, -0.15221487, -0.032165635, -0.06244531, -0.043535717, -0.07398802, -0.06088507, -0.013834592, -0.10145823, 0.06901983, -0.0862135, -0.05545454, 0.15514566) * go_2(-1.0, -1.0);
result += mat4(0.044767097, -0.07583697, -0.17739761, -0.25538698, 0.0966659, -0.0013492911, -0.23315248, -0.21652249, -0.14381947, 0.017784966, -0.15960035, -0.13297895, 0.009810349, -0.041348267, 0.05443229, 0.17781278) * go_2(-1.0, 0.0);
result += mat4(-0.0052824756, 0.087268956, -0.022167318, -0.09450279, 0.1254372, 0.075806946, 0.028893303, -0.09019378, 0.03488572, 0.046265777, 0.026162563, 0.003914548, -0.0632334, -0.19494742, -0.03602023, 0.113897055) * go_2(-1.0, 1.0);
result += mat4(-0.11311528, 0.2616239, 0.12303548, 0.13427438, -0.26537886, 0.015112677, -0.03641703, -0.014114427, -0.023280613, 0.03626403, 0.12833157, 0.19168468, 0.2119137, -0.02374797, 0.117919676, 0.07794395) * go_2(0.0, -1.0);
result += mat4(-0.13746078, 0.25739196, 0.008431936, -0.053867325, -0.13228695, -0.20661803, 0.026474724, 0.3205188, -0.41819036, 0.42812085, 0.17249924, -0.15810613, 0.39602605, -0.10873597, 0.1457145, -0.060503867) * go_2(0.0, 0.0);
result += mat4(0.03706167, -0.036211733, 0.06519942, -0.2123978, 0.019934088, 0.17494182, -0.017252771, -0.067341134, -0.15416612, -0.114118524, -0.00028491023, -0.08172238, -0.11722721, -0.2647645, 0.13316637, 0.13562322) * go_2(0.0, 1.0);
result += mat4(0.11832847, 0.22822993, 0.020318847, 0.0734738, -0.025950216, -0.072782144, 0.11133989, 0.18845533, -0.004584898, -0.10486471, 0.054522812, -0.14136603, 0.01940983, -0.039433163, 0.008390286, 0.013686628) * go_2(1.0, -1.0);
result += mat4(-0.042335663, 0.0035399816, -0.1813205, -0.25639042, 0.1042524, 0.07707001, -0.04922454, 0.18140413, -0.22322963, 0.030809738, -0.11041754, -0.040288754, 0.09431559, -0.08017892, -0.18317147, -0.019331435) * go_2(1.0, 0.0);
result += mat4(-0.061776266, 0.0069793356, 0.019964112, -0.14504445, -0.00070097746, -0.027107855, 0.030182542, -0.05625612, -0.04958449, 0.123165295, 0.0013953283, 0.017912487, 0.031161329, -0.31798717, 0.018331604, 0.030411277) * go_2(1.0, 1.0);
result += mat4(-0.0530594, -0.07933117, 0.024755973, 0.004785411, 0.045512546, 0.12833083, 0.023195961, -0.018028054, 0.014223835, 0.102213494, 0.052169293, -0.020509718, 0.017905682, 0.021354724, -0.0410789, -0.066523656) * go_3(-1.0, -1.0);
result += mat4(0.017061293, -0.08770806, -0.04889939, 0.01825556, -0.03228951, -0.06838898, -0.09249373, 0.18103507, 0.087000825, 0.04175679, -0.09305919, -0.2792485, 0.03405797, 0.062147446, -0.04757652, -0.021603985) * go_3(-1.0, 0.0);
result += mat4(-0.04115162, 0.02547615, 0.07033616, 0.09814065, 0.2597489, -0.0335038, 0.14097647, 0.047022782, 0.1374654, -0.27390274, 0.02080897, -0.15251215, -0.025431091, 0.08871465, -0.22243279, -0.07792812) * go_3(-1.0, 1.0);
result += mat4(-0.061674852, -0.051326606, -0.04885301, 0.08548189, -0.07100394, 0.044875987, -0.19810183, -0.09841128, -0.06628199, -0.041564234, 0.1111919, -0.044448826, 0.06980301, 0.00046094303, -0.045978926, -0.20736355) * go_3(0.0, -1.0);
result += mat4(-0.18405268, -0.28115878, -0.33536536, 0.0753763, 0.028309148, 0.0014874876, 0.28369543, -0.2133985, 0.16520546, 0.29562506, 0.109781906, 0.028433772, -0.02691105, -0.39038795, -0.12942268, -0.080103286) * go_3(0.0, 0.0);
result += mat4(-0.05387814, -0.04672615, 0.046064686, 0.2791977, 0.11359623, -0.204098, -0.018091407, 0.13550591, 0.04216003, -0.1631328, -0.043013666, -0.045698896, 0.032403514, 0.010206319, -0.25789943, -0.36328712) * go_3(0.0, 1.0);
result += mat4(0.11280466, 0.11671405, -0.02122692, 0.021664057, -0.07836575, 0.014747725, 0.030007286, -0.10128616, -0.13695373, -0.10353946, -0.043571353, 0.05922437, -0.11293257, 0.0828006, -0.07322761, -0.08197273) * go_3(1.0, -1.0);
result += mat4(-0.0010509897, -0.1674067, 0.08191839, 0.056608744, 0.061343428, 0.19574693, 0.05302967, -0.006813754, -0.016064182, 0.22949885, -0.06631832, 0.034382205, 0.12674272, 0.06583508, 0.19319807, 0.011400221) * go_3(1.0, 0.0);
result += mat4(-0.032175347, -0.021227444, -0.027698517, 0.067299634, 0.23929007, 0.20669897, 0.004856941, 0.0009404045, 0.04919408, 0.020296812, 0.012571405, -0.16185577, -0.012276781, 0.16609742, -0.15718406, -0.20344186) * go_3(1.0, 1.0);
result += vec4(0.022815697, 0.012251767, 0.045309987, -0.0879881);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE conv2d_4_tf
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.010501252, -0.046741538, -0.0017120431, -0.04840009, 0.20547974, 0.3366821, -0.10182207, 0.17451541, -0.03404171, -0.15138055, 0.16771653, -0.07168161, 0.102572344, 0.08266354, 0.20205829, 0.13429944) * go_0(-1.0, -1.0);
result += mat4(0.05584234, 0.06844309, 0.025430907, 0.124140054, 0.36385667, 0.12099467, -0.41671994, 0.085477844, 0.19748127, -0.21473993, 0.005037813, -0.3973761, 0.04669592, -0.100342326, -0.09403772, -0.034248166) * go_0(-1.0, 0.0);
result += mat4(-0.17654696, 0.009085064, 0.028360577, 0.033909567, 0.09377573, 0.27896938, 0.103994116, 0.0008595595, 0.064523555, 0.040994007, -0.06337235, 0.05662917, 0.0037455747, 0.017608117, -0.14610702, 1.2175746e-05) * go_0(-1.0, 1.0);
result += mat4(-0.04631749, -0.14251712, -0.16420849, -0.16259338, 0.46187812, 0.17576592, 0.00049142196, 0.029193122, -0.003925961, -0.11218227, 0.007026237, -0.20583045, -0.0010964901, 0.19355829, 0.2221649, 0.1187224) * go_0(0.0, -1.0);
result += mat4(-0.041567978, -0.31510913, 0.01618704, 0.04979329, 0.101294376, 0.16356954, 0.21361789, 0.20735294, 0.1900854, -0.4151726, -0.30471593, -0.59483325, 0.033624128, 0.11495109, -0.15194787, 0.4920959) * go_0(0.0, 0.0);
result += mat4(-0.18910064, -0.06516878, -0.20508374, -0.063928686, 0.7289614, 0.26674315, 0.2929481, 0.4026098, -0.033123735, -0.090371035, -0.029094126, -0.15197921, -0.08723726, -0.060160585, -0.07908409, -0.08826931) * go_0(0.0, 1.0);
result += mat4(-0.08321312, -0.09749648, -0.08783197, -0.23072585, 0.24343425, 0.10888949, 0.17419606, 0.04136083, 0.0066000987, -0.06112787, -0.12176007, -0.20907228, -0.0008522778, -0.054704696, -0.07197735, -0.0877179) * go_0(1.0, -1.0);
result += mat4(-0.40559706, -0.3801705, 0.05970925, -0.6157092, 0.28944594, 0.1252121, 0.403247, -0.122819394, -0.096336536, -0.2324694, 0.05980106, -0.19970767, -0.16646989, -0.10164633, -0.09282806, -0.08897996) * go_0(1.0, 0.0);
result += mat4(-0.14336498, -0.12967408, -0.016268672, -0.021431219, -0.0850116, 0.37105832, -0.04093888, 0.08540873, 0.035717323, -0.07282701, -0.009123291, -0.0036565473, -0.02508944, -0.087611906, 0.03604423, -0.00089080486) * go_0(1.0, 1.0);
result += mat4(0.1373875, 0.05283984, -0.11992707, 0.102294855, 0.3305128, 0.044920854, 0.31622922, -0.04711731, 0.001336024, 0.022799017, -0.062343203, 0.017140022, -0.07556853, -0.12864219, -0.25721326, -0.20741239) * go_1(-1.0, -1.0);
result += mat4(0.22062224, 0.09266222, 0.22466063, 0.18527372, -0.06940306, 0.1317168, 0.019784274, -0.07422301, 0.04061616, 0.0022494853, 0.21723995, 0.24732308, 0.14088804, 0.0116154915, 0.102064446, 0.020701224) * go_1(-1.0, 0.0);
result += mat4(-0.025154127, 0.045180723, -0.05877639, -0.099235624, 0.13630918, 0.24653725, -0.05723323, -0.022995364, -0.10826078, 0.049667366, 0.12618053, 0.1557369, 0.037487056, -0.22215757, 0.005912914, -0.20549043) * go_1(-1.0, 1.0);
result += mat4(0.09641055, 0.098845296, -0.08192096, -0.03691394, -0.18450394, 0.29955688, -0.082493715, -0.06268039, -0.0754319, 0.21018648, -0.016580105, -0.1810546, 0.13857666, -0.0327626, 0.03161804, -0.32589525) * go_1(0.0, -1.0);
result += mat4(-0.18272439, -0.17595461, 0.047229152, 0.14596708, 0.40453747, 0.5658558, -0.17969102, 0.21557859, -0.34232348, 0.40355968, 0.53874254, 0.0012561383, 0.28154096, -0.06745097, -0.13049632, 0.42997465) * go_1(0.0, 0.0);
result += mat4(0.081179485, -0.0041369614, -0.12001932, -0.102107175, -0.050293338, 0.29165673, 0.08062538, 0.22925815, 0.19389379, 0.28463286, -0.057207666, 0.23133168, -0.07545728, 0.06729763, -0.103593476, 0.014468794) * go_1(0.0, 1.0);
result += mat4(0.069821335, -0.010299579, 0.069458775, 0.03894593, -0.054688405, 0.32758355, 0.13935772, 0.37506017, 0.24083133, -0.06105339, 0.25636867, 0.09627044, 0.08939188, 0.006728639, 0.10629504, 0.07887502) * go_1(1.0, -1.0);
result += mat4(0.10563019, 0.077379815, 0.045456886, 0.09303406, 0.11326298, 0.28762257, -0.35142374, 0.10285745, 0.28762287, 0.3592446, 0.23816557, 0.22676824, 0.030372012, -0.028023086, -0.30956736, -0.27588373) * go_1(1.0, 0.0);
result += mat4(0.110499, 0.009828844, 0.086689755, 0.1839749, 0.16656482, 0.083707325, 0.19506347, -0.01547141, 0.13804145, 0.2206598, -0.16484791, -0.0021595939, -0.06844408, -0.07861768, 0.040771082, -0.13347322) * go_1(1.0, 1.0);
result += mat4(0.02667995, 0.019265587, -0.18211095, -0.102116466, -0.042541366, -0.07700912, -0.020587347, -0.03532171, 0.14816427, -0.1672272, -0.17522137, -0.04657808, 0.013430233, -0.0021270285, 0.109880306, 0.004838907) * go_2(-1.0, -1.0);
result += mat4(0.14285165, -0.1364756, 0.017568532, -0.27690783, -0.015461915, 0.045437083, 0.018187419, 0.12473493, 0.17991658, -0.15642665, 0.10009151, -0.19040193, 0.1734127, -0.13817501, 0.0710856, -0.12921426) * go_2(-1.0, 0.0);
result += mat4(-0.14114712, -0.18893671, 0.16121174, 0.035988737, 0.17872387, -0.106395856, -0.23183517, 0.012380416, 0.043066982, -0.28539032, -0.049011275, -0.21125022, -0.11976977, -0.015564958, 0.18880925, -0.0034812456) * go_2(-1.0, 1.0);
result += mat4(-0.05894521, 0.17266215, -0.0458901, 0.08049924, 0.0156061025, -0.0047465423, 0.09714626, 0.045990974, -0.08786066, -0.37803304, -0.19629405, -0.08546443, 0.014874948, 0.16931784, 0.24799919, 0.06316819) * go_2(0.0, -1.0);
result += mat4(-0.28352743, 0.29973608, -0.014540065, 0.2865005, 0.048086923, 0.18976144, 0.22969759, 0.1643124, -0.11259408, -0.107592925, 0.184308, 0.30998367, -1.0860825, -0.29118305, -0.51242536, -0.38492215) * go_2(0.0, 0.0);
result += mat4(-0.17199941, -0.14274743, -0.14213641, -0.1691383, -0.17294803, -0.013992068, -0.12135059, 0.082377024, -0.11255549, -0.124990575, -0.32526177, -0.08199375, -0.25591666, 0.1882329, 0.07895415, 0.22012262) * go_2(0.0, 1.0);
result += mat4(0.026025832, -0.07267515, 0.09738688, 0.074536435, -0.060470507, -0.037861936, 0.0507819, -0.054857653, 0.0043173633, -0.18107842, -0.02996759, 0.04072402, -0.012617744, 0.061665237, 0.0013981885, 0.08679919) * go_2(1.0, -1.0);
result += mat4(0.27913737, 0.39656082, 0.1579819, 0.2774727, -0.007996453, 0.08704765, -0.016933938, 0.07066135, 0.12361742, -0.20802726, -0.13705719, -0.18794124, 0.037409827, -0.03351758, -0.2970392, -0.11001984) * go_2(1.0, 0.0);
result += mat4(-0.027419567, 0.043236237, -0.19843115, -0.056489736, -0.017010912, 0.070949584, -0.14881176, -0.0780235, 0.0039477753, -0.16772608, -0.009547604, -0.14060417, 0.0103197545, 0.07129672, 0.034949142, 0.014112084) * go_2(1.0, 1.0);
result += mat4(-0.06467971, 0.084101565, 0.26296136, 0.08878442, -0.11232121, -0.054373942, -0.17263442, 0.046408508, 0.032239515, 0.042490713, 0.036938053, -0.034339923, -0.07139367, 0.032505415, 0.0045828503, 0.24428385) * go_3(-1.0, -1.0);
result += mat4(0.053585388, -0.08175568, -0.04787236, 0.06061965, -0.0740297, 0.11113596, -0.12467945, 0.08229154, -0.01941305, 0.12903687, 0.09095716, -0.13062255, -0.0102068605, 0.107291475, 0.030279635, 0.07464777) * go_3(-1.0, 0.0);
result += mat4(0.11041978, -0.0123585425, 0.11147018, 0.07380536, 0.06632908, 0.011784447, 0.029638765, -0.01566135, 0.009105331, 0.05252663, -0.17972581, 0.01210126, -0.10749957, -0.028144639, -0.105761215, 0.083784826) * go_3(-1.0, 1.0);
result += mat4(-0.058018316, 0.15083058, 0.2725673, 0.024263225, -0.067711554, 0.051117413, -0.31144425, -0.15761986, 0.017503206, -0.14361219, -0.38261738, -0.20354146, -0.04211545, 0.12921454, -0.01319619, 0.35809723) * go_3(0.0, -1.0);
result += mat4(-0.107978396, 0.3230084, -0.13806303, 0.12903036, 0.039864987, -0.006241628, 0.18701774, -0.10785807, 0.30056882, -0.3092082, -0.4273322, 0.3784662, -0.026107281, 0.23165871, 0.35258314, -0.06654702) * go_3(0.0, 0.0);
result += mat4(-0.15840323, 0.15210885, 0.04086692, 0.19169305, 0.11847602, 0.0009038581, 0.095951624, 0.043941673, 0.1512248, 0.0749449, -0.027045414, -0.19729601, 0.08265063, -0.045218006, -0.10732461, 0.05197371) * go_3(0.0, 1.0);
result += mat4(0.13637526, 0.28841978, 0.10298119, -0.005948496, 0.020897362, -0.02186902, -0.16207378, -0.021084815, 0.029192554, 0.07076991, -0.07210881, -0.06752328, 0.0006557475, 0.08986717, -0.29430988, 0.21411087) * go_3(1.0, -1.0);
result += mat4(0.18667863, 0.3117322, -0.0859705, -0.038189936, 0.10214859, -0.11244034, 0.2680223, -0.072901204, -0.07434324, -0.17855306, 0.23134363, -0.055360887, -0.020968167, 0.0858459, 0.078975916, 0.13254759) * go_3(1.0, 0.0);
result += mat4(-0.15676941, 0.03476677, -0.09922334, -0.15847856, -0.0033982224, 0.020932984, 0.12874377, 0.048792202, 0.06521213, 0.12456798, 0.15958112, 0.15981804, 0.07657683, 0.1759313, 0.012727211, 0.120304115) * go_3(1.0, 1.0);
result += vec4(0.08911729, -0.027969634, -0.010653148, -0.08001697);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!SAVE conv2d_4_tf1
//!WIDTH conv2d_3_tf.w
//!HEIGHT conv2d_3_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_3_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_3_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.003206617, 0.04896987, 0.049652386, 0.10869342, 0.36313584, -0.070666805, 0.93581825, -0.52484274, -0.14278883, 0.064016834, -0.05534331, 0.02961736, -0.1319316, 0.05740655, 0.2405951, -0.12313382) * go_0(-1.0, -1.0);
result += mat4(0.014092832, 0.07058761, -0.07887866, -0.27478936, -0.31456405, -0.31036922, -0.18380909, -0.11277979, -0.034889866, -0.37914017, -0.056245584, 0.24008954, -0.03414483, -0.023189066, -0.010568316, -0.004604883) * go_0(-1.0, 0.0);
result += mat4(0.15443979, -0.050161768, -0.012300917, -0.08834887, 0.082193285, 0.06878423, 0.1478042, -0.3774468, -0.18659878, 0.14238152, 0.033605397, 0.13560006, -0.032682173, -0.024561955, 0.05656941, -0.034246165) * go_0(-1.0, 1.0);
result += mat4(0.04691462, 0.064624496, -0.15950382, 0.16081297, -0.1417951, -0.109690994, -0.021205869, 0.19361454, -0.006306647, 0.3401972, -0.00014070333, 0.11619607, -0.13437814, 0.05464789, 0.37712076, -0.12470751) * go_0(0.0, -1.0);
result += mat4(-0.40016884, 0.010666597, -0.005395378, 0.51084363, -0.009875391, 0.3969395, 0.47768033, -0.3392299, -0.1509509, -0.057620626, -0.1834601, -0.09998148, 0.10095897, -0.2213528, 0.02546703, -0.28506726) * go_0(0.0, 0.0);
result += mat4(0.26652217, -0.106772706, -0.12609608, -0.0949661, -0.10869194, -0.55331933, -0.011515521, -0.27978876, -0.2124893, 0.03954004, 0.1691768, 0.05590268, 0.1539662, 0.10703386, -0.027286088, 0.2168544) * go_0(0.0, 1.0);
result += mat4(-0.04862511, 0.06919758, -0.12962708, 0.016036907, -0.030030789, -0.20159967, 0.0013158675, -0.07799172, -0.032236706, -0.0035921712, -0.085437834, -0.025374755, -0.06251374, -0.009269627, -0.07519051, -0.01884611) * go_0(1.0, -1.0);
result += mat4(0.23940067, -0.19496065, -0.05494683, 0.11601073, -0.074225076, 0.24976431, 0.41665986, 0.12029472, 0.16815041, -0.115868434, 0.06333614, 0.032145746, 0.15990137, -0.14886795, 0.034102913, -0.07727595) * go_0(1.0, 0.0);
result += mat4(0.14702639, -0.013711502, 0.011437429, -0.11201445, -0.2582659, 0.34539905, 0.058082145, -0.18346462, 0.0027891365, 0.072565466, 0.12716974, 0.050636146, 0.092657596, 0.08541754, -0.1266164, 0.027881607) * go_0(1.0, 1.0);
result += mat4(0.043362036, 0.020758621, 0.09906072, -0.22401148, -0.19104514, -0.25774476, 0.074128486, 0.08558291, -0.075419895, 0.20380639, 0.06398196, 0.015925938, 0.089786015, -0.100721814, -0.1374862, 0.26110905) * go_1(-1.0, -1.0);
result += mat4(-0.12547149, 0.08151811, -0.15953775, -0.33995447, -0.50784314, 0.46155545, 0.24986996, 0.03404644, -0.047789436, -0.12438347, -0.14143273, -0.17951359, -0.08057819, 0.023863006, -0.008539273, -0.06775414) * go_1(-1.0, 0.0);
result += mat4(0.1430169, 0.056971863, -0.021576611, -0.045342956, -0.22356391, -0.15344621, -0.0467977, -0.22970036, -0.0125351725, 0.16957329, -0.0069183917, -0.013949834, -0.048609708, 0.05261722, 0.023262242, 0.2123519) * go_1(-1.0, 1.0);
result += mat4(-0.019523792, 0.008228363, -0.04616012, -0.14341992, -0.19307113, 0.005937241, 0.24048887, -0.04279845, 0.022574252, 0.15558265, -0.035000063, 0.18318397, -0.05392528, -0.26044658, -0.13493988, 0.056433514) * go_1(0.0, -1.0);
result += mat4(-0.28926027, -0.17381874, 0.07685766, -0.0061521684, -0.47455552, -0.49213487, 0.36924496, 0.29042044, 0.201094, -0.14280887, -0.4531411, -0.52902204, -0.28123, 0.1401882, 0.32054895, -0.11357518) * go_1(0.0, 0.0);
result += mat4(0.14173324, -0.12069898, -0.07242415, 0.105665006, 0.017373435, -0.056042343, 0.07270201, 0.022111928, -0.01106541, 0.01666006, 0.013564169, -0.36628693, -0.25450787, -0.28179473, -0.04721874, -0.21912882) * go_1(0.0, 1.0);
result += mat4(-0.09464695, -0.027919646, 0.13088459, 0.17504032, -0.101641014, 0.29687008, 0.08832321, 0.020538324, -0.15108941, -0.21930224, -0.026915176, -0.07078217, 0.10723033, 0.034364715, 0.18183397, -0.119012214) * go_1(1.0, -1.0);
result += mat4(-0.21713468, -0.0846604, 0.046551514, -0.14989382, 0.08672032, -0.07933831, 0.08093595, -0.064147756, -0.15980323, 0.50000644, -0.091568656, 0.03201994, -0.1848647, -0.0646309, 0.03288009, 0.046442386) * go_1(1.0, 0.0);
result += mat4(0.053532355, -0.054523747, -0.040242642, -0.31438905, 0.06452703, -0.18785381, -0.14987698, -0.067642935, -0.19892459, -0.057256676, 0.05943023, -0.17331842, 0.02588534, 0.13134238, -0.07121775, 0.23446162) * go_1(1.0, 1.0);
result += mat4(0.20633182, 0.01686198, 0.17934167, -0.02063493, 0.042606052, -0.05289458, 0.031508356, 0.00082803797, 0.0756423, -0.047548845, 0.01456339, 0.15910533, -0.20119642, 0.029213727, 0.111036316, -0.047010012) * go_2(-1.0, -1.0);
result += mat4(0.09258436, -0.27904224, -0.086695746, 0.33095327, -0.20126075, -0.050745636, -0.048944805, -0.10536587, -0.012995092, 0.07926994, 0.15071853, -0.13644052, -0.05188447, -0.06750699, -0.14227037, 0.028751127) * go_2(-1.0, 0.0);
result += mat4(-0.18562223, 0.10250865, -0.17573993, 0.20434102, -0.05187468, -0.06441594, -0.052127104, -0.01925564, 0.02927959, -0.12711872, 0.059629507, 0.15696885, -0.010168965, 0.09971862, -0.03177664, -0.022744441) * go_2(-1.0, 1.0);
result += mat4(0.21474063, -0.15679085, 0.09609374, 0.109079376, -0.049934637, -0.07393633, 0.16688468, -0.018888129, 0.04240162, -0.31895876, -0.106516436, 0.20008606, -0.054410245, 0.028970616, -0.18008347, -0.013362003) * go_2(0.0, -1.0);
result += mat4(0.37891293, 0.042730846, -0.24735828, -0.5234527, -0.3681344, -0.06609157, -0.14993733, -0.020316398, 0.123008475, 0.29632482, 0.32149333, 0.35999274, -0.18967044, 0.46154186, -0.016041815, 0.097378336) * go_2(0.0, 0.0);
result += mat4(-0.14873263, 0.07600569, -0.051758345, 0.1803135, -0.23121934, 0.13574593, 0.043973465, -0.13992754, -0.061972607, -0.124083005, -0.049196843, -0.07700431, 0.21572952, -0.25241727, 0.1218322, -0.07773728) * go_2(0.0, 1.0);
result += mat4(0.040287063, 0.024240922, 0.021917762, -0.050616946, -0.023174169, 0.05977014, 0.018892275, 0.04014965, 0.11715485, 0.062129, 0.024620812, 0.013617107, 0.075699426, 0.1858111, -0.11769179, -0.08085602) * go_2(1.0, -1.0);
result += mat4(-0.3194255, 0.08695645, -0.09453595, 0.2564516, 0.02192303, 0.08167247, -0.06257352, 0.043801844, 0.04392246, 0.2020571, 0.045180902, 0.18857521, 0.1835961, -0.043788187, -0.08768916, -0.14755538) * go_2(1.0, 0.0);
result += mat4(-0.22074097, 0.13768476, -0.16183749, 0.059949517, -0.011375954, 0.08581876, 0.004800447, 0.019403988, 0.014646056, 0.07363176, -0.058036458, 0.0706421, 0.08082624, 0.17740329, -0.05484784, 0.050796065) * go_2(1.0, 1.0);
result += mat4(-0.032330472, -0.067666024, 0.18980837, -0.19077848, 0.1111905, 0.03855666, -0.11272314, -0.00577739, 0.17697452, -0.053044144, -0.07510145, 0.061853852, -0.024240626, 0.14846492, 0.14804313, -0.20275854) * go_3(-1.0, -1.0);
result += mat4(0.17133904, -0.16356844, 0.1978664, 0.13877816, 0.28208038, 0.031539194, 0.11313891, -0.0014802719, 0.0033749861, 0.046372313, 0.054808807, -0.0024151779, 0.0068782056, -0.16414621, -0.07545907, -0.2521294) * go_3(-1.0, 0.0);
result += mat4(-0.1746992, -0.037628956, -0.0044012754, -0.004390821, 0.0050341445, -0.112742625, 0.051241755, 0.01984483, 0.0003531837, 0.043500375, 0.030881992, 0.003503799, 0.13611782, -0.02509031, -0.007503557, -0.009321301) * go_3(-1.0, 1.0);
result += mat4(0.087250136, 0.12374122, 0.2959519, 0.11314702, 0.22080182, 0.106726184, -0.29768205, 0.14931595, 0.23356548, -0.008709153, -0.0797829, 0.046940215, -0.07027616, 0.20533602, 0.0723021, -0.1963585) * go_3(0.0, -1.0);
result += mat4(0.00609982, 0.35277408, -0.22781096, -0.28912535, 0.42393112, -0.07654207, 0.12636793, 0.049337976, -0.0967726, -0.19349189, 0.36800626, 0.09745645, 0.47663373, 0.03876107, -0.042987954, 0.016161885) * go_3(0.0, 0.0);
result += mat4(-0.047490966, -0.05823166, 0.036158644, 0.025337253, -0.046618905, 0.108276576, -0.024148034, 0.0026794411, 0.1497962, -0.09328474, -0.03160641, 0.24351281, -0.05198027, 0.030720685, 0.00014528916, -0.2224931) * go_3(0.0, 1.0);
result += mat4(-0.007338369, 0.18710312, 0.14617369, -0.0070655346, 0.10464997, -0.029674934, -0.11842202, -0.09114357, 0.08524458, -0.08082762, 0.06479597, -0.023760766, 0.07523641, 0.0067315935, 0.101266846, -0.2780903) * go_3(1.0, -1.0);
result += mat4(0.14181875, -0.19523518, 0.1068169, -0.10284853, 0.11634046, -0.117397435, 0.09113022, 0.009371062, -0.022120507, -0.1127032, 0.092574745, -0.021989716, -0.088107705, -0.13541982, 0.08130504, -0.0678927) * go_3(1.0, 0.0);
result += mat4(0.09948295, 0.23699793, -0.042369924, 0.16744529, -0.10045506, -0.045623623, 0.04871897, -0.0023967526, 0.02602692, -0.089873284, -0.050681606, -0.09332558, -0.09596149, -0.06988313, 0.0007193808, -0.11936899) * go_3(1.0, 1.0);
result += vec4(-0.04928105, -0.003357327, -0.03886671, 0.076106146);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!SAVE conv2d_5_tf
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.13425097, -0.23487093, 0.2480183, -0.2806276, -0.041303713, 0.100773126, -0.110890545, 0.036205858, -0.331331, -0.12929262, 0.16300063, 0.3776673, -0.20316373, -0.011239426, 0.10650887, -0.027857736) * go_0(-1.0, -1.0);
result += mat4(0.09517376, -0.3004956, 0.05033304, -0.07464521, 0.009204248, -0.23034886, 0.30492118, -0.1215848, 0.15728685, -0.10430078, 0.04038878, 0.08034804, 0.04320418, -0.2929594, -0.018968396, 0.02542387) * go_0(-1.0, 0.0);
result += mat4(-0.10651935, -0.2736715, 0.19267319, -0.033337504, -0.06697293, 0.028424729, 0.047814637, 0.44929537, 0.02565344, -0.253426, -0.040931404, -0.05018104, 0.032979824, -0.035349697, -0.039578713, -0.3116414) * go_0(-1.0, 1.0);
result += mat4(0.09176126, 0.031713437, 0.24861507, 0.31351718, 0.36284143, 0.3622709, 0.16165464, 0.07319267, -0.6303202, -0.21209712, -0.02169929, 0.037275597, -0.1295319, 0.033090707, -0.029330662, 0.054679472) * go_0(0.0, -1.0);
result += mat4(0.15021572, -0.15177831, 0.1318225, 0.46864823, 0.059443284, 0.07404233, 0.22612074, 0.21105285, 0.319694, 0.09397257, 0.14277866, -0.0235649, -0.037205156, -0.40715128, -0.18572816, 0.058741573) * go_0(0.0, 0.0);
result += mat4(-0.122751735, -0.20926422, 0.2099333, -0.11627138, 0.04171681, 0.0669586, -0.03831368, 0.27334675, 0.0492008, 0.12854317, 0.03308622, 0.45236585, 0.03122829, 0.13853219, 0.05084764, -0.3965012) * go_0(0.0, 1.0);
result += mat4(-0.0019293908, -0.15562099, 0.12418126, 0.0045440597, 0.05442391, -0.15613738, 0.14828286, -0.17687118, -0.053517755, -0.33350968, -0.062314924, -0.31358472, -0.09670371, 0.043190923, 0.008150662, 0.09928506) * go_0(1.0, -1.0);
result += mat4(-0.06698031, -0.099411525, 0.24259582, -0.1073659, 0.06762824, 0.059605874, -0.20944163, -0.1598055, 0.32746908, -0.17759447, 0.2859796, -0.1274256, 0.30796206, -0.00791448, 0.114059694, 0.14775705) * go_0(1.0, 0.0);
result += mat4(0.16291203, -0.14958477, 0.14716864, 0.2056065, -0.019337546, 0.032286238, 0.0030445335, -0.08208513, -0.14208078, 0.13601872, -0.23367858, -0.19092909, -0.20207883, -0.016950991, 0.009309007, 0.1376546) * go_0(1.0, 1.0);
result += mat4(-0.11093091, -0.32362202, -0.041845415, 0.029758021, -0.07261404, -0.048653398, 0.19167832, 0.09343212, 0.030472826, -0.15078579, -0.0056376588, 0.0045257527, -0.24521805, -0.10473077, 0.11163019, -0.1724187) * go_1(-1.0, -1.0);
result += mat4(-0.08601668, 0.16612485, -0.07751539, 0.07261594, -0.19028407, 0.23896623, -0.10416726, 0.23500614, 0.1955228, 0.08699591, -0.049277775, 0.13447775, 0.19434914, -0.11481196, 0.088043146, 0.13352895) * go_1(-1.0, 0.0);
result += mat4(-0.013221233, 0.07521129, 0.042819552, -0.11163175, 0.066080205, -0.25043094, -0.010348969, -0.013258202, 0.09444396, 0.29623637, 0.025016114, 0.050744686, -0.12219596, -0.0735393, -0.024817836, -0.06897588) * go_1(-1.0, 1.0);
result += mat4(-0.25720942, 0.19861753, -0.18535058, 0.12190362, -0.33756095, -0.0038898317, 0.09739055, 0.41227046, -0.10030796, 0.025445882, -0.23542109, 0.08677691, 0.08140194, -0.22716106, 0.14016968, -0.0927231) * go_1(0.0, -1.0);
result += mat4(0.58745646, -0.12533307, 0.30129984, 0.08898194, -0.07972344, -0.37581098, 0.06863413, -0.13185541, 0.21801205, 0.31779078, -0.3804784, -0.3200699, 0.14534226, 0.05912262, 0.07938948, -0.34869507) * go_1(0.0, 0.0);
result += mat4(0.024675166, -0.067802526, 0.030065436, 0.06509131, 0.14367498, 0.022554757, 0.014991865, -0.029914752, 0.5123549, -0.012557206, -0.13014166, -0.34184244, -0.09080884, 0.13782553, -0.018931886, -0.35642785) * go_1(0.0, 1.0);
result += mat4(-0.37336427, -0.02705006, 0.14392053, 0.024049882, -0.024705589, 0.14556128, -0.12120506, -0.06275598, -0.1284325, 0.11409197, -0.08397436, -0.075944416, 0.056465942, 0.04016099, 0.096723564, -0.08359723) * go_1(1.0, -1.0);
result += mat4(0.20243345, -0.09287934, -0.11676041, 0.005206654, -0.2879361, 0.41677123, -0.16924824, 0.22429213, 0.082279116, -0.1780833, 0.20209241, 0.12970525, -0.030272234, -0.19200714, 0.0015769673, -0.1389732) * go_1(1.0, 0.0);
result += mat4(0.04211243, 0.07331798, -0.055724114, 0.04086206, -0.04635456, 0.027212424, 0.021861525, 0.12424812, 0.43009162, 0.021664696, 0.20828371, 0.11859106, 0.07390811, -0.1861182, 0.034559406, 0.18561925) * go_1(1.0, 1.0);
result += mat4(0.22596797, 0.025346763, -0.056839246, 0.09137385, 0.07363095, -0.12382036, 0.08911783, -0.012355983, -0.07869761, 0.051298574, 0.00816572, -0.044984274, 0.07962154, -0.2254524, -0.007821531, -0.04936664) * go_2(-1.0, -1.0);
result += mat4(0.06265961, -0.17783198, 0.11678783, -0.12965304, 0.014506855, -0.17513473, -0.23593299, 0.14054537, 0.1580306, 0.31872272, -0.0042505316, -0.070422255, -0.01316396, 0.0058355615, 0.062464185, -0.06086727) * go_2(-1.0, 0.0);
result += mat4(-0.079526044, 0.23932967, -0.1139716, 0.15888569, 0.06526993, -0.06958436, -0.04070066, -0.12081254, 0.026716579, 0.014887845, 0.0061467467, 0.127956, 0.040913627, -0.0032820841, 0.086145625, 0.22520025) * go_2(-1.0, 1.0);
result += mat4(0.25577608, 0.02553098, -0.14822578, -0.11907723, -0.09787419, -0.03544863, -0.08098151, -0.01305555, 0.20404844, 0.11294246, 0.10096346, 0.15795162, 0.2554626, 0.09361069, 0.001985862, -0.0051444587) * go_2(0.0, -1.0);
result += mat4(-0.24454486, -0.014714279, -0.2954907, -0.39995646, -0.15907967, 0.30107877, -0.34781745, 0.095281735, -0.12492393, -0.28375402, -0.16872306, 0.2531788, -0.52085644, 0.35986066, 0.07716912, 0.09565738) * go_2(0.0, 0.0);
result += mat4(0.2493129, 0.06395661, -0.09491958, 0.19702488, 0.109871864, -0.051376317, 0.15404263, -0.21282886, 0.1188967, 0.07824094, -0.016752928, -0.14027214, 0.10949832, -0.27629098, 0.081909016, 0.1354018) * go_2(0.0, 1.0);
result += mat4(0.18950915, -0.034574565, -0.10378051, -0.15800652, -0.06835184, -0.06987467, 0.035007782, 0.04686656, 0.054061133, 0.014833506, -0.0035361175, 0.016156103, 0.120767444, -0.10196722, 0.10668838, -0.09058739) * go_2(1.0, -1.0);
result += mat4(-0.032248627, 0.056413256, 0.042716432, 0.06681831, 0.047605485, -0.07629479, 0.14311917, -0.06909803, 0.10640394, 0.10701861, -0.0051839007, -0.15133362, -0.32146424, -0.039978918, -0.12280021, 0.0048507582) * go_2(1.0, 0.0);
result += mat4(-0.1954503, -0.09257865, 0.11023244, -0.01817947, -0.0035485283, -0.015536726, 0.0071826433, 0.042538714, -0.015454641, 0.079593316, -0.07242554, 0.031178504, 0.2319168, -0.10519467, 0.013837495, -0.040088437) * go_2(1.0, 1.0);
result += mat4(0.12625901, 0.04531166, 0.038758352, -0.05790713, -0.10029771, -0.118265375, -0.23944628, 0.11955388, 0.070732996, 0.19404806, -0.019913414, 0.04609079, 0.06262817, 0.022330387, -0.029681094, 0.03719176) * go_3(-1.0, -1.0);
result += mat4(-0.07737922, 0.0024623116, -0.037666153, -0.19271135, -0.015002153, -0.0059966356, 0.0024538909, -0.0401021, -0.18540399, -0.11140236, -0.11102473, -0.06390247, 0.016754225, 0.35000673, -0.19139731, 0.07363001) * go_3(-1.0, 0.0);
result += mat4(0.02150171, -0.2311761, -0.025124706, 0.16819553, -0.0013348719, 0.32091036, -0.061826598, 0.12579474, -0.036611024, -0.018266583, -0.11280143, 0.11073158, 0.050171874, -0.14706045, 0.029553955, 0.0052631944) * go_3(-1.0, 1.0);
result += mat4(0.19249865, -0.22854832, 0.09472751, 0.014705341, 0.059496958, 0.13427268, -0.06309558, -0.07153743, -0.31890163, -0.0657967, -0.040345218, 0.09544393, 0.07359761, 0.11245483, 0.00033233972, 0.031550154) * go_3(0.0, -1.0);
result += mat4(-0.24668917, -0.37181908, -0.50614715, -0.101197146, -0.1569055, 0.27734125, 0.17144768, -0.04336267, 0.03658949, 0.06747124, 0.30720958, 0.56301194, -0.11314631, -0.29258573, 0.16256689, 0.5221001) * go_3(0.0, 0.0);
result += mat4(-0.022761503, 0.13063031, 0.002526217, -0.03466151, -0.15225072, 0.40217137, -0.089131154, 0.19195192, -0.1379853, -0.04640692, 0.104670234, 0.12268618, -0.012009209, -0.20534724, 0.028777445, 0.22195113) * go_3(0.0, 1.0);
result += mat4(0.23697586, 0.08793654, -0.10565018, 0.013993297, -0.025932996, -0.13859354, 0.14333159, -0.099132575, -0.049601994, -0.0917448, -0.0021633878, -0.009032609, -0.034750953, -0.30761167, 0.058994945, -0.19427797) * go_3(1.0, -1.0);
result += mat4(-0.26944515, 0.30523893, -0.17787015, 0.10827742, 0.06457236, -0.12202401, 0.15371302, 0.011699893, -0.06253491, -0.10976804, -0.37283847, -0.23996784, -0.2750512, -0.024101513, -0.094127975, -0.17462716) * go_3(1.0, 0.0);
result += mat4(-0.026286924, 0.06250577, 0.095423855, -0.02849258, -0.12916361, -0.10954709, -0.05825132, -0.102924265, -0.19550376, -0.11730307, 0.032346163, -0.17682706, 0.16651174, 0.031927045, -0.004800601, -0.06323844) * go_3(1.0, 1.0);
result += vec4(0.0095873345, 0.04959374, -0.15246227, 0.0044831373);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!SAVE conv2d_5_tf1
//!WIDTH conv2d_4_tf.w
//!HEIGHT conv2d_4_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_4_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_4_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(-0.021453971, -0.108874515, 0.0005208881, -0.09774453, -0.0053757126, 0.20114918, 0.24454592, 0.04932251, -0.0037210248, -0.0240578, -0.07736935, 0.27604944, -0.12430849, -0.13093218, -0.014840212, 0.13450128) * go_0(-1.0, -1.0);
result += mat4(-0.19143668, -0.23023333, -0.10232715, 0.24396868, 0.056112397, 0.14535592, -0.25882182, -0.26274678, -0.23119931, 0.07735849, -0.14785223, -0.21026523, -0.2064457, -0.34512606, -0.17808662, 0.30146623) * go_0(-1.0, 0.0);
result += mat4(0.0072161015, -0.013303738, 0.07591899, 0.027883789, 0.210858, 0.1422139, -0.027882019, 0.2618474, -0.048504543, 0.07377317, -0.05427271, -0.10014041, -0.12974857, -0.13140713, -0.02249253, 0.08203184) * go_0(-1.0, 1.0);
result += mat4(0.07855138, -0.13984342, 0.10037151, -0.056781758, 0.24686107, -0.0048190085, -0.2693424, 0.31722167, -0.28716075, -0.06422215, -0.06738793, -0.06723655, -0.08194382, -0.007975044, 0.20108353, -0.13338897) * go_0(0.0, -1.0);
result += mat4(0.35129568, 0.27930936, 0.024239251, -0.10712293, 0.48684034, -0.04380574, -0.0064479653, 0.03754327, -0.13139078, -0.44939983, -1.0460628, -0.016004754, -0.14476573, -0.07113434, 0.515311, -0.400374) * go_0(0.0, 0.0);
result += mat4(0.13104302, -0.23410062, 0.091530964, -0.003652217, 0.16696814, 0.16406855, -0.08138474, 0.047526445, 0.25358474, 0.37850454, 0.0362802, -0.046476766, -0.093869686, -0.4143772, 0.08641024, 0.115896136) * go_0(0.0, 1.0);
result += mat4(-0.04416574, -0.052188106, 0.05141859, -0.008132604, -0.013658864, 0.1021097, 0.19391364, -0.09257973, 0.15225394, -0.16920799, -0.16172324, 0.41466942, -0.07087308, 0.08632938, -0.07496043, -0.023530172) * go_0(1.0, -1.0);
result += mat4(0.09337352, 0.062108494, -0.219173, -0.046151914, 0.22507025, -0.08966131, -0.123690315, 0.08666376, -0.10731867, -0.08518657, 0.024199447, 0.17898631, 0.120247275, 0.089923285, -0.08756211, 0.1775775) * go_0(1.0, 0.0);
result += mat4(0.20326594, -0.060535498, -0.061659336, 0.113954924, -0.073462196, 0.15917051, 0.11728326, -0.072256014, -0.0752342, 0.06265616, -0.19494365, -0.25413772, -0.06641352, -0.015642308, 0.16825356, 0.0027654327) * go_0(1.0, 1.0);
result += mat4(-0.17029639, -0.05388927, -0.13159063, 0.0795609, 0.00501164, -0.0703107, -0.08229201, 0.07546247, 0.092942156, 0.059050936, -0.07987315, 0.010874322, 0.037708692, -0.0017377702, -0.030414931, 0.28946167) * go_1(-1.0, -1.0);
result += mat4(-0.2692667, 0.2258295, 0.062060453, 0.1934921, -0.023051793, -0.038611185, 0.21473692, 0.33520013, 0.029885106, 0.103782356, 0.05217351, -0.13349791, -0.034186684, -0.3015818, 0.033423528, 0.21218027) * go_1(-1.0, 0.0);
result += mat4(-0.013587494, 0.021273775, -0.022650799, -0.011939531, -0.11202949, 0.09365859, -0.042938907, -0.009910716, 0.27254924, 0.07752608, 0.029586637, 0.024899973, 0.04375618, 0.31453863, -0.006775175, 0.008228053) * go_1(-1.0, 1.0);
result += mat4(-0.49562672, -0.12472124, -0.13618441, 0.09660054, -0.2275429, -0.0902811, 0.18311924, 0.11677185, -0.13325182, -0.061613016, -0.011462703, -0.12538978, 0.054934092, 0.06742866, 0.25515345, 0.35692096) * go_1(0.0, -1.0);
result += mat4(0.5266911, -0.09655596, -0.41069564, -0.3174325, 0.1431904, -0.17732115, -0.36320353, 0.37975433, -0.5158582, -0.21019879, 0.06852925, -0.06648648, -0.18956456, -0.018139647, 0.35707653, 0.07378416) * go_1(0.0, 0.0);
result += mat4(0.04151976, -0.037361674, 0.06936584, -0.10462262, -0.22264048, -0.043842267, -0.12742832, -0.21778631, 0.0715335, -0.17921853, -0.3856251, -0.16335362, 0.21045755, -0.5026229, 0.14405337, 0.23096423) * go_1(0.0, 1.0);
result += mat4(-0.32437655, 0.07860345, -0.0021187086, 0.123870686, -0.16616751, 0.11004699, 0.04754715, -0.0075211064, -0.08026408, 0.04284957, -0.018143758, 0.032623176, 0.06614686, -0.035856936, 0.13667971, -0.15696613) * go_1(1.0, -1.0);
result += mat4(0.11260625, 0.03274457, -0.033769324, -0.11558525, -0.35377702, 0.0019119612, 0.24906515, -0.06853208, 0.0009843144, -0.0050376705, 0.063123666, 0.009872904, 0.19592324, 0.0028321196, -0.114693984, 0.16404222) * go_1(1.0, 0.0);
result += mat4(-0.03699667, 0.011842293, -0.12273219, 0.04081692, 0.008484447, -0.052331816, 0.07151068, 0.018538639, 0.077749036, 0.07189092, 0.22443593, -0.2436085, 0.023654116, -0.05127411, 0.27350748, 0.12180999) * go_1(1.0, 1.0);
result += mat4(0.16090482, 0.059198547, 0.04856637, -0.19173436, 0.12747662, -0.079715036, -0.20203276, -0.13818277, -0.123076215, -0.07168488, 0.0644838, 0.03524764, 0.0005124138, -0.06789178, 0.048645556, -0.098922126) * go_2(-1.0, -1.0);
result += mat4(0.29220074, 0.25197285, 0.09825887, 0.030363245, -0.033246458, -0.08370418, -0.12231589, -0.023000835, 0.082732, -0.16907515, -0.052518822, 0.07991363, 0.06222654, -0.06747275, -0.18931144, -0.42009747) * go_2(-1.0, 0.0);
result += mat4(0.02667354, 0.03842717, -0.012755562, 0.061840586, 0.01060547, -0.29081437, 0.010907111, 0.07930905, 0.12273201, 0.017574295, 0.051024225, 0.019036688, 0.07671181, 0.049130872, -0.09734168, -0.070569195) * go_2(-1.0, 1.0);
result += mat4(0.08517651, 0.0767222, -0.15657257, 0.18501835, -0.13749431, -0.2833894, 0.109219365, 0.033763003, 0.18988928, 0.13461404, -0.036578514, -0.13256857, -0.097819485, -0.17316358, -0.06512401, 0.1937444) * go_2(0.0, -1.0);
result += mat4(-0.32173568, -0.072075866, 0.13004705, -0.15507852, -0.23741087, -0.29364398, 0.10723945, -0.11976219, 0.20620506, 0.17970093, 0.24463713, -0.12555319, -0.021192182, -0.1374317, 0.5359718, 0.59974134) * go_2(0.0, 0.0);
result += mat4(-0.01101575, 0.040466793, -0.009630791, 0.13422947, -0.13290837, -0.24789505, -0.061713737, -0.07838521, 0.05379315, -0.14643523, -0.09155805, -0.049997047, 0.06696885, 0.20043123, -0.07542329, -0.08041673) * go_2(0.0, 1.0);
result += mat4(0.022160506, 0.01611432, -0.10189221, -0.022767285, -0.06682965, 0.047138248, 0.06860934, -0.012574086, 0.04010214, -0.041280016, -0.034621384, -0.018262599, 0.09731754, -0.059062295, 0.14786182, -0.15185094) * go_2(1.0, -1.0);
result += mat4(-0.052484483, 0.06899427, 0.18380043, -0.058414727, 0.07685985, -0.07206598, -0.101362616, -0.012002652, 0.008517392, 0.079471916, -0.30394664, 0.028600946, -0.03270232, -0.23564856, 0.045065008, -0.0034684737) * go_2(1.0, 0.0);
result += mat4(-0.049757, 0.07614825, 0.16394803, 0.027053174, 0.0451278, -0.09351286, -0.0042182617, 0.12332257, -0.025281021, -0.03843008, 0.12857373, -0.07611989, -0.0062898803, 0.022618141, -0.13122174, -0.03328411) * go_2(1.0, 1.0);
result += mat4(0.12251631, 0.047008447, 0.027589995, -0.12207328, -0.1510795, 0.06724553, 0.17066906, 0.16992114, -0.0026905634, -0.035480864, 0.033738773, 0.018674552, 0.028614907, -0.019945908, -0.0156899, -0.09562145) * go_3(-1.0, -1.0);
result += mat4(0.116588935, 0.14205505, 0.099545434, -0.045527786, -0.049273346, 0.20760757, 0.053965498, -0.12198069, -0.14654607, 0.041820496, 0.038068503, 0.24565905, 0.09786504, 0.18309233, 0.23802327, -0.085740186) * go_3(-1.0, 0.0);
result += mat4(-0.1262052, -0.011846116, -0.058820397, -0.019373653, -0.09569547, -0.08265971, -0.05178388, -0.020502446, -0.17525336, -0.22874829, 0.0075891856, -0.189923, 0.09809122, 0.109637566, -0.0005973885, -0.06477921) * go_3(-1.0, 1.0);
result += mat4(0.28209856, 0.11276813, 0.054377034, -0.00891202, -0.095922634, 0.071109876, -0.039932176, -0.047409832, -0.06504704, 0.11923986, 0.0013364811, -0.122095086, -0.20282102, -0.022717483, -0.115474045, 0.020858249) * go_3(0.0, -1.0);
result += mat4(-0.16130303, 0.072821185, -0.021358958, -0.11687897, -0.15543966, 0.05783285, 0.10317231, -0.12240756, 0.053357504, -0.090291016, -0.21943556, 0.46947235, 0.19072579, 0.017349033, -0.55443907, -0.10510661) * go_3(0.0, 0.0);
result += mat4(-0.4155687, 0.019206723, -0.20055711, 0.028732464, -0.1981807, 0.20637372, 0.03305817, -0.17949893, -0.21051097, 0.21483344, 0.0061496794, -0.48980987, -0.26750582, 0.09230394, -0.117223755, -0.07636286) * go_3(0.0, 1.0);
result += mat4(0.20611528, -0.00095511036, -0.21555157, -0.07065484, 0.06880411, 0.068082534, -0.10104979, 0.16050354, -0.07437897, -0.13145325, -0.017651044, 0.055096775, -0.05443345, -0.018634815, -0.011232755, -0.10835) * go_3(1.0, -1.0);
result += mat4(-0.2637829, 0.07681072, 0.015995527, 0.004554211, 0.07495561, 0.18873464, -0.14303622, 0.25786543, -0.14117226, -0.008715274, -0.17176823, -0.0006595096, -0.06566383, -0.19184378, -0.18945406, 0.20968987) * go_3(1.0, 0.0);
result += mat4(-0.03293623, 0.003399063, 0.08051177, -0.0072856937, -0.07375858, 0.075319655, -0.10791501, -0.002204552, -0.093564905, -0.122712255, -0.10658267, -0.015067637, -0.033247817, 0.09952069, -0.13724248, 0.068189256) * go_3(1.0, 1.0);
result += vec4(-0.001935585, 0.05018077, -0.0154469935, -0.034524206);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!SAVE conv2d_6_tf
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.0053346683, 0.010174534, -0.050979972, -0.06134544, -0.007238652, -0.012790015, 0.036398683, -0.09181499, 0.11328388, -0.14236617, -0.17519625, -0.34661606, 0.008069393, -0.028871074, -0.02980949, -0.0853359) * go_0(-1.0, -1.0);
result += mat4(-0.05187267, -0.09381704, 0.035209883, 0.29482442, -0.0018002815, -0.029504262, 0.2609028, -0.09480671, -0.0737553, -0.070559524, 0.081991084, 0.1513024, 0.048344653, -0.09336617, 0.0034569732, 0.10530542) * go_0(-1.0, 0.0);
result += mat4(-0.06749591, 0.0065624053, 0.013237342, 0.14225115, 0.27183163, -0.15656447, 0.031672053, 0.009592649, -0.0202286, 0.26220062, 0.19387855, -0.18505628, 0.040554795, 0.07295961, -0.13291295, -0.12600344) * go_0(-1.0, 1.0);
result += mat4(0.039192002, 0.0846215, -0.06593224, 0.28147796, 0.06301313, 0.26323164, -0.16742979, 0.22004774, -0.17470881, 0.060716614, 0.15430811, 0.18970133, 0.08858931, -0.027321626, -0.037833836, 0.07344837) * go_0(0.0, -1.0);
result += mat4(0.0633813, 0.35046157, -0.101075254, 0.015974075, 0.19010352, -0.7135035, -0.24324696, -0.42072615, 0.06825536, -0.052808974, 0.28965715, -0.0015640302, -0.27062586, 0.4279925, 0.035623744, 0.46321228) * go_0(0.0, 0.0);
result += mat4(0.02639867, 0.26469797, -0.09086266, 0.07440796, -0.192054, 0.1010368, -0.04398074, 0.056824226, -0.27057743, -0.20455118, 0.19338831, -0.21843775, 0.20736177, -0.26259273, -0.07667085, -0.19504389) * go_0(0.0, 1.0);
result += mat4(-0.007056104, 0.04284205, 0.01933733, 0.07267832, 0.0012616975, -0.30140647, -0.019223223, -0.046687007, -0.037844718, -0.014929125, 0.022630794, 0.046716493, 0.057279173, -0.08055539, -0.027891241, 0.019557232) * go_0(1.0, -1.0);
result += mat4(0.035518404, -0.10087327, 0.0011048123, -0.123707846, 0.37190285, 0.43751532, -0.022599256, -0.041709043, 0.11357196, -0.029839104, -0.056960747, -0.17228557, 0.08558022, 0.046361133, 0.021548864, 0.24297418) * go_0(1.0, 0.0);
result += mat4(-0.043598346, -0.09812348, 0.056599542, -0.09833163, -0.07193007, 0.015760094, -0.053177495, -0.015448543, 0.035163186, -0.03889347, 0.121799015, 0.15738566, -0.115644835, 0.043310717, 0.060173217, -0.059635755) * go_0(1.0, 1.0);
result += mat4(-0.111604795, 0.1678389, 0.049967546, 0.045353863, -0.013896185, 0.035128903, 0.040686198, -0.16442506, 0.1149577, -0.14343217, -0.08858, 0.02656137, 0.059526477, -0.13914491, 0.12757027, 0.034920372) * go_1(-1.0, -1.0);
result += mat4(0.15849945, 0.12067003, -0.1579611, 0.30790725, -0.041249942, 0.03948043, -0.12535375, -0.02566875, 0.3150059, 0.027081972, -0.026308673, -0.25326517, 0.016824603, -0.13551097, 0.1412756, 0.037750524) * go_1(-1.0, 0.0);
result += mat4(0.1562541, -0.041948073, -0.14951487, 0.119380556, -0.21773878, -0.019281754, 0.08185942, 0.09982689, 0.017187534, -0.18181366, -0.09270861, 0.08527679, 0.051988564, 0.08686172, -0.12665209, -0.07205808) * go_1(-1.0, 1.0);
result += mat4(0.08860466, -0.17931758, 0.10191625, -0.47623265, 0.1562338, -0.2960855, 0.013664795, 0.29452285, 0.1463958, 0.17562817, -0.41623253, -0.196999, -0.049113005, 0.0556021, 0.054452494, 0.14073615) * go_1(0.0, -1.0);
result += mat4(-0.5345973, -0.069205046, 0.37001884, 0.6955835, 0.22635284, -0.09021557, -0.04693607, -0.4458824, 0.25049326, -0.06503396, 0.07584689, 0.5394811, 0.33387923, -0.010540017, 0.038980547, -0.13371105) * go_1(0.0, 0.0);
result += mat4(-0.04414677, -0.22056313, 0.05580458, 0.11914465, 0.19864987, -0.1025625, -0.010050287, 0.15919746, -0.40589634, 0.4966349, -0.47632688, -0.022637444, 0.17247641, -0.51093113, 0.21157944, -0.2890017) * go_1(0.0, 1.0);
result += mat4(-0.034673482, -0.0075900992, -0.061077584, -0.03859898, 0.32444152, -0.14619137, -0.1375446, -0.030322462, 0.029679669, 0.079344586, -0.03862258, -0.05766807, 0.104488336, 0.006179548, -0.1168102, 0.069729604) * go_1(1.0, -1.0);
result += mat4(0.08504003, 0.042162962, -0.17509954, -0.06258286, -0.45796555, -0.061748773, 0.25438437, -0.02988987, -0.06897794, 0.105180845, -0.08879189, -0.120605074, -0.1478659, -0.13201937, -0.01755498, 0.020606143) * go_1(1.0, 0.0);
result += mat4(0.08932581, 0.1453785, -0.12802933, 0.049442187, 0.045360584, 0.16079827, -0.14142223, 0.10168491, 0.20244479, -0.17981426, 0.19759466, 0.05217847, 0.04889828, 0.06941533, -0.111836776, -0.08046399) * go_1(1.0, 1.0);
result += mat4(-0.011953735, 0.11362504, -0.122588776, -0.10408559, 0.051712614, -0.05161036, -0.068698496, -0.015663281, -0.06346889, 0.06561636, 0.03783044, 0.02756004, -0.036310352, -0.16962235, -0.062494226, 0.0069608325) * go_2(-1.0, -1.0);
result += mat4(-0.16857432, -0.17322211, 0.15971284, 0.19980437, -0.007965961, -0.015480705, 0.036090557, 0.07414387, -0.2941106, -0.24430539, 0.01070864, 0.22401866, -0.34321144, 0.09537491, -0.08020218, 0.45404655) * go_2(-1.0, 0.0);
result += mat4(-0.021609096, -0.11348408, -0.01450652, -0.063170746, 0.06990935, -0.035983834, -0.038010992, -0.10578655, 0.29232737, 0.048835874, 0.054028947, -0.12924139, -0.03058583, 0.028469706, 0.09563202, 0.085674495) * go_2(-1.0, 1.0);
result += mat4(-0.01894022, 0.037628658, -0.102314636, -0.28041583, 0.07495663, -0.058895253, 0.16422969, -0.07163792, 0.039416216, -0.13800906, -0.039811566, -0.10612402, -0.047593113, -0.28491783, 0.41632858, 0.15253194) * go_2(0.0, -1.0);
result += mat4(0.26240867, -0.05335849, -0.014135048, 0.055749495, -0.020126658, 0.2952794, -0.015241771, 0.36143306, 0.43075684, 0.1921996, -0.4329065, 0.5114495, 0.7326109, -0.054901246, -0.076693356, -0.26104695) * go_2(0.0, 0.0);
result += mat4(0.14548428, 0.14578429, 0.17193514, -0.07973242, 0.011952286, -0.047767498, 0.025101405, 0.0016503566, -0.26948047, -0.16503395, -0.061791085, 0.030557185, 0.15400517, -0.054951698, -0.14611247, 0.3550633) * go_2(0.0, 1.0);
result += mat4(-0.05926111, -0.083442695, 0.046579204, -0.017723244, 0.12846185, 0.018434443, -0.17914511, -0.077696435, 0.060048338, 0.02956987, -0.11914462, 0.057770032, -0.054673657, -0.005353606, -0.39014184, 0.08306877) * go_2(1.0, -1.0);
result += mat4(0.07357362, 0.23051825, -0.22640751, 0.080715515, -0.14467078, 0.009734264, 0.054320686, 0.24534328, -0.16038458, 0.06575425, 0.058553413, 0.17755087, 0.08184439, 0.17078212, 0.148369, -0.09309279) * go_2(1.0, 0.0);
result += mat4(-0.11160211, -0.07590204, -0.01676188, -0.062253337, 0.016433533, 0.0146132, -0.040350936, 0.06749202, -0.031521842, 0.1441664, -0.09916073, 0.050578352, -0.06560962, -0.31174552, 0.056873083, -0.077912) * go_2(1.0, 1.0);
result += mat4(0.09344025, 0.075936995, -0.1627903, -0.04781558, -0.01878236, 0.045879602, -0.11507387, -0.025356822, -0.09113391, 0.07263937, 0.08232447, 0.08727616, -0.024921807, 0.051639438, 0.006532631, -0.018751068) * go_3(-1.0, -1.0);
result += mat4(0.022455849, -0.12924309, 0.26318657, -0.32464805, -0.09627585, 0.04496843, -0.09630052, -0.025761643, -0.090804085, 0.24410398, -0.03162944, -0.1961483, 0.14065808, -0.064709485, -0.0040163463, 0.05445074) * go_3(-1.0, 0.0);
result += mat4(-0.020935195, -0.1028065, 0.0012804621, 0.02302866, -0.00924972, -0.0041193594, 0.0060590385, -0.003394384, -0.23241943, -0.023235107, 0.08077456, 0.15720141, 0.06568382, -0.09971436, 0.09056065, 0.04271102) * go_3(-1.0, 1.0);
result += mat4(-0.20997737, -0.12892777, 0.4658528, 0.13622813, -0.2867294, -0.09359254, 0.18821026, 0.25550604, -0.18562363, 0.080713026, 0.13463654, 0.045504905, -0.013133853, -0.1316404, 0.08379897, -0.00047142128) * go_3(0.0, -1.0);
result += mat4(0.3276134, 0.21952826, -0.80777377, -0.69810224, 0.34190908, -0.09293263, 0.33313555, -0.27255502, -0.24287084, -0.07741488, 0.06090265, -0.10161252, -0.37684909, 0.4678029, 0.13506591, 0.42470258) * go_3(0.0, 0.0);
result += mat4(0.080790855, -0.09707547, -0.05506975, 0.027011644, -0.1434346, 0.01363872, 0.12616752, 0.16789167, 0.1656414, -0.11586835, 0.059612263, -0.074029386, -0.19813071, 0.46032718, -0.03935981, 0.0067143585) * go_3(0.0, 1.0);
result += mat4(0.10322512, 0.0822636, -0.16766444, 0.041008063, -0.027768405, 0.23103505, 0.06737122, 0.15258405, 0.04557388, -0.18179403, 0.12489025, -0.09759324, -0.05925805, 0.04869987, 0.07329833, -0.09738542) * go_3(1.0, -1.0);
result += mat4(-0.10823879, -0.403376, 0.3264802, -0.16503738, -0.057512645, -0.20902547, -0.14862378, -0.3192005, -0.046263676, 0.12744917, -0.019174274, -0.02318789, -0.085088454, -0.05723332, 0.0039772973, 0.07991316) * go_3(1.0, 0.0);
result += mat4(0.10313916, 0.04410904, 0.03286652, 0.059946325, 0.019948404, 0.070217304, -0.017572487, 0.20332281, 0.06776308, 0.029285522, -0.14116238, -0.05864782, -0.18382367, -0.06568212, 0.11855615, 0.101256005) * go_3(1.0, 1.0);
result += vec4(-0.036374483, 0.029420665, 0.04437756, -0.04474691);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x3x3x16
//!HOOK MAIN
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!SAVE conv2d_6_tf1
//!WIDTH conv2d_5_tf.w
//!HEIGHT conv2d_5_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define go_0(x_off, y_off) (max((conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_1(x_off, y_off) (max((conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
#define go_2(x_off, y_off) (max(-(conv2d_5_tf_texOff(vec2(x_off, y_off))), 0.0))
#define go_3(x_off, y_off) (max(-(conv2d_5_tf1_texOff(vec2(x_off, y_off))), 0.0))
vec4 hook() {
vec4 result = mat4(0.059325468, 0.10884231, 0.018158086, 0.031802185, 0.10368743, -0.06776637, 0.048326045, -0.06312353, -0.0025675546, 0.09309577, -0.025533969, 0.029684044, 0.017237723, 0.062099144, 0.047039766, 0.050348036) * go_0(-1.0, -1.0);
result += mat4(-0.04767078, -0.06409279, 0.112965874, 0.04621161, -0.28172916, -0.13897015, -0.022806352, 0.26966885, 0.02019569, -0.10707113, -0.43058416, -0.14103983, -0.13225646, -0.020053176, -0.17319782, -0.009653082) * go_0(-1.0, 0.0);
result += mat4(0.0031349238, -0.060933832, 0.107986666, -0.019791966, -0.23946726, -0.18045186, 0.18286318, -0.05431065, 0.11742379, -0.019123906, 0.33327517, 0.07455424, -0.035427105, 0.18659347, -0.050884776, 0.019193258) * go_0(-1.0, 1.0);
result += mat4(-0.22954239, 0.011265787, -0.026520751, -0.12629737, -0.07009803, 0.44925988, -0.15938939, 0.11956771, 0.11535644, -0.1302371, 0.1235775, 0.16483483, 0.022965495, 0.110546246, 0.00064579415, -0.12753843) * go_0(0.0, -1.0);
result += mat4(0.047553673, 0.16213869, 0.7510964, 0.21228868, 0.40994287, 0.61919236, 0.3982374, -0.016163021, 0.3291035, 0.1134356, 0.12384387, -0.31114763, 0.21338554, -0.04721641, 0.122114286, 0.2717476) * go_0(0.0, 0.0);
result += mat4(-0.06529201, -0.08936482, 0.031857736, -0.02372691, 0.0416097, 0.28484538, -0.38181338, -0.05129518, 0.40150553, -0.01970737, 0.1043854, 0.11986372, -0.2267319, 0.0014845231, -0.035269983, 0.11712099) * go_0(0.0, 1.0);
result += mat4(0.079867415, -0.09982735, 0.10313241, 0.055490237, -0.42685422, -0.3431141, -0.06037366, 0.17539841, -0.010511819, -0.09743252, 0.050748866, 0.11064108, -0.09785722, -0.10230299, -0.04106169, -0.016831731) * go_0(1.0, -1.0);
result += mat4(-0.06847075, -0.026447225, -0.123430386, 0.063637204, -0.37617612, -0.09615662, -0.26226708, -0.008175561, -0.08101131, 0.11093525, -0.13149206, -0.06363292, -0.0482858, -0.2771799, 0.10528571, 0.119109035) * go_0(1.0, 0.0);
result += mat4(0.09151277, 0.029019276, 0.041349206, -0.011239478, 0.035083957, 0.05281079, -0.0742173, -0.018509442, -0.17175299, -0.4226507, -0.118186444, -0.0771296, 0.107038856, 0.0819975, 0.12445646, 0.07091557) * go_0(1.0, 1.0);
result += mat4(0.1275357, -0.097659886, -0.0114354445, 0.023900568, -0.02511702, 0.005830569, -0.010882143, -0.04046068, -0.08638482, 0.08664022, -0.15654318, 0.03333846, -0.12521335, -0.11987078, 0.028556254, -0.020760164) * go_1(-1.0, -1.0);
result += mat4(-0.38474286, -0.15288061, 0.04925842, 0.050009686, 0.23555282, 0.054784663, -0.0971203, 0.017791113, -0.35539824, -0.08806168, 0.08992579, 0.22714761, -0.047685623, -0.17510797, 0.1137738, -0.069451034) * go_1(-1.0, 0.0);
result += mat4(-0.16623408, -0.08202571, -0.03291826, 0.0016267949, 0.20682698, 0.08788948, 0.10241089, 0.019209227, -0.14802241, 0.091788374, -0.238735, -0.06633396, 0.02360112, 0.1521805, -0.022510838, -0.08931379) * go_1(-1.0, 1.0);
result += mat4(0.034280665, -0.12431295, 0.092791, 0.15279225, -0.43373865, 0.20077267, -0.15919733, -0.27969292, -0.26948065, 0.19652127, -0.27456176, 0.04137772, 0.006545539, 0.0031402514, 0.03849979, -0.10978278) * go_1(0.0, -1.0);
result += mat4(0.62025917, -0.32462567, 0.2817292, -0.18380783, -0.3338593, -0.49056754, 0.32645953, 0.4146035, 0.3773462, 0.54346967, -0.032203436, -0.14506778, -0.30044907, 0.40134314, 0.24155408, 0.24397472) * go_1(0.0, 0.0);
result += mat4(0.089335114, -0.05529855, -0.18364899, -0.153323, -0.18347202, -0.060125064, -0.29216367, -0.2717291, 0.10592963, 0.38889876, 0.25363386, 0.33723134, -0.103703365, 0.14922962, -0.21206948, -0.20289616) * go_1(0.0, 1.0);
result += mat4(-0.035760924, 0.18820894, -0.12723185, -0.018780319, 0.124459654, 0.28909087, -0.2763883, -0.45110545, 0.098143585, 0.16052029, -0.055098705, -0.14840914, -0.0019514654, 0.07090622, -0.055036955, -0.0035953245) * go_1(1.0, -1.0);
result += mat4(-0.124669634, 0.23131305, -0.05750295, -0.056296032, 0.35691026, 0.2640789, 0.49912274, 0.26795143, -0.26460487, -0.026896512, -0.07179325, 0.17373477, -0.13186656, 0.0021319336, -0.016407885, 0.3014283) * go_1(1.0, 0.0);
result += mat4(-0.09491939, 0.11503968, -0.14077829, -0.043197304, -0.061866064, -0.1574549, 0.0054375776, 0.066160634, -0.17686372, -0.26767558, -0.038844116, 0.122724466, -0.05043839, 0.063884266, 0.0064002997, -0.13583377) * go_1(1.0, 1.0);
result += mat4(0.031301867, -0.02947819, -0.0016769855, 0.12952408, -0.025022922, 0.065425046, -0.072289295, -0.071249105, 0.14579567, -0.09058119, 0.12663712, 0.1515388, 0.44767743, 0.02971349, 0.015892735, -0.08058422) * go_2(-1.0, -1.0);
result += mat4(-0.2868111, -0.10812653, -0.29182926, -0.38444322, -0.0875354, -0.07220258, 0.05978065, 0.093328245, 0.058548283, -0.013913258, -0.20954674, -0.16400063, 0.3185215, 0.068897314, 0.15869021, 0.022877626) * go_2(-1.0, 0.0);
result += mat4(0.116845705, -0.12729645, 0.056697316, -0.21263942, -0.07000074, 0.073977455, -0.09006404, -0.029770354, -0.20823102, -0.20088868, 0.15658094, 0.24306639, -0.0453592, -0.16011035, 0.08521533, -0.032264974) * go_2(-1.0, 1.0);
result += mat4(0.1114789, -0.1083731, 0.10465276, -0.08903837, -0.06455987, 0.040030345, -0.07937248, -0.20654759, -0.26873547, -0.19390975, -0.039021965, -0.025602374, -0.5575801, -0.08876011, -0.19116728, -0.2401055) * go_2(0.0, -1.0);
result += mat4(0.37626424, -0.0912155, -0.6153361, -0.71465075, 0.018208932, -0.14997734, 0.23627761, 0.20832567, 0.07427123, -0.37869486, -0.26574427, 0.187582, -0.37201726, 0.17809474, -0.02568795, 0.23900814) * go_2(0.0, 0.0);
result += mat4(-0.085337594, -0.50634587, 0.30636734, -0.2760558, 0.01893911, -0.08425695, -0.023656169, 0.021421626, 0.16813251, -0.039550815, 0.21165498, -0.027628547, -0.123874225, 0.013802332, -0.2732087, -0.09419671) * go_2(0.0, 1.0);
result += mat4(-0.07190724, -0.019237598, 0.020249542, 0.07541295, -0.03817686, 0.09266451, -0.12214172, -0.01344174, 0.03281797, 0.057655178, -0.059896503, 0.014948791, -0.13952477, 0.18810949, -0.19016883, 0.06842416) * go_2(1.0, -1.0);
result += mat4(-0.13111524, 0.14539744, -0.10212538, -0.2169032, 0.13810973, -0.12576458, 0.124372825, 0.04992259, 0.21758182, -0.22160134, 0.24321079, 0.017698256, 0.39995426, 0.074034885, 0.120019354, -0.15522505) * go_2(1.0, 0.0);
result += mat4(0.023914235, 0.1424257, 0.010302871, 0.15150794, -0.040021677, 0.015862139, 0.14459212, 0.08632827, 0.04257336, 0.055059638, 0.0030461506, 0.011985334, -0.049230937, 0.07851301, -0.05119983, -0.111701734) * go_2(1.0, 1.0);
result += mat4(0.04485158, 0.116597414, 0.00014909732, -0.012128512, 0.15801767, 0.18273115, -0.033926453, 0.05170487, -0.040683754, -0.18606974, 0.08324687, 0.069539666, 0.07098698, -0.014132968, 0.029499048, -0.07263477) * go_3(-1.0, -1.0);
result += mat4(0.04309544, 0.089722805, -0.018306322, 0.29061043, 0.15191254, 0.15917647, 0.0073858183, 0.039199475, 0.42514518, -0.053955313, 0.10820046, -0.09134685, -0.3087313, -0.16339037, -0.05226669, 0.044995327) * go_3(-1.0, 0.0);
result += mat4(0.008636428, 0.029086163, -0.09151674, -0.36466715, -0.0128008155, 0.018820466, -0.02700147, -0.0064047636, 0.28287655, 0.02709404, -0.05233492, -0.08967187, -0.042183813, -0.13990502, -0.005085154, -0.028511493) * go_3(-1.0, 1.0);
result += mat4(0.00022532263, -0.09108507, 0.0089569865, 0.052016005, -0.19314727, -0.355347, 0.08082937, 0.2134498, 0.21036889, -0.10165983, 0.20334485, 0.14575538, 0.017676214, -0.13149881, -0.018741794, -0.019599862) * go_3(0.0, -1.0);
result += mat4(-0.20513605, 0.47578803, -0.18631598, 0.2535432, -0.049522053, -0.37224755, 0.11227206, -0.37000927, 0.19969453, -0.47287735, -0.07506754, -0.0957071, 0.82927394, -0.54057014, 0.5800732, 0.08937558) * go_3(0.0, 0.0);
result += mat4(-0.022189412, 0.14622113, -0.4772564, -0.31178755, 0.10667427, -0.07335338, 0.06144331, 0.00056827103, -0.08263861, -0.009126272, -0.22802618, -0.20760304, 0.12688845, -0.061324466, 0.33361357, 0.38350767) * go_3(0.0, 1.0);
result += mat4(0.021188622, 0.1151918, -0.10654739, -0.03341855, 0.24870358, -0.06689332, 0.11881217, -0.0045951125, -0.039464932, -0.030190004, 0.014174111, -0.025356272, 0.07469406, -0.0059695644, 0.008267219, -0.0991054) * go_3(1.0, -1.0);
result += mat4(-0.009981438, -0.36484948, 0.04801225, 0.22368562, -0.055985868, 0.229039, -0.10823553, 0.1477355, -0.0091677625, 0.06279847, 0.034393013, 0.031901076, 0.28783056, 0.086422645, 0.20860936, 0.054018307) * go_3(1.0, 0.0);
result += mat4(-0.08720452, -0.07756267, 0.018853918, -0.014108689, -0.019337144, 0.021249043, -0.05633926, -0.109904505, -0.088990815, 0.16876367, -0.13149975, -0.054357648, 0.08588134, -0.10262266, 0.12052009, 0.05154292) * go_3(1.0, 1.0);
result += vec4(-0.010602045, 0.053976092, 0.008913503, 0.0011945717);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x1x1x112
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_last_tf
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max((conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_2 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_4 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_5 (max((conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_6 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_8 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_9 (max((conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_10 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_12 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_13 (max((conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_14 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_15 (max(-(conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_16 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_17 (max((conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_18 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_19 (max(-(conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_20 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_21 (max((conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_22 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_23 (max(-(conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_24 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_25 (max((conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_26 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_27 (max(-(conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(-0.105475314, -0.07022547, -0.16326137, -0.12503424, -0.004623021, -0.0143323885, 0.042996034, 0.03422294, -0.38310882, -0.4431925, -0.28772846, -0.3213578, -0.018014904, 0.02429277, -0.07177951, -0.04458822) * g_0;
result += mat4(-0.0973233, -0.032439478, -0.08420249, -0.054693196, 0.012960555, 0.06929602, 0.004247494, 0.061315402, -0.09607745, -0.16862066, 0.01537482, -0.038459156, 0.019662246, 0.059920583, -0.1071646, -0.06478967) * g_1;
result += mat4(0.15711947, 0.0754732, 0.17891979, 0.098270796, 0.14122486, 0.14893766, 0.12408279, 0.14845194, 0.16199848, 0.14090912, 0.13496809, 0.1119815, 0.03974558, -0.057513904, 0.09213575, -0.0012252429) * g_2;
result += mat4(-0.011343602, -0.02488338, 0.07799659, 0.06503721, 0.06380687, 0.048929837, -0.05555838, -0.050519127, 0.14673206, 0.18085165, 0.07261422, 0.09738158, 0.07395791, 0.005573146, -0.05454926, -0.13565786) * g_3;
result += mat4(-0.08591514, -0.05664865, 0.23980616, 0.24876402, 0.19052829, 0.011938714, 0.21487322, 0.058656186, 0.036630988, 0.14918756, 0.013127693, 0.13092093, -0.37889576, -0.4068804, -0.27258882, -0.30605716) * g_4;
result += mat4(-0.25149816, -0.21979512, -0.24949454, -0.20483162, -0.10972783, -0.17315808, -0.08562763, -0.16086778, 0.044681527, 0.050807394, -0.019424994, -0.022418005, 0.10039492, -0.013666552, -0.22373566, -0.34493732) * g_5;
result += mat4(0.1419155, 0.081392206, -0.18103191, -0.2122926, -0.1445937, -0.015969204, -0.12368782, -0.0044421684, -0.09534078, -0.14815839, -0.1052107, -0.16341865, 0.3050403, 0.34488317, 0.16171226, 0.18700944) * g_6;
result += mat4(0.12444696, 0.08712589, 0.06266247, 0.031022022, 0.17707655, 0.24904409, 0.20961654, 0.2610619, -0.099262595, -0.06900819, -0.034567446, -0.020191457, -0.1468561, -0.04683958, 0.14910224, 0.244686) * g_7;
result += mat4(-0.002428158, -0.012889509, 0.0006541127, -0.0058380975, 0.096147396, 0.07791617, 0.119144954, 0.11699654, -0.024602454, -0.07894611, -0.00021709128, -0.03979557, 0.0028512406, -0.015790012, 0.0082511455, 0.029357092) * g_8;
result += mat4(-0.01410329, -0.004162405, -0.09005045, -0.07753674, 0.004509965, -0.024188736, 0.13799691, 0.10589621, -0.023018798, 0.0064198375, -0.103344224, -0.07463909, -0.060048997, -0.071094714, -0.13042289, -0.14482167) * g_9;
result += mat4(-0.009015246, 0.01581748, -0.035448726, -0.012348933, -0.101627484, -0.05530413, -0.14063041, -0.121775225, 0.074719116, 0.033839386, 0.045573987, -0.006698053, 0.0015141299, 0.003634417, 0.017102007, 0.0074890694) * g_10;
result += mat4(0.0042357175, 0.018735386, 0.058959343, 0.057424515, -0.021633089, -0.037194982, -0.14109972, -0.1506368, 0.004357002, -0.006871023, 0.05337361, 0.039684236, 0.087463334, 0.07772685, 0.12278512, 0.1224218) * g_11;
result += mat4(0.018359886, 0.046934873, -0.008225237, 0.020650858, -0.03961538, -0.014779162, -0.04161338, -0.00953579, 0.0017313146, 0.0068857935, -0.0024282748, 0.0047545764, 0.02635904, 0.027336216, 0.02701322, 0.029939381) * g_12;
result += mat4(-0.00067966996, 0.024480496, -0.015218739, -0.010472019, -0.03994461, -0.052318517, -0.04450191, -0.043226667, -0.03166469, -0.03799331, 0.015428865, -0.018422252, 0.00040845043, 0.03558268, -0.0099401595, -0.00054432114) * g_13;
result += mat4(-0.0032104475, 0.019604867, -0.02486679, 0.002134673, 0.014368818, -0.0013395248, 0.017318068, 0.0021403218, -0.02198377, 0.010297547, -0.041619625, -0.02740482, -0.067249276, -0.03040953, -0.021304253, -0.009557115) * g_14;
result += mat4(-0.019099236, -0.037010793, 0.013720462, 0.023708181, 0.016356282, -0.00028589502, -0.010570909, -0.009186907, 0.03493662, 0.055599142, -0.017043956, 0.004204044, -0.013573257, -0.013537684, 0.008151195, 0.0074913655) * g_15;
result += mat4(0.009309031, -0.0014795153, 0.025114728, -0.0066442797, -0.012085473, -0.0030560147, 0.002144206, 0.0009732741, 0.022301642, -0.0091133695, 0.0011837826, -0.020275833, -0.021349607, -0.011693419, -0.018912962, -0.022418445) * g_16;
result += mat4(-0.0045772395, 0.031085191, 0.01215795, 0.023887333, 0.023408212, 0.0005998807, 0.011254428, -0.004634461, 0.016601006, 0.046663348, 0.031117432, 0.04910873, -0.113230005, -0.035702843, -0.058746565, -0.053893737) * g_17;
result += mat4(-0.020218112, 0.056803435, -0.0037077996, 0.05123925, -0.016713811, -0.05551032, -0.005916611, -0.037839632, -0.007671626, -0.009099201, -0.0010055836, 0.003332688, 0.020744357, 0.01957675, 0.057906736, 0.041446246) * g_18;
result += mat4(0.022438819, 0.04616756, 0.035925094, 0.0639705, 0.0009332198, 0.020964272, -0.010805394, 0.031757344, 0.051255573, 0.032838948, 0.00055445684, -0.03195623, 0.04753827, 0.016436901, 0.04788274, 0.022093765) * g_19;
result += mat4(0.03479086, 0.035946105, 0.04343359, 0.04015664, 0.06081792, 0.061758887, 0.10128842, 0.007471392, -0.027261607, -0.01290544, -0.029938918, -0.050834358, -0.015550162, 0.0072828676, -0.04580556, -0.029642029) * g_20;
result += mat4(0.011150116, 0.029789668, -0.00354488, 0.045047592, -0.018265083, -0.020843878, 0.015457328, 0.0053232997, 0.0791804, -0.028661052, 0.079342775, -0.039631505, 0.14613943, 0.08323415, 0.049641483, 0.047863442) * g_21;
result += mat4(-0.103034586, -0.107580125, 0.00044325445, 0.007830247, -0.017059505, 0.010152936, -0.02845979, -0.01841766, -0.10722863, -0.025262646, -0.07402096, -0.025055556, 0.0013303137, 0.12574737, -0.0161103, 0.06077798) * g_22;
result += mat4(-0.0420636, -0.062703885, -0.06476972, -0.10516001, 0.018120673, 0.024305122, -0.013997766, 0.015815413, -0.06317691, -0.03968166, -0.054052643, -0.016300509, -0.08255892, -0.01612941, -0.04194852, -0.012637189) * g_23;
result += mat4(0.042659573, -0.10762496, -0.077143244, 0.12583935, -0.022020226, -0.0042312425, -0.016734738, 0.027007964, -0.06609771, -0.056038737, -0.0058528963, 0.035508137, -0.019722374, -0.055094264, 0.010977759, -0.009833099) * g_24;
result += mat4(0.063830875, -0.019885639, 0.055574782, 0.039456647, 0.01576898, -0.1389799, 0.063411795, -0.11600623, -0.013968303, -0.03318867, -0.06806915, -0.09373464, -0.022723546, -0.03329239, 0.014282872, 0.027576538) * g_25;
result += mat4(-0.018100513, 0.06204485, 0.010761461, -0.045085587, 0.009286288, 0.02310671, 0.10633246, -0.090849996, 0.13112675, -0.01639808, 0.0022725316, -0.076779045, 0.11831251, 0.1460306, -0.10849466, -0.07749171) * g_26;
result += mat4(-0.15850247, 0.118011266, -0.10121594, -0.007109052, 0.071873754, 0.06954878, 0.0377852, 0.044174008, -0.062925555, -0.01758927, 0.1416964, 0.17206357, -0.035632525, -0.04652215, 0.061932907, 0.034339) * g_27;
result += vec4(-0.11952045, -0.10779418, -0.0626279, -0.042614873);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x1x1x112
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_last_tf1
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max((conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_2 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_4 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_5 (max((conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_6 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_8 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_9 (max((conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_10 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_12 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_13 (max((conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_14 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_15 (max(-(conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_16 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_17 (max((conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_18 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_19 (max(-(conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_20 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_21 (max((conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_22 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_23 (max(-(conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_24 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_25 (max((conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_26 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_27 (max(-(conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(-0.009000901, -0.018048609, 0.013095594, 0.002321373, 0.0004716619, 0.00504148, -0.016826658, -0.014922383, 0.15059204, 0.16593806, 0.115392484, 0.12520894, 0.05049829, 0.060210057, 0.086421266, 0.07242362) * g_0;
result += mat4(0.06268658, 0.030466434, 0.07876877, 0.04129863, 0.04142328, 0.009963961, 0.051785357, 0.012811113, 0.1295883, 0.139931, 0.07733839, 0.08014211, 0.07156476, 0.0342396, 0.051614303, 0.043559864) * g_1;
result += mat4(0.00041542648, 0.016051646, -0.011512418, 0.013076814, 0.03734479, 0.02791584, 0.012426691, 0.022044811, -0.034128398, -0.027107332, -0.021998279, -0.012139807, -0.033177473, -0.016310865, -0.078221664, -0.041203145) * g_2;
result += mat4(-0.008398536, -0.010332053, -0.050231732, -0.039691273, -0.042082537, -0.030281143, -0.014039778, -0.0020190612, -0.11956351, -0.13638765, -0.09794402, -0.10228069, -0.08344795, -0.07944541, -0.004189214, -0.028206991) * g_3;
result += mat4(0.0002908945, -0.00831185, -0.06870294, -0.083311856, -0.024992501, 0.0038247898, -0.049389005, -0.020098582, -0.0135326125, -0.040408995, -0.012083491, -0.042174604, 0.16112538, 0.13720983, 0.13937058, 0.10870099) * g_4;
result += mat4(0.078961425, 0.082619205, 0.06910667, 0.06579004, -0.0077012256, -0.00038692637, 0.00015553503, -0.012561662, 0.00053048285, -0.01461681, 0.02600344, 0.024862211, -0.06958201, -0.048246548, 0.058762506, 0.036662634) * g_5;
result += mat4(-0.023527982, -0.0028001352, 0.047800142, 0.09616409, 0.049143843, 0.030836122, 0.057244994, 0.025672587, 0.027565151, 0.039868724, 0.045296676, 0.04623187, -0.124759234, -0.14106254, -0.06337279, -0.076839216) * g_6;
result += mat4(-0.0911771, -0.064436875, -0.05308137, -0.022082496, -0.0040269364, 0.0014464161, -0.0029555515, 0.016098293, -0.026650434, -0.014081368, -0.06747348, -0.05481826, 0.097423114, 0.08620988, -0.01607732, -0.015440677) * g_7;
result += mat4(-0.014001735, -0.015001655, -0.013250577, -0.009930805, 0.04885879, 0.07092224, 0.025783395, 0.03792237, -0.04332465, -0.06244993, -0.046748653, -0.07132349, -0.0053951666, -0.016514057, 0.023807624, 0.044013456) * g_8;
result += mat4(-0.009097996, -0.016898679, -0.05043909, -0.063178614, -0.016210863, -0.02157998, -0.02654472, -0.042961173, 0.012103852, 0.019015301, 0.02492281, 0.03389976, 0.015276502, 0.009577683, 0.04132527, -0.00070621347) * g_9;
result += mat4(-0.0057500796, 0.00728164, -0.003422421, 0.0038979584, -0.03127353, -0.019125199, -0.012988815, -0.031890683, 0.09352588, 0.019210607, 0.09824038, 0.016637104, 0.010692808, 0.022393884, 0.008312123, 0.014120716) * g_10;
result += mat4(0.013895599, 0.023097904, 0.009370535, 0.014099512, 0.0124661345, -0.015076684, 0.03287286, 0.005912471, -0.03944815, -0.020340785, -0.06822037, -0.059383288, 0.03634978, 0.007832939, -0.007142306, -0.0061968984) * g_11;
result += mat4(0.033002097, 0.0516016, -0.021056438, 0.005715988, -0.02223013, -0.007962324, -0.024417123, -0.0014790733, 0.002167189, 0.00043749413, -0.007284963, -0.0027283782, 0.026238248, 0.01756047, 0.008969755, 0.014201024) * g_12;
result += mat4(0.011576685, 0.02087598, 0.0026766327, -0.0041780816, -0.05277701, -0.05412841, -0.05958835, -0.050426245, -0.00662945, -0.021645393, 0.03423904, -0.0064581474, -0.030403355, 0.018391011, -0.026089542, -0.0051510665) * g_13;
result += mat4(-0.046202097, -0.0066081425, -0.03698851, 0.0034165455, -0.011859245, -0.020945566, -0.0028196946, -0.010053285, -0.011400397, 0.030595876, -0.018915813, 0.006780077, -0.060040582, -0.009586898, -0.004477886, 0.011279908) * g_14;
result += mat4(-0.028692413, -0.032535568, 0.0017473884, 0.02207169, 0.0192618, 0.008956797, -0.0033381556, 0.006326402, 0.0169569, 0.041449737, -0.02611751, 0.0006410355, 0.006233776, 0.0008467914, 0.011884985, 0.009222136) * g_15;
result += mat4(0.017076496, -0.0045380928, 0.03444613, -0.009804047, -0.004829834, -0.004889702, 0.0057807956, 0.0015014127, 0.03458368, -0.0035773432, -0.007769679, -0.032449644, -0.021396799, -0.017612215, -0.012764735, -0.025224172) * g_16;
result += mat4(-0.011824532, 0.02335273, 0.00764845, 0.019215155, 0.022186808, 0.0066053392, 0.0071694753, -0.0036117272, 0.032144524, 0.05025988, 0.03982363, 0.052400436, -0.10555114, -0.03809396, -0.05334183, -0.05524487) * g_17;
result += mat4(-0.024599254, 0.058805298, 0.00069874676, 0.06263439, -0.018460508, -0.053566024, -0.0022889362, -0.035818785, -0.0135854995, -0.015712813, 0.0012080368, 0.005957637, 0.009450094, 0.03186346, 0.059969924, 0.057706963) * g_18;
result += mat4(0.026783831, 0.05475865, 0.027565574, 0.06032707, -0.0015639095, 0.024381682, -0.010199071, 0.037544634, 0.039889377, 0.03318851, -0.016529158, -0.0343188, 0.045666486, 0.021665907, 0.042189375, 0.02444145) * g_19;
result += mat4(0.03791853, 0.043746054, 0.056224477, 0.05098111, 0.075256795, 0.074653305, 0.116220035, 0.01853866, -0.04133627, -0.009134169, -0.0420953, -0.05210053, -0.021748418, 0.004422131, -0.05422814, -0.035721727) * g_20;
result += mat4(0.013814317, 0.03149986, -0.004971173, 0.04782029, -0.01693027, -0.017984565, 0.019328078, 0.008521426, 0.0845641, -0.027555496, 0.08150416, -0.04623306, 0.16494128, 0.09300831, 0.074097835, 0.0627848) * g_21;
result += mat4(-0.10307174, -0.112654425, -0.005589254, -0.0062108496, -0.012491583, 0.011512013, -0.03142282, -0.023683488, -0.099848576, -0.031290524, -0.07236223, -0.037460987, 0.008760208, 0.1473594, -0.009216949, 0.07251379) * g_22;
result += mat4(-0.04915367, -0.07121096, -0.06572174, -0.10967046, 0.019548079, 0.023992533, -0.019842865, 0.012366459, -0.07207817, -0.04237792, -0.054463565, -0.015374731, -0.092071235, -0.020860313, -0.054475963, -0.02303954) * g_23;
result += mat4(0.04160816, -0.118427366, -0.08661791, 0.12787233, -0.01990174, 0.0012960634, -0.016121056, 0.031429946, -0.06830865, -0.057132352, -0.0022302791, 0.03845933, -0.026981276, -0.063532256, 0.011805961, -0.009616678) * g_24;
result += mat4(0.07094465, -0.022284096, 0.060676746, 0.042626668, 0.011207256, -0.14960343, 0.05866539, -0.12742221, -0.021092903, -0.039463162, -0.07879986, -0.10232898, -0.026127055, -0.038111385, 0.019167708, 0.032637425) * g_25;
result += mat4(-0.014270794, 0.07157703, 0.013714203, -0.047801998, 0.0060221693, 0.022788104, 0.10630103, -0.09606649, 0.12690987, -0.017079826, -0.0077072172, -0.082584485, 0.13256006, 0.16012523, -0.10966099, -0.07927409) * g_26;
result += mat4(-0.17171615, 0.12114435, -0.10746857, -0.0074188868, 0.07854815, 0.07759372, 0.04310874, 0.051465522, -0.05963588, -0.014506484, 0.15522978, 0.18746643, -0.03845241, -0.0489534, 0.05837339, 0.032978524) * g_27;
result += vec4(0.05825913, 0.051491056, 0.038389463, 0.03321517);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Conv-4x1x1x112
//!HOOK MAIN
//!BIND conv2d_tf
//!BIND conv2d_tf1
//!BIND conv2d_1_tf
//!BIND conv2d_1_tf1
//!BIND conv2d_2_tf
//!BIND conv2d_2_tf1
//!BIND conv2d_3_tf
//!BIND conv2d_3_tf1
//!BIND conv2d_4_tf
//!BIND conv2d_4_tf1
//!BIND conv2d_5_tf
//!BIND conv2d_5_tf1
//!BIND conv2d_6_tf
//!BIND conv2d_6_tf1
//!SAVE conv2d_last_tf2
//!WIDTH conv2d_tf.w
//!HEIGHT conv2d_tf.h
//!COMPONENTS 4
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
#define g_0 (max((conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_1 (max((conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_2 (max(-(conv2d_tf_tex(conv2d_tf_pos)), 0.0))
#define g_3 (max(-(conv2d_tf1_tex(conv2d_tf1_pos)), 0.0))
#define g_4 (max((conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_5 (max((conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_6 (max(-(conv2d_1_tf_tex(conv2d_1_tf_pos)), 0.0))
#define g_7 (max(-(conv2d_1_tf1_tex(conv2d_1_tf1_pos)), 0.0))
#define g_8 (max((conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_9 (max((conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_10 (max(-(conv2d_2_tf_tex(conv2d_2_tf_pos)), 0.0))
#define g_11 (max(-(conv2d_2_tf1_tex(conv2d_2_tf1_pos)), 0.0))
#define g_12 (max((conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_13 (max((conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_14 (max(-(conv2d_3_tf_tex(conv2d_3_tf_pos)), 0.0))
#define g_15 (max(-(conv2d_3_tf1_tex(conv2d_3_tf1_pos)), 0.0))
#define g_16 (max((conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_17 (max((conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_18 (max(-(conv2d_4_tf_tex(conv2d_4_tf_pos)), 0.0))
#define g_19 (max(-(conv2d_4_tf1_tex(conv2d_4_tf1_pos)), 0.0))
#define g_20 (max((conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_21 (max((conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_22 (max(-(conv2d_5_tf_tex(conv2d_5_tf_pos)), 0.0))
#define g_23 (max(-(conv2d_5_tf1_tex(conv2d_5_tf1_pos)), 0.0))
#define g_24 (max((conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_25 (max((conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
#define g_26 (max(-(conv2d_6_tf_tex(conv2d_6_tf_pos)), 0.0))
#define g_27 (max(-(conv2d_6_tf1_tex(conv2d_6_tf1_pos)), 0.0))
vec4 hook() {
vec4 result = mat4(0.2006987, 0.17832398, 0.26342955, 0.23500517, -0.012297829, -0.009008417, -0.039950736, -0.039973143, 0.34800097, 0.32196492, 0.30505183, 0.29214156, -0.21410535, -0.21166423, -0.16437815, -0.19172792) * g_0;
result += mat4(-0.008804151, -0.07085123, 0.013577994, -0.05192605, -0.08981402, -0.14702585, -0.09145975, -0.14835288, -0.15882517, -0.14785844, -0.2381482, -0.22867912, 0.010898514, 0.031957507, 0.040597558, 0.078252345) * g_1;
result += mat4(-0.21658613, -0.1803885, -0.25954962, -0.20839214, -0.09597461, -0.09222647, -0.03909875, -0.03456191, -0.19723509, -0.16976605, -0.2041716, -0.1751425, 0.22901416, 0.24922715, 0.1800083, 0.23346905) * g_2;
result += mat4(0.110020064, 0.103858806, 0.052446555, 0.061105963, 0.032901537, 0.07140097, 0.11518793, 0.13860466, 0.13930707, 0.12712196, 0.19071707, 0.18399614, -0.08036458, -0.07349171, 0.021504594, 0.0024937368) * g_3;
result += mat4(0.059065036, 0.00698257, -0.099622436, -0.15676253, -0.10942482, -0.04869624, -0.13654554, -0.07341863, -0.014169851, -0.06390744, 0.016093008, -0.04540248, 0.29041344, 0.24451919, 0.26292154, 0.22136512) * g_4;
result += mat4(0.107946776, 0.097849295, 0.10266876, 0.09360328, 0.08931344, 0.08896482, 0.046495322, 0.044040844, -0.020361643, -0.030911373, 0.026598722, 0.019815676, -0.072677925, -0.042410247, 0.14127749, 0.13434973) * g_5;
result += mat4(-0.08809133, -0.03476601, 0.06420393, 0.14691353, 0.09296839, 0.06162562, 0.10992992, 0.0615685, 0.0168736, 0.06520281, 0.020010693, 0.046929173, -0.2219495, -0.21249783, -0.14622301, -0.14599061) * g_6;
result += mat4(-0.13251069, -0.08977477, -0.08930347, -0.045490693, -0.10980218, -0.09510885, -0.07299872, -0.064053826, 0.011365247, 0.014091111, -0.054976214, -0.056936122, 0.10148144, 0.07451642, -0.08138598, -0.10161657) * g_7;
result += mat4(-0.0075518745, -0.005738622, -0.007577811, -0.00032088626, 0.032614008, 0.04858922, 0.00054855715, 0.011565026, -0.022675224, -0.034442738, -0.03580643, -0.05069376, -0.0020376542, -0.01505518, 0.019388825, 0.03746554) * g_8;
result += mat4(-0.011413172, -0.016877454, -0.048923567, -0.055012885, -0.007709447, -0.016109072, -0.047132388, -0.07146396, 0.002604099, 0.00014681708, 0.03429465, 0.043265607, 0.029014807, 0.03337814, 0.07582056, 0.041660666) * g_9;
result += mat4(-0.020768544, -0.014378527, -0.01999972, -0.01385916, -0.012264676, -0.009959511, 0.0119015165, -0.016787319, 0.07266734, -0.0029914333, 0.08549183, 0.004367342, 0.008236065, 0.020370748, 0.0043428927, 0.007301017) * g_10;
result += mat4(0.011654731, 0.025318999, -0.0029306612, 0.007426217, -0.00010868774, -0.020845588, 0.041991003, 0.024147986, -0.030741083, -0.012328637, -0.06617428, -0.06103115, 0.010491518, -0.013338451, -0.04666634, -0.046481613) * g_11;
result += mat4(0.0268538, 0.043785956, -0.01799385, 0.008743307, -0.013197458, -0.015049436, -0.017189734, -0.0047999253, -0.00059730676, -0.0008936153, -0.016006093, -0.0073406673, 0.014875853, 0.011491735, 9.819833e-05, 0.0073417514) * g_12;
result += mat4(0.019930955, 0.027112626, 0.01307941, 0.005268897, -0.060213763, -0.050415818, -0.069006495, -0.051405095, 0.0036414433, -0.008606397, 0.037427194, -0.0018103109, -0.037434716, 0.010187546, -0.026227329, -0.0033639795) * g_13;
result += mat4(-0.03634798, 0.0007093891, -0.026819145, 0.009025687, -0.01750318, -0.020098133, -0.0063864207, -0.006606755, 0.0008565766, 0.028647956, -0.0024974607, 0.015250743, -0.048884176, -0.004310685, -0.0010757383, 0.00974984) * g_14;
result += mat4(-0.031253602, -0.031743724, -0.009083253, 0.0145388115, 0.02048611, 0.0058071036, -0.0038228377, 0.00049654936, 0.0059105973, 0.03437731, -0.025785418, 0.004187733, 0.009980489, -4.08268e-05, 0.009384428, 0.0019492983) * g_15;
result += mat4(0.012587245, -0.0032654977, 0.029739188, -0.009440694, -0.0018237908, -0.0080032, 0.010499013, 0.0012466761, 0.03461923, -0.0060207327, -0.008771263, -0.034545746, -0.015023473, -0.008901684, -0.011490296, -0.01976464) * g_16;
result += mat4(-0.009444331, 0.020809013, 0.009985801, 0.020350901, 0.013234775, 0.004382635, -0.0007761826, -0.005247294, 0.034115106, 0.05190378, 0.039124765, 0.050993033, -0.0898732, -0.030428126, -0.044204578, -0.052484997) * g_17;
result += mat4(-0.020434443, 0.053520404, 0.0007571144, 0.05895061, -0.018991265, -0.043982152, -0.004035192, -0.025452444, -0.012197152, -0.013770753, 0.0012919102, 0.003996682, 0.0056104586, 0.025686186, 0.05128293, 0.05105745) * g_18;
result += mat4(0.030201769, 0.052521482, 0.029641917, 0.05559941, 0.0018870027, 0.020112835, -0.0043867202, 0.035877172, 0.02961142, 0.02163634, -0.027972858, -0.040669747, 0.03393723, 0.013455979, 0.03313782, 0.01968004) * g_19;
result += mat4(0.034817442, 0.04045217, 0.054816365, 0.05092461, 0.06600807, 0.062576495, 0.09923777, 0.006663677, -0.039958935, -0.010009866, -0.041522443, -0.04959681, -0.020962957, 0.003845031, -0.04910384, -0.03233655) * g_20;
result += mat4(0.015433112, 0.028965838, -0.0055138534, 0.042267464, -0.012690953, -0.009424165, 0.017896382, 0.01186686, 0.07231686, -0.038834292, 0.07033086, -0.052548733, 0.15721905, 0.09334892, 0.07676042, 0.06701375) * g_21;
result += mat4(-0.09797534, -0.11201098, -0.0037222446, -0.008105951, -0.01152357, 0.012165641, -0.029051905, -0.021293389, -0.09600697, -0.028819272, -0.069084235, -0.035421908, 0.0054322914, 0.14168966, -0.0200274, 0.06505187) * g_22;
result += mat4(-0.05034882, -0.06622497, -0.062471002, -0.100628324, 0.018115615, 0.019867867, -0.018836644, 0.007562053, -0.06317378, -0.034458403, -0.047243826, -0.009989589, -0.08270121, -0.018645251, -0.05160367, -0.023690399) * g_23;
result += mat4(0.03897899, -0.10862529, -0.081805214, 0.1202324, -0.021866674, -0.00041882638, -0.018235246, 0.027227063, -0.0656312, -0.053432237, -0.0029235696, 0.03549672, -0.022848906, -0.057047505, 0.013400545, -0.0072439364) * g_24;
result += mat4(0.06879516, -0.018637763, 0.058062725, 0.041045032, 0.011702424, -0.13693465, 0.05674195, -0.11679955, -0.022940686, -0.03856922, -0.07531371, -0.09692582, -0.019870926, -0.032572743, 0.026138868, 0.037639033) * g_25;
result += mat4(-0.015270301, 0.06478719, 0.011016518, -0.04533957, 0.00688319, 0.024815995, 0.10159924, -0.08467507, 0.11939162, -0.01939453, -0.0058689644, -0.077881604, 0.118726775, 0.14489114, -0.10831982, -0.07972515) * g_26;
result += mat4(-0.16734359, 0.10685446, -0.102714166, -0.010225307, 0.07306756, 0.07014447, 0.040464073, 0.04688462, -0.05489714, -0.01525318, 0.14690581, 0.17514132, -0.03250648, -0.03688211, 0.05047889, 0.03078089) * g_27;
result += vec4(0.06614842, 0.045779686, 0.032838725, 0.017085627);
return result;
}
//!DESC Anime4K-v3.2-Upscale-Denoise-CNN-x2-(VL)-Depth-to-Space
//!HOOK MAIN
//!BIND MAIN
//!BIND conv2d_last_tf
//!BIND conv2d_last_tf1
//!BIND conv2d_last_tf2
//!SAVE MAIN
//!WIDTH conv2d_last_tf.w 2 *
//!HEIGHT conv2d_last_tf.h 2 *
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
vec4 hook() {
vec2 f0 = fract(conv2d_last_tf_pos * conv2d_last_tf_size);
ivec2 i0 = ivec2(f0 * vec2(2.0));
float c0 = conv2d_last_tf_tex((vec2(0.5) - f0) * conv2d_last_tf_pt + conv2d_last_tf_pos)[i0.y * 2 + i0.x];
vec2 f1 = fract(conv2d_last_tf1_pos * conv2d_last_tf1_size);
ivec2 i1 = ivec2(f1 * vec2(2.0));
float c1 = conv2d_last_tf1_tex((vec2(0.5) - f1) * conv2d_last_tf1_pt + conv2d_last_tf1_pos)[i1.y * 2 + i1.x];
vec2 f2 = fract(conv2d_last_tf2_pos * conv2d_last_tf2_size);
ivec2 i2 = ivec2(f2 * vec2(2.0));
float c2 = conv2d_last_tf2_tex((vec2(0.5) - f2) * conv2d_last_tf2_pt + conv2d_last_tf2_pos)[i2.y * 2 + i2.x];
float c3 = c2;
return vec4(c0, c1, c2, c3) + MAIN_tex(MAIN_pos);
}
shaders/Anime4K_Upscale_DoG_x2.glsl
+143
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-DoG-x2-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-DoG-x2-Kernel-X
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE GAUSS_X2
//!COMPONENTS 3
#define L_tex LINELUMA_tex
float max3v(float a, float b, float c) {
return max(max(a, b), c);
}
float min3v(float a, float b, float c) {
return min(min(a, b), c);
}
vec2 minmax3(vec2 pos, vec2 d) {
float a = L_tex(pos - d).x;
float b = L_tex(pos).x;
float c = L_tex(pos + d).x;
return vec2(min3v(a, b, c), max3v(a, b, c));
}
float lumGaussian7(vec2 pos, vec2 d) {
float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
g = g + (L_tex(pos).x) * 0.38774;
return g;
}
vec4 hook() {
return vec4(lumGaussian7(HOOKED_pos, vec2(HOOKED_pt.x, 0)), minmax3(HOOKED_pos, vec2(HOOKED_pt.x, 0)), 0);
}
//!DESC Anime4K-v3.2-Upscale-DoG-x2-Kernel-Y
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND GAUSS_X2
//!SAVE GAUSS_X2
//!COMPONENTS 3
#define L_tex GAUSS_X2_tex
float max3v(float a, float b, float c) {
return max(max(a, b), c);
}
float min3v(float a, float b, float c) {
return min(min(a, b), c);
}
vec2 minmax3(vec2 pos, vec2 d) {
float a0 = L_tex(pos - d).y;
float b0 = L_tex(pos).y;
float c0 = L_tex(pos + d).y;
float a1 = L_tex(pos - d).z;
float b1 = L_tex(pos).z;
float c1 = L_tex(pos + d).z;
return vec2(min3v(a0, b0, c0), max3v(a1, b1, c1));
}
float lumGaussian7(vec2 pos, vec2 d) {
float g = (L_tex(pos - (d + d)).x + L_tex(pos + (d + d)).x) * 0.06136;
g = g + (L_tex(pos - d).x + L_tex(pos + d).x) * 0.24477;
g = g + (L_tex(pos).x) * 0.38774;
return g;
}
vec4 hook() {
return vec4(lumGaussian7(HOOKED_pos, vec2(0, HOOKED_pt.y)), minmax3(HOOKED_pos, vec2(0, HOOKED_pt.y)), 0);
}
//!DESC Anime4K-v3.2-Upscale-DoG-x2-Apply
//!WHEN OUTPUT.w MAIN.w / 1.200 > OUTPUT.h MAIN.h / 1.200 > *
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!BIND GAUSS_X2
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
#define STRENGTH 0.8 //De-blur proportional strength, higher is sharper.
#define L_tex LINELUMA_tex
vec4 hook() {
float c = (L_tex(HOOKED_pos).x - GAUSS_X2_tex(HOOKED_pos).x) * STRENGTH;
float cc = clamp(c + L_tex(HOOKED_pos).x, GAUSS_X2_tex(HOOKED_pos).y, GAUSS_X2_tex(HOOKED_pos).z) - L_tex(HOOKED_pos).x;
//This trick is only possible if the inverse Y->RGB matrix has 1 for every row... (which is the case for BT.709)
//Otherwise we would need to convert RGB to YUV, modify Y then convert back to RGB.
return HOOKED_tex(HOOKED_pos) + cc;
}
shaders/Anime4K_Upscale_Original_x2.glsl
+277
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// MIT License
// Copyright (c) 2019-2021 bloc97
// All rights reserved.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
//!DESC Anime4K-v3.2-Upscale-Original-x2-Luma
//!HOOK MAIN
//!BIND HOOKED
//!SAVE LINELUMA
//!COMPONENTS 1
float get_luma(vec4 rgba) {
return dot(vec4(0.299, 0.587, 0.114, 0.0), rgba);
}
vec4 hook() {
return vec4(get_luma(HOOKED_tex(HOOKED_pos)), 0.0, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Original-x2-Kernel-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LINELUMA
//!SAVE LUMAD
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l c r]
//[bl b br]
float l = LINELUMA_tex(HOOKED_pos + vec2(-d.x, 0.0)).x;
float c = LINELUMA_tex(HOOKED_pos).x;
float r = LINELUMA_tex(HOOKED_pos + vec2(d.x, 0.0)).x;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (-l + r);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (l + c + c + r);
//Computes the luminance's gradient
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Original-x2-Kernel-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMAD
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
/* --------------------- SETTINGS --------------------- */
//Strength of edge refinement, good values are between 0.2 and 4
#define REFINE_STRENGTH 0.5
/* --- MODIFY THESE SETTINGS BELOW AT YOUR OWN RISK --- */
//Bias of the refinement function, good values are between 0 and 1
#define REFINE_BIAS 0.0
//Polynomial fit obtained by minimizing MSE error on image
#define P5 ( 11.68129591)
#define P4 (-42.46906057)
#define P3 ( 60.28286266)
#define P2 (-41.84451327)
#define P1 ( 14.05517353)
#define P0 (-1.081521930)
/* ----------------- END OF SETTINGS ----------------- */
float power_function(float x) {
float x2 = x * x;
float x3 = x2 * x;
float x4 = x2 * x2;
float x5 = x2 * x3;
return P5*x5 + P4*x4 + P3*x3 + P2*x2 + P1*x + P0;
}
vec4 hook() {
vec2 d = HOOKED_pt;
//[tl t tr]
//[ l cc r]
//[bl b br]
float tx = LUMAD_tex(HOOKED_pos + vec2(0.0, -d.y)).x;
float cx = LUMAD_tex(HOOKED_pos).x;
float bx = LUMAD_tex(HOOKED_pos + vec2(0.0, d.y)).x;
float ty = LUMAD_tex(HOOKED_pos + vec2(0.0, -d.y)).y;
//float cy = LUMAD_tex(HOOKED_pos).y;
float by = LUMAD_tex(HOOKED_pos + vec2(0.0, d.y)).y;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (tx + cx + cx + bx);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (-ty + by);
//Computes the luminance's gradient
float sobel_norm = clamp(sqrt(xgrad * xgrad + ygrad * ygrad), 0.0, 1.0);
float dval = clamp(power_function(clamp(sobel_norm, 0.0, 1.0)) * REFINE_STRENGTH + REFINE_BIAS, 0.0, 1.0);
return vec4(sobel_norm, dval, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Original-x2-Kernel-X
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!SAVE LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
if (LUMAD_tex(HOOKED_pos).y < 0.1) {
return vec4(0.0);
}
//[tl t tr]
//[ l c r]
//[bl b br]
float l = LUMAD_tex(HOOKED_pos + vec2(-d.x, 0.0)).x;
float c = LUMAD_tex(HOOKED_pos).x;
float r = LUMAD_tex(HOOKED_pos + vec2(d.x, 0.0)).x;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (-l + r);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (l + c + c + r);
return vec4(xgrad, ygrad, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Original-x2-Kernel-Y
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!BIND LUMAMM
//!SAVE LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
//!COMPONENTS 2
vec4 hook() {
vec2 d = HOOKED_pt;
if (LUMAD_tex(HOOKED_pos).y < 0.1) {
return vec4(0.0);
}
//[tl t tr]
//[ l cc r]
//[bl b br]
float tx = LUMAMM_tex(HOOKED_pos + vec2(0.0, -d.y)).x;
float cx = LUMAMM_tex(HOOKED_pos).x;
float bx = LUMAMM_tex(HOOKED_pos + vec2(0.0, d.y)).x;
float ty = LUMAMM_tex(HOOKED_pos + vec2(0.0, -d.y)).y;
//float cy = LUMAMM_tex(HOOKED_pos).y;
float by = LUMAMM_tex(HOOKED_pos + vec2(0.0, d.y)).y;
//Horizontal Gradient
//[-1 0 1]
//[-2 0 2]
//[-1 0 1]
float xgrad = (tx + cx + cx + bx);
//Vertical Gradient
//[-1 -2 -1]
//[ 0 0 0]
//[ 1 2 1]
float ygrad = (-ty + by);
float norm = sqrt(xgrad * xgrad + ygrad * ygrad);
if (norm <= 0.001) {
xgrad = 0.0;
ygrad = 0.0;
norm = 1.0;
}
return vec4(xgrad/norm, ygrad/norm, 0.0, 0.0);
}
//!DESC Anime4K-v3.2-Upscale-Original-x2-Apply
//!HOOK MAIN
//!BIND HOOKED
//!BIND LUMAD
//!BIND LUMAMM
//!WIDTH MAIN.w 2 *
//!HEIGHT MAIN.h 2 *
vec4 hook() {
vec2 d = HOOKED_pt;
float dval = LUMAD_tex(HOOKED_pos).y;
if (dval < 0.1) {
return HOOKED_tex(HOOKED_pos);
}
vec4 dc = LUMAMM_tex(HOOKED_pos);
if (abs(dc.x + dc.y) <= 0.0001) {
return HOOKED_tex(HOOKED_pos);
}
float xpos = -sign(dc.x);
float ypos = -sign(dc.y);
vec4 xval = HOOKED_tex(HOOKED_pos + vec2(d.x * xpos, 0.0));
vec4 yval = HOOKED_tex(HOOKED_pos + vec2(0.0, d.y * ypos));
float xyratio = abs(dc.x) / (abs(dc.x) + abs(dc.y));
vec4 avg = xyratio * xval + (1.0 - xyratio) * yval;
return avg * dval + HOOKED_tex(HOOKED_pos) * (1.0 - dval);
}
shaders/FSR.glsl
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// Copyright (c) 2021 Advanced Micro Devices, Inc. All rights reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
// FidelityFX FSR v1.0.2 by AMD
// ported to mpv by agyild
// Changelog
// Made it compatible with pre-OpenGL 4.0 renderers
// Made it directly operate on LUMA plane, since the original shader was operating on LUMA by deriving it from RGB. This should cause a major increase in performance, especially on OpenGL 4.0+ renderers (4+2 texture lookups vs. 12+5)
// Removed transparency preservation mechanism since the alpha channel is a separate source plane than LUMA
// Added optional performance-saving lossy optimizations to EASU (Credit: atyuwen, https://atyuwen.github.io/posts/optimizing-fsr/)
//
// Notes
// Per AMD's guidelines only upscales content up to 4x (e.g., 1080p -> 2160p, 720p -> 1440p etc.) and everything else in between,
// that means FSR will scale up to 4x at maximum, and any further scaling will be processed by mpv's scalers
//!HOOK LUMA
//!BIND HOOKED
//!SAVE EASUTEX
//!DESC FidelityFX Super Resolution v1.0.2 (EASU)
//!WHEN OUTPUT.w OUTPUT.h * LUMA.w LUMA.h * / 1.0 >
//!WIDTH OUTPUT.w OUTPUT.w LUMA.w 2 * < * LUMA.w 2 * OUTPUT.w LUMA.w 2 * > * + OUTPUT.w OUTPUT.w LUMA.w 2 * = * +
//!HEIGHT OUTPUT.h OUTPUT.h LUMA.h 2 * < * LUMA.h 2 * OUTPUT.h LUMA.h 2 * > * + OUTPUT.h OUTPUT.h LUMA.h 2 * = * +
//!COMPONENTS 1
// User variables - EASU
#define FSR_PQ 0 // Whether the source content has PQ gamma or not. Needs to be set to the same value for both passes. 0 or 1.
#define FSR_EASU_DERING 1 // If set to 0, disables deringing for a small increase in performance. 0 or 1.
#define FSR_EASU_SIMPLE_ANALYSIS 0 // If set to 1, uses a simpler single-pass direction and length analysis for an increase in performance. 0 or 1.
#define FSR_EASU_QUIT_EARLY 0 // If set to 1, uses bilinear filtering for non-edge pixels and skips EASU on those regions for an increase in performance. 0 or 1.
// Shader code
#ifndef FSR_EASU_DIR_THRESHOLD
#if (FSR_EASU_QUIT_EARLY == 1)
#define FSR_EASU_DIR_THRESHOLD 64.0
#elif (FSR_EASU_QUIT_EARLY == 0)
#define FSR_EASU_DIR_THRESHOLD 32768.0
#endif
#endif
float APrxLoRcpF1(float a) {
return uintBitsToFloat(uint(0x7ef07ebb) - floatBitsToUint(a));
}
float APrxLoRsqF1(float a) {
return uintBitsToFloat(uint(0x5f347d74) - (floatBitsToUint(a) >> uint(1)));
}
float AMin3F1(float x, float y, float z) {
return min(x, min(y, z));
}
float AMax3F1(float x, float y, float z) {
return max(x, max(y, z));
}
#if (FSR_PQ == 1)
float ToGamma2(float a) {
return pow(a, 4.0);
}
#endif
// Filtering for a given tap for the scalar.
void FsrEasuTap(
inout float aC, // Accumulated color, with negative lobe.
inout float aW, // Accumulated weight.
vec2 off, // Pixel offset from resolve position to tap.
vec2 dir, // Gradient direction.
vec2 len, // Length.
float lob, // Negative lobe strength.
float clp, // Clipping point.
float c){ // Tap color.
// Rotate offset by direction.
vec2 v;
v.x = (off.x * ( dir.x)) + (off.y * dir.y);
v.y = (off.x * (-dir.y)) + (off.y * dir.x);
// Anisotropy.
v *= len;
// Compute distance^2.
float d2 = v.x * v.x + v.y * v.y;
// Limit to the window as at corner, 2 taps can easily be outside.
d2 = min(d2, clp);
// Approximation of lancos2 without sin() or rcp(), or sqrt() to get x.
// (25/16 * (2/5 * x^2 - 1)^2 - (25/16 - 1)) * (1/4 * x^2 - 1)^2
// |_______________________________________| |_______________|
// base window
// The general form of the 'base' is,
// (a*(b*x^2-1)^2-(a-1))
// Where 'a=1/(2*b-b^2)' and 'b' moves around the negative lobe.
float wB = float(2.0 / 5.0) * d2 + -1.0;
float wA = lob * d2 + -1.0;
wB *= wB;
wA *= wA;
wB = float(25.0 / 16.0) * wB + float(-(25.0 / 16.0 - 1.0));
float w = wB * wA;
// Do weighted average.
aC += c * w;
aW += w;
}
// Accumulate direction and length.
void FsrEasuSet(
inout vec2 dir,
inout float len,
vec2 pp,
#if (FSR_EASU_SIMPLE_ANALYSIS == 1)
float b, float c,
float i, float j, float f, float e,
float k, float l, float h, float g,
float o, float n
#elif (FSR_EASU_SIMPLE_ANALYSIS == 0)
bool biS, bool biT, bool biU, bool biV,
float lA, float lB, float lC, float lD, float lE
#endif
){
// Compute bilinear weight, branches factor out as predicates are compiler time immediates.
// s t
// u v
#if (FSR_EASU_SIMPLE_ANALYSIS == 1)
vec4 w = vec4(0.0);
w.x = (1.0 - pp.x) * (1.0 - pp.y);
w.y = pp.x * (1.0 - pp.y);
w.z = (1.0 - pp.x) * pp.y;
w.w = pp.x * pp.y;
float lA = dot(w, vec4(b, c, f, g));
float lB = dot(w, vec4(e, f, i, j));
float lC = dot(w, vec4(f, g, j, k));
float lD = dot(w, vec4(g, h, k, l));
float lE = dot(w, vec4(j, k, n, o));
#elif (FSR_EASU_SIMPLE_ANALYSIS == 0)
float w = 0.0;
if (biS)
w = (1.0 - pp.x) * (1.0 - pp.y);
if (biT)
w = pp.x * (1.0 - pp.y);
if (biU)
w = (1.0 - pp.x) * pp.y;
if (biV)
w = pp.x * pp.y;
#endif
// Direction is the '+' diff.
// a
// b c d
// e
// Then takes magnitude from abs average of both sides of 'c'.
// Length converts gradient reversal to 0, smoothly to non-reversal at 1, shaped, then adding horz and vert terms.
float dc = lD - lC;
float cb = lC - lB;
float lenX = max(abs(dc), abs(cb));
lenX = APrxLoRcpF1(lenX);
float dirX = lD - lB;
lenX = clamp(abs(dirX) * lenX, 0.0, 1.0);
lenX *= lenX;
// Repeat for the y axis.
float ec = lE - lC;
float ca = lC - lA;
float lenY = max(abs(ec), abs(ca));
lenY = APrxLoRcpF1(lenY);
float dirY = lE - lA;
lenY = clamp(abs(dirY) * lenY, 0.0, 1.0);
lenY *= lenY;
#if (FSR_EASU_SIMPLE_ANALYSIS == 1)
len = lenX + lenY;
dir = vec2(dirX, dirY);
#elif (FSR_EASU_SIMPLE_ANALYSIS == 0)
dir += vec2(dirX, dirY) * w;
len += dot(vec2(w), vec2(lenX, lenY));
#endif
}
vec4 hook() {
// Result
vec4 pix = vec4(0.0, 0.0, 0.0, 1.0);
//------------------------------------------------------------------------------------------------------------------------------
// +---+---+
// | | |
// +--(0)--+
// | b | c |
// +---F---+---+---+
// | e | f | g | h |
// +--(1)--+--(2)--+
// | i | j | k | l |
// +---+---+---+---+
// | n | o |
// +--(3)--+
// | | |
// +---+---+
// Get position of 'F'.
vec2 pp = HOOKED_pos * HOOKED_size - vec2(0.5);
vec2 fp = floor(pp);
pp -= fp;
//------------------------------------------------------------------------------------------------------------------------------
// 12-tap kernel.
// b c
// e f g h
// i j k l
// n o
// Gather 4 ordering.
// a b
// r g
// Allowing dead-code removal to remove the 'z's.
#if (defined(HOOKED_gather) && (__VERSION__ >= 400 || (GL_ES && __VERSION__ >= 310)))
vec4 bczzL = HOOKED_gather(vec2((fp + vec2(1.0, -1.0)) * HOOKED_pt), 0);
vec4 ijfeL = HOOKED_gather(vec2((fp + vec2(0.0, 1.0)) * HOOKED_pt), 0);
vec4 klhgL = HOOKED_gather(vec2((fp + vec2(2.0, 1.0)) * HOOKED_pt), 0);
vec4 zzonL = HOOKED_gather(vec2((fp + vec2(1.0, 3.0)) * HOOKED_pt), 0);
#else
// pre-OpenGL 4.0 compatibility
float b = HOOKED_tex(vec2((fp + vec2(0.5, -0.5)) * HOOKED_pt)).r;
float c = HOOKED_tex(vec2((fp + vec2(1.5, -0.5)) * HOOKED_pt)).r;
float e = HOOKED_tex(vec2((fp + vec2(-0.5, 0.5)) * HOOKED_pt)).r;
float f = HOOKED_tex(vec2((fp + vec2( 0.5, 0.5)) * HOOKED_pt)).r;
float g = HOOKED_tex(vec2((fp + vec2( 1.5, 0.5)) * HOOKED_pt)).r;
float h = HOOKED_tex(vec2((fp + vec2( 2.5, 0.5)) * HOOKED_pt)).r;
float i = HOOKED_tex(vec2((fp + vec2(-0.5, 1.5)) * HOOKED_pt)).r;
float j = HOOKED_tex(vec2((fp + vec2( 0.5, 1.5)) * HOOKED_pt)).r;
float k = HOOKED_tex(vec2((fp + vec2( 1.5, 1.5)) * HOOKED_pt)).r;
float l = HOOKED_tex(vec2((fp + vec2( 2.5, 1.5)) * HOOKED_pt)).r;
float n = HOOKED_tex(vec2((fp + vec2(0.5, 2.5) ) * HOOKED_pt)).r;
float o = HOOKED_tex(vec2((fp + vec2(1.5, 2.5) ) * HOOKED_pt)).r;
vec4 bczzL = vec4(b, c, 0.0, 0.0);
vec4 ijfeL = vec4(i, j, f, e);
vec4 klhgL = vec4(k, l, h, g);
vec4 zzonL = vec4(0.0, 0.0, o, n);
#endif
//------------------------------------------------------------------------------------------------------------------------------
// Rename.
float bL = bczzL.x;
float cL = bczzL.y;
float iL = ijfeL.x;
float jL = ijfeL.y;
float fL = ijfeL.z;
float eL = ijfeL.w;
float kL = klhgL.x;
float lL = klhgL.y;
float hL = klhgL.z;
float gL = klhgL.w;
float oL = zzonL.z;
float nL = zzonL.w;
#if (FSR_PQ == 1)
// Not the most performance-friendly solution, but should work until mpv adds proper gamma transformation functions for shaders
bL = ToGamma2(bL);
cL = ToGamma2(cL);
iL = ToGamma2(iL);
jL = ToGamma2(jL);
fL = ToGamma2(fL);
eL = ToGamma2(eL);
kL = ToGamma2(kL);
lL = ToGamma2(lL);
hL = ToGamma2(hL);
gL = ToGamma2(gL);
oL = ToGamma2(oL);
nL = ToGamma2(nL);
#endif
// Accumulate for bilinear interpolation.
vec2 dir = vec2(0.0);
float len = 0.0;
#if (FSR_EASU_SIMPLE_ANALYSIS == 1)
FsrEasuSet(dir, len, pp, bL, cL, iL, jL, fL, eL, kL, lL, hL, gL, oL, nL);
#elif (FSR_EASU_SIMPLE_ANALYSIS == 0)
FsrEasuSet(dir, len, pp, true, false, false, false, bL, eL, fL, gL, jL);
FsrEasuSet(dir, len, pp, false, true, false, false, cL, fL, gL, hL, kL);
FsrEasuSet(dir, len, pp, false, false, true, false, fL, iL, jL, kL, nL);
FsrEasuSet(dir, len, pp, false, false, false, true, gL, jL, kL, lL, oL);
#endif
//------------------------------------------------------------------------------------------------------------------------------
// Normalize with approximation, and cleanup close to zero.
vec2 dir2 = dir * dir;
float dirR = dir2.x + dir2.y;
bool zro = dirR < float(1.0 / FSR_EASU_DIR_THRESHOLD);
dirR = APrxLoRsqF1(dirR);
#if (FSR_EASU_QUIT_EARLY == 1)
if (zro) {
vec4 w = vec4(0.0);
w.x = (1.0 - pp.x) * (1.0 - pp.y);
w.y = pp.x * (1.0 - pp.y);
w.z = (1.0 - pp.x) * pp.y;
w.w = pp.x * pp.y;
pix.r = clamp(dot(w, vec4(fL, gL, jL, kL)), 0.0, 1.0);
return pix;
}
#elif (FSR_EASU_QUIT_EARLY == 0)
dirR = zro ? 1.0 : dirR;
dir.x = zro ? 1.0 : dir.x;
#endif
dir *= vec2(dirR);
// Transform from {0 to 2} to {0 to 1} range, and shape with square.
len = len * 0.5;
len *= len;
// Stretch kernel {1.0 vert|horz, to sqrt(2.0) on diagonal}.
float stretch = (dir.x * dir.x + dir.y * dir.y) * APrxLoRcpF1(max(abs(dir.x), abs(dir.y)));
// Anisotropic length after rotation,
// x := 1.0 lerp to 'stretch' on edges
// y := 1.0 lerp to 2x on edges
vec2 len2 = vec2(1.0 + (stretch - 1.0) * len, 1.0 + -0.5 * len);
// Based on the amount of 'edge',
// the window shifts from +/-{sqrt(2.0) to slightly beyond 2.0}.
float lob = 0.5 + float((1.0 / 4.0 - 0.04) - 0.5) * len;
// Set distance^2 clipping point to the end of the adjustable window.
float clp = APrxLoRcpF1(lob);
//------------------------------------------------------------------------------------------------------------------------------
// Accumulation
// b c
// e f g h
// i j k l
// n o
float aC = 0.0;
float aW = 0.0;
FsrEasuTap(aC, aW, vec2( 0.0,-1.0) - pp, dir, len2, lob, clp, bL); // b
FsrEasuTap(aC, aW, vec2( 1.0,-1.0) - pp, dir, len2, lob, clp, cL); // c
FsrEasuTap(aC, aW, vec2(-1.0, 1.0) - pp, dir, len2, lob, clp, iL); // i
FsrEasuTap(aC, aW, vec2( 0.0, 1.0) - pp, dir, len2, lob, clp, jL); // j
FsrEasuTap(aC, aW, vec2( 0.0, 0.0) - pp, dir, len2, lob, clp, fL); // f
FsrEasuTap(aC, aW, vec2(-1.0, 0.0) - pp, dir, len2, lob, clp, eL); // e
FsrEasuTap(aC, aW, vec2( 1.0, 1.0) - pp, dir, len2, lob, clp, kL); // k
FsrEasuTap(aC, aW, vec2( 2.0, 1.0) - pp, dir, len2, lob, clp, lL); // l
FsrEasuTap(aC, aW, vec2( 2.0, 0.0) - pp, dir, len2, lob, clp, hL); // h
FsrEasuTap(aC, aW, vec2( 1.0, 0.0) - pp, dir, len2, lob, clp, gL); // g
FsrEasuTap(aC, aW, vec2( 1.0, 2.0) - pp, dir, len2, lob, clp, oL); // o
FsrEasuTap(aC, aW, vec2( 0.0, 2.0) - pp, dir, len2, lob, clp, nL); // n
//------------------------------------------------------------------------------------------------------------------------------
// Normalize and dering.
pix.r = aC / aW;
#if (FSR_EASU_DERING == 1)
float min1 = min(AMin3F1(fL, gL, jL), kL);
float max1 = max(AMax3F1(fL, gL, jL), kL);
pix.r = clamp(pix.r, min1, max1);
#endif
pix.r = clamp(pix.r, 0.0, 1.0);
return pix;
}
//!HOOK LUMA
//!BIND EASUTEX
//!DESC FidelityFX Super Resolution v1.0.2 (RCAS)
//!WIDTH EASUTEX.w
//!HEIGHT EASUTEX.h
//!COMPONENTS 1
// User variables - RCAS
#define SHARPNESS 0.2 // Controls the amount of sharpening. The scale is {0.0 := maximum, to N>0, where N is the number of stops (halving) of the reduction of sharpness}. 0.0 to 2.0.
#define FSR_RCAS_DENOISE 1 // If set to 1, lessens the sharpening on noisy areas. Can be disabled for better performance. 0 or 1.
#define FSR_PQ 0 // Whether the source content has PQ gamma or not. Needs to be set to the same value for both passes. 0 or 1.
// Shader code
#define FSR_RCAS_LIMIT (0.25 - (1.0 / 16.0)) // This is set at the limit of providing unnatural results for sharpening.
float APrxMedRcpF1(float a) {
float b = uintBitsToFloat(uint(0x7ef19fff) - floatBitsToUint(a));
return b * (-b * a + 2.0);
}
float AMax3F1(float x, float y, float z) {
return max(x, max(y, z));
}
float AMin3F1(float x, float y, float z) {
return min(x, min(y, z));
}
#if (FSR_PQ == 1)
float FromGamma2(float a) {
return sqrt(sqrt(a));
}
#endif
vec4 hook() {
// Algorithm uses minimal 3x3 pixel neighborhood.
// b
// d e f
// h
#if (defined(EASUTEX_gather) && (__VERSION__ >= 400 || (GL_ES && __VERSION__ >= 310)))
vec3 bde = EASUTEX_gather(EASUTEX_pos + EASUTEX_pt * vec2(-0.5), 0).xyz;
float b = bde.z;
float d = bde.x;
float e = bde.y;
vec2 fh = EASUTEX_gather(EASUTEX_pos + EASUTEX_pt * vec2(0.5), 0).zx;
float f = fh.x;
float h = fh.y;
#else
float b = EASUTEX_texOff(vec2( 0.0, -1.0)).r;
float d = EASUTEX_texOff(vec2(-1.0, 0.0)).r;
float e = EASUTEX_tex(EASUTEX_pos).r;
float f = EASUTEX_texOff(vec2(1.0, 0.0)).r;
float h = EASUTEX_texOff(vec2(0.0, 1.0)).r;
#endif
// Min and max of ring.
float mn1L = min(AMin3F1(b, d, f), h);
float mx1L = max(AMax3F1(b, d, f), h);
// Immediate constants for peak range.
vec2 peakC = vec2(1.0, -1.0 * 4.0);
// Limiters, these need to be high precision RCPs.
float hitMinL = min(mn1L, e) / (4.0 * mx1L);
float hitMaxL = (peakC.x - max(mx1L, e)) / (4.0 * mn1L + peakC.y);
float lobeL = max(-hitMinL, hitMaxL);
float lobe = max(float(-FSR_RCAS_LIMIT), min(lobeL, 0.0)) * exp2(-clamp(float(SHARPNESS), 0.0, 2.0));
// Apply noise removal.
#if (FSR_RCAS_DENOISE == 1)
// Noise detection.
float nz = 0.25 * b + 0.25 * d + 0.25 * f + 0.25 * h - e;
nz = clamp(abs(nz) * APrxMedRcpF1(AMax3F1(AMax3F1(b, d, e), f, h) - AMin3F1(AMin3F1(b, d, e), f, h)), 0.0, 1.0);
nz = -0.5 * nz + 1.0;
lobe *= nz;
#endif
// Resolve, which needs the medium precision rcp approximation to avoid visible tonality changes.
float rcpL = APrxMedRcpF1(4.0 * lobe + 1.0);
vec4 pix = vec4(0.0, 0.0, 0.0, 1.0);
pix.r = float((lobe * b + lobe * d + lobe * h + lobe * f + e) * rcpL);
#if (FSR_PQ == 1)
pix.r = FromGamma2(pix.r);
#endif
return pix;
}