slang-shaders/stereoscopic-3d/shaders/fubax_vr/Chromatic.slang

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#version 450
/*
/// VR shader ///
Make any game VR and any screen with lenses a VR headset.
Thanks to this shader you'll be able to correct distortions of any lens types
(DIY, experimental) and chromatic aberration.
Also if a game outputs depth pass you can have a stereo-3D vision thanks to
the parallax mapping (which needs some further improvement).
Copyright (c) 2019 Jacob Max Fober
This work is licensed under the Creative Commons
Attribution-NonCommercial-ShareAlike 4.0 International License.
To view a copy of this license, visit
http://creativecommons.org/licenses/by-nc-sa/4.0/
If you want to use it commercially, contact me at jakub.m.fober@pm.me
If you have questions, visit https://reshade.me/forum/shader-discussion/
I'm author of most of equations present here,
beside Brown-Conrady distortion correction model and
Parallax Steep and Occlusion mapping which
I changed and adopted from various sources.
Version 0.4.2 alpha
*/
layout(push_constant) uniform Push
{
vec4 SourceSize;
vec4 OriginalSize;
vec4 OutputSize;
uint FrameCount;
} params;
#include "fubax_vr_params.inc"
#pragma stage vertex
layout(location = 0) in vec4 Position;
layout(location = 1) in vec2 TexCoord;
layout(location = 0) out vec2 texcoord;
void main()
{
gl_Position = global.MVP * Position;
texcoord = TexCoord;
}
#pragma stage fragment
layout(location = 0) in vec2 texcoord;
layout(location = 0) out vec4 FragColor;
layout(set = 0, binding = 2) uniform sampler2D Source;
#include "fubax_vr_shared_funcs.inc"
void main()
{
// Bypass chromatic aberration switch
if(!ChromaticAbrSwitch)
{
FragColor = vec4(texture(Source, texcoord).rgb, 1.0);
return;
}
// Get display aspect ratio (horizontal/vertical resolution)
float rAspect = params.OutputSize.x*params.OutputSize.w;
// Generate negative-positive stereo mask
float SideScreenSwitch = step(0.5, texcoord.x)*2.0-1.0;
// Divide screen in two if stereo vision mode enabled
vec2 CenterCoord = StereoSwitch? StereoVision(texcoord, IPD) : texcoord;
CenterCoord = CenterCoord*2.0-1.0; // Center coordinates
CenterCoord.x *= rAspect; // Correct aspect ratio
float Diagonal = rAspect;
Diagonal *= StereoSwitch ? 0.5 : 1.0;
Diagonal = length(vec2(Diagonal, 1.0));
CenterCoord /= Diagonal; // Normalize diagonally
// Left/right eye mask
float L = step(0.5, 1.0-texcoord.x);
float R = step(0.5, texcoord.x);
// Offset center green
vec2 CoordGreen = ChGreenOffsetL * L + ChGreenOffsetR * R;
CoordGreen.x *= -1.0;
CoordGreen = 0.01 * CoordGreen + CenterCoord;
// Offset center blue
vec2 CoordBlue = ChBlueOffsetL * L + ChBlueOffsetR * R;
CoordBlue.x *= -1.0;
CoordBlue = 0.01 * CoordBlue + CenterCoord;
// float RadiusGreen = dot(CoordGreen, CoordGreen); // Radius squared (techically accurate)
// float RadiusBlue = dot(CoordBlue, CoordBlue); // Radius squared (techically accurate)
float RadiusGreen = length(CoordGreen); // Radius
float RadiusBlue = length(CoordBlue); // Radius
// Calculate radial distortion K
float correctionGreenK = (1.0+ChGreenK.x)*kRadial(RadiusGreen, ChGreenK.y, ChGreenK.z, ChGreenK.w, 0.0);
float correctionBlueK = (1.0+ChBlueK.x)*kRadial(RadiusBlue, ChBlueK.y, ChBlueK.z, ChBlueK.w, 0.0);
// Apply chromatic aberration correction
CoordGreen = CoordGreen * correctionGreenK;
CoordBlue = CoordBlue * correctionBlueK;
CoordGreen *= Diagonal; CoordBlue *= Diagonal; // Back to vertical normalization
CoordGreen.x /= rAspect; CoordBlue.x /= rAspect; // Back to square
// Move origin to left top corner
CoordGreen = CoordGreen * 0.5 + 0.5; CoordBlue = CoordBlue * 0.5 + 0.5;
// Generate border mask for green and blue channel
float MaskBlue, MaskGreen; if(StereoSwitch)
{
// Mask compensation for center cut
float CenterCut = 0.5+(0.5-IPD)*SideScreenSwitch;
// Mask sides and center cut for blue channel
vec2 MaskCoordBlue;
MaskCoordBlue.x = CoordBlue.x*2.0 - CenterCut; // Compensate for 2 views
MaskCoordBlue.y = CoordBlue.y;
MaskBlue = BorderMaskAA(MaskCoordBlue);
// Mask sides and center cut for green channel
vec2 MaskCoordGreen;
MaskCoordGreen.x = CoordGreen.x*2.0 - CenterCut; // Compensate for 2 views
MaskCoordGreen.y = CoordGreen.y;
MaskGreen = BorderMaskAA(MaskCoordGreen);
// Reverse stereo coordinates to single view
CoordGreen = InvStereoVision(CoordGreen, int(SideScreenSwitch), IPD);
CoordBlue = InvStereoVision(CoordBlue, int(SideScreenSwitch), IPD);
}
else
{
MaskBlue = BorderMaskAA(CoordBlue);
MaskGreen = BorderMaskAA(CoordGreen);
};
vec3 Image;
// Sample image red
Image.r = texture(Source, texcoord).r;
// Sample image green
Image.g = mix(
texture(Source, CoordGreen).g,
0.0, // Black borders
MaskGreen // Anti-aliased border mask
);
// Sample image blue
Image.b = mix(
texture(Source, CoordBlue).b,
0.0, // Black borders
MaskBlue // Anti-aliased border mask
);
// Display chromatic aberration
FragColor = vec4(Image, 1.0);
}