slang-shaders/crt/shaders/crt-pi.slang

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#version 450
layout(push_constant) uniform Push
{
float CURVATURE_X;
float CURVATURE_Y;
float MASK_BRIGHTNESS;
float SCANLINE_WEIGHT;
float SCANLINE_GAP_BRIGHTNESS;
float BLOOM_FACTOR;
float INPUT_GAMMA;
float OUTPUT_GAMMA;
} param;
#pragma parameter CURVATURE_X "Screen curvature - horizontal" 0.10 0.0 1.0 0.01
#pragma parameter CURVATURE_Y "Screen curvature - vertical" 0.15 0.0 1.0 0.01
#pragma parameter MASK_BRIGHTNESS "Mask brightness" 0.70 0.0 1.0 0.01
#pragma parameter SCANLINE_WEIGHT "Scanline weight" 6.0 0.0 15.0 0.1
#pragma parameter SCANLINE_GAP_BRIGHTNESS "Scanline gap brightness" 0.12 0.0 1.0 0.01
#pragma parameter BLOOM_FACTOR "Bloom factor" 1.5 0.0 5.0 0.01
#pragma parameter INPUT_GAMMA "Input gamma" 2.4 0.0 5.0 0.01
#pragma parameter OUTPUT_GAMMA "Output gamma" 2.2 0.0 5.0 0.01
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layout(std140, set = 0, binding = 0) uniform UBO
{
mat4 MVP;
vec4 OutputSize;
vec4 OriginalSize;
vec4 SourceSize;
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} global;
#pragma stage vertex
layout(location = 0) in vec4 Position;
layout(location = 1) in vec2 TexCoord;
layout(location = 0) out vec2 vTexCoord;
layout(location = 1) out float filterWidth;
void main()
{
gl_Position = global.MVP * Position;
vTexCoord = TexCoord;
filterWidth = (global.SourceSize.y * global.OutputSize.w) * 0.333333333;
}
#pragma stage fragment
layout(location = 0) in vec2 vTexCoord;
layout(location = 1) in float filterWidth;
layout(location = 0) out vec4 FragColor;
layout(set = 0, binding = 2) uniform sampler2D Source;
/* MASK_TYPE: 0 = none, 1 = green/magenta, 2 = trinitron(ish) */
#define MASK_TYPE 2
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#define SCANLINES
#define CURVATURE
//#define FAKE_GAMMA
//#define GAMMA
//#define SHARPER
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#define MULTISAMPLE
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/*
crt-pi - A Raspberry Pi friendly CRT shader.
Copyright (C) 2015-2016 davej
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the Free
Software Foundation; either version 2 of the License, or (at your option)
any later version.
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Notes:
This shader is designed to work well on Raspberry Pi GPUs (i.e. 1080P @ 60Hz on
a game with a 4:3 aspect ratio).
It pushes the Pi's GPU hard and enabling some features will slow it down so that
it is no longer able to match 1080P @ 60Hz.
You will need to overclock your Pi to the fastest setting in raspi-config to get
the best results from this shader: 'Pi2' for Pi2 and 'Turbo' for original Pi and
Pi Zero.
Note: Pi2s are slower at running the shader than other Pis, this seems to be
down to Pi2s lower maximum memory speed.
Pi2s don't quite manage 1080P @ 60Hz - they drop about 1 in 1000 frames.
You probably won't notice this, but if you do, try enabling FAKE_GAMMA.
SCANLINES enables scanlines.
You'll almost certainly want to use it with MULTISAMPLE to reduce moire effects.
SCANLINE_WEIGHT defines how wide scanlines are (it is an inverse value so a
higher number = thinner lines).
SCANLINE_GAP_BRIGHTNESS defines how dark the gaps between the scan lines are.
Darker gaps between scan lines make moire effects more likely.
GAMMA enables gamma correction using the values in INPUT_GAMMA and OUTPUT_GAMMA.
FAKE_GAMMA causes it to ignore the values in INPUT_GAMMA and OUTPUT_GAMMA and
approximate gamma correction in a way which is faster than true gamma whilst
still looking better than having none.
You must have GAMMA defined to enable FAKE_GAMMA.
CURVATURE distorts the screen by CURVATURE_X and CURVATURE_Y.
Curvature slows things down a lot.
By default the shader uses linear blending horizontally. If you find this too
blury, enable SHARPER.
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BLOOM_FACTOR controls the increase in width for bright scanlines.
MASK_TYPE defines what, if any, shadow mask to use. MASK_BRIGHTNESS defines how
much the mask type darkens the screen.
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*/
#if defined(CURVATURE)
vec2 CURVATURE_DISTORTION = vec2(param.CURVATURE_X, param.CURVATURE_Y);
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// Barrel distortion shrinks the display area a bit, this will allow us to counteract that.
vec2 barrelScale = 1.0 - (0.23 * CURVATURE_DISTORTION);
vec2 Distort(vec2 coord)
{
// coord *= screenScale; // not necessary in slang
coord -= vec2(0.5);
float rsq = coord.x * coord.x + coord.y * coord.y;
coord += coord * (CURVATURE_DISTORTION * rsq);
coord *= barrelScale;
if (abs(coord.x) >= 0.5 || abs(coord.y) >= 0.5)
coord = vec2(-1.0); // If out of bounds, return an invalid value.
else
{
coord += vec2(0.5);
// coord /= screenScale; // not necessary in slang
}
return coord;
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}
#endif
float CalcScanLineWeight(float dist)
{
return max(1.0-dist*dist*param.SCANLINE_WEIGHT, param.SCANLINE_GAP_BRIGHTNESS);
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}
float CalcScanLine(float dy)
{
float scanLineWeight = CalcScanLineWeight(dy);
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#if defined(MULTISAMPLE)
scanLineWeight += CalcScanLineWeight(dy - filterWidth);
scanLineWeight += CalcScanLineWeight(dy + filterWidth);
scanLineWeight *= 0.3333333;
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#endif
return scanLineWeight;
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}
void main()
{
vec2 texcoord = vTexCoord;
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#if defined(CURVATURE)
texcoord = Distort(texcoord);
if (texcoord.x < 0.0)
{
FragColor = vec4(0.0);
return;
}
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#endif
vec2 texcoordInPixels = texcoord * global.SourceSize.xy;
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#if defined(SHARPER)
vec2 tempCoord = floor(texcoordInPixels) + 0.5;
vec2 coord = tempCoord * global.SourceSize.zw;
vec2 deltas = texcoordInPixels - tempCoord;
float scanLineWeight = CalcScanLine(deltas.y);
vec2 signs = sign(deltas);
deltas = abs(deltas) * 2.0;
deltas.x = deltas.x * deltas.x;
deltas.y = deltas.y * deltas.y * deltas.y;
deltas *= 0.5 * global.SourceSize.zw * signs;
vec2 tc = coord + deltas;
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#else
float tempCoord = floor(texcoordInPixels.y) + 0.5;
float coord = tempCoord * global.SourceSize.w;
float deltas = texcoordInPixels.y - tempCoord;
float scanLineWeight = CalcScanLine(deltas);
float signs = sign(deltas);
deltas = abs(deltas) * 2.0;
deltas = deltas * deltas * deltas;
deltas *= 0.5 * global.SourceSize.w * signs;
vec2 tc = vec2(texcoord.x, coord + deltas);
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#endif
vec3 colour = texture(Source, tc).rgb;
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#if defined(SCANLINES)
#if defined(GAMMA) && defined(FAKE_GAMMA)
colour = colour * colour;
#elif defined(GAMMA)
colour = pow(colour, vec3(param.INPUT_GAMMA));
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#endif
/* Apply scanlines */
scanLineWeight *= param.BLOOM_FACTOR;
colour *= scanLineWeight;
#if defined(GAMMA) && defined(FAKE_GAMMA)
colour = sqrt(colour);
#elif defined(GAMMA)
colour = pow(colour, vec3(1.0/param.OUTPUT_GAMMA));
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#endif
#endif /* SCANLINES */
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#if MASK_TYPE == 1
float whichMask = fract((vTexCoord.x * global.OutputSize.x) * 0.5);
vec3 mask = vec3(1.0);
if (whichMask < 0.5) mask.rb = vec2(param.MASK_BRIGHTNESS);
else mask.g = param.MASK_BRIGHTNESS;
colour *= mask;
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#elif MASK_TYPE == 2
float whichMask = fract((vTexCoord.x * global.OutputSize.x) * 0.3333333);
vec3 mask = vec3(param.MASK_BRIGHTNESS);
if (whichMask < 0.3333333) mask.r = 1.0;
else if (whichMask < 0.6666666) mask.g = 1.0;
else mask.b = 1.0;
colour *= mask;
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#endif
FragColor = vec4(colour, 1.0);
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}