mirror of
https://github.com/italicsjenga/slang-shaders.git
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637 lines
24 KiB
Plaintext
637 lines
24 KiB
Plaintext
#version 450
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//_____________________________/\_______________________________
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//==============================================================
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//
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//
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// [CRTS] PUBLIC DOMAIN CRT-STYLED SCALAR - 20180120b
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//
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// by Timothy Lottes
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// https://www.shadertoy.com/view/MtSfRK
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// adapted for RetroArch by hunterk
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//
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//
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//==============================================================
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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//_____________________________/\_______________________________
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//==============================================================
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//
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// WHAT'S NEW
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//
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//--------------------------------------------------------------
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// Evolution of prior shadertoy example
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//--------------------------------------------------------------
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// This one is semi-optimized
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// - Less texture fetches
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// - Didn't get to instruction level optimization
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// - Could likely use texture fetch to generate phosphor mask
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//--------------------------------------------------------------
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// Added options to disable unused features
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//--------------------------------------------------------------
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// Added in exposure matching
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// - Given scan-line effect and mask always darkens image
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// - Uses generalized tonemapper to boost mid-level
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// - Note this can compress highlights
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// - And won't get back peak brightness
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// - But best option if one doesn't want as much darkening
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//--------------------------------------------------------------
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// Includes option saturation and contrast controls
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//--------------------------------------------------------------
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// Added in subtractive aperture grille
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// - This is a bit brighter than prior
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//--------------------------------------------------------------
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// Make sure input to this filter is already low-resolution
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// - This is not designed to work on titles doing the following
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// - Rendering to hi-res with nearest sampling
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//--------------------------------------------------------------
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// Added a fast and more pixely option for 2 tap/pixel
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//--------------------------------------------------------------
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// Improved the vignette when WARP is enabled
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//--------------------------------------------------------------
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// Didn't test HLSL or CPU options
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// - Will incorportate patches if they are broken
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// - But out of time to try them myself
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//==============================================================
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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//_____________________________/\_______________________________
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//==============================================================
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//
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// LICENSE = UNLICENSE (aka PUBLIC DOMAIN)
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//
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//--------------------------------------------------------------
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// This is free and unencumbered software released into the
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// public domain.
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//--------------------------------------------------------------
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// Anyone is free to copy, modify, publish, use, compile, sell,
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// or distribute this software, either in source code form or as
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// a compiled binary, for any purpose, commercial or
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// non-commercial, and by any means.
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//--------------------------------------------------------------
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// In jurisdictions that recognize copyright laws, the author or
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// authors of this software dedicate any and all copyright
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// interest in the software to the public domain. We make this
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// dedication for the benefit of the public at large and to the
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// detriment of our heirs and successors. We intend this
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// dedication to be an overt act of relinquishment in perpetuity
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// of all present and future rights to this software under
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// copyright law.
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//--------------------------------------------------------------
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY
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// KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
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// WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
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// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE
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// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
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// AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT
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// OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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// DEALINGS IN THE SOFTWARE.
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//--------------------------------------------------------------
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// For more information, please refer to
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// <http://unlicense.org/>
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//==============================================================
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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layout(push_constant) uniform Push
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{
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vec4 SourceSize;
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vec4 OriginalSize;
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vec4 OutputSize;
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uint FrameCount;
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float MASK;
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float MASK_INTENSITY;
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float SCANLINE_THINNESS;
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float SCAN_BLUR;
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float CURVATURE;
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float TRINITRON_CURVE;
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float CORNER;
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float CRT_GAMMA;
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} params;
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#pragma parameter MASK "Mask Type" 1.0 0.0 3.0 1.0
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#pragma parameter MASK_INTENSITY "Mask Intensity" 0.5 0.0 1.0 0.05
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#pragma parameter SCANLINE_THINNESS "Scanline Intensity" 0.5 0.0 1.0 0.1
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#pragma parameter SCAN_BLUR "Sharpness" 2.5 1.0 3.0 0.1
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#pragma parameter CURVATURE "Curvature" 0.02 0.0 0.25 0.01
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#pragma parameter TRINITRON_CURVE "Trinitron-style Curve" 0.0 0.0 1.0 1.0
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#pragma parameter CORNER "Corner Round" 3.0 0.0 11.0 1.0
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#pragma parameter CRT_GAMMA "CRT Gamma" 2.4 0.0 51.0 0.1
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layout(std140, set = 0, binding = 0) uniform UBO
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{
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mat4 MVP;
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} global;
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#pragma stage vertex
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layout(location = 0) in vec4 Position;
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layout(location = 1) in vec2 TexCoord;
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layout(location = 0) out vec2 vTexCoord;
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void main()
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{
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gl_Position = global.MVP * Position;
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vTexCoord = TexCoord;
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}
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#pragma stage fragment
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layout(location = 0) in vec2 vTexCoord;
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layout(location = 0) out vec4 FragColor;
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layout(set = 0, binding = 2) uniform sampler2D Source;
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//_____________________________/\_______________________________
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//==============================================================
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//
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// GAMMA FUNCTIONS
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//
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//--------------------------------------------------------------
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//--------------------------------------------------------------
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// Since shadertoy doesn't have sRGB textures
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// And we need linear input into shader
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// Don't do this in your code
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float FromSrgb1(float c){
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return (c<=0.04045)?c*(1.0/12.92):
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pow(abs(c)*(1.0/1.055)+(0.055/1.055),params.CRT_GAMMA);}
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//--------------------------------------------------------------
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vec3 FromSrgb(vec3 c){return vec3(
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FromSrgb1(c.r),FromSrgb1(c.g),FromSrgb1(c.b));}
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// Convert from linear to sRGB
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// Since shader toy output is not linear
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float ToSrgb1(float c){
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return(c<0.0031308?c*12.92:1.055*pow(c,0.41666)-0.055);}
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//--------------------------------------------------------------
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vec3 ToSrgb(vec3 c){return vec3(
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ToSrgb1(c.r),ToSrgb1(c.g),ToSrgb1(c.b));}
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//--------------------------------------------------------------
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//_____________________________/\_______________________________
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//==============================================================
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//
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// DEFINES
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//
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//--------------------------------------------------------------
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// CRTS_CPU - CPU code
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// CRTS_GPU - GPU code
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//--------------------------------------------------------------
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// CRTS_GLSL - GLSL
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// CRTS_HLSL - HLSL (not tested yet)
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//--------------------------------------------------------------
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// CRTS_DEBUG - Define to see on/off split screen
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//--------------------------------------------------------------
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// CRTS_WARP - Apply screen warp
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//--------------------------------------------------------------
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// CRTS_2_TAP - Faster very pixely 2-tap filter (off is 8)
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//--------------------------------------------------------------
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// CRTS_MASK_GRILLE - Aperture grille (aka Trinitron)
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// CRTS_MASK_GRILLE_LITE - Brighter (subtractive channels)
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// CRTS_MASK_NONE - No mask
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// CRTS_MASK_SHADOW - Horizontally stretched shadow mask
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//--------------------------------------------------------------
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// CRTS_TONE - Normalize mid-level and process color
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// CRTS_CONTRAST - Process color - enable contrast control
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// CRTS_SATURATION - Process color - enable saturation control
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//--------------------------------------------------------------
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#define CRTS_STATIC
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#define CrtsPow
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#define CRTS_RESTRICT
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//==============================================================
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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//==============================================================
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// SETUP FOR CRTS
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//--------------------------------------------------------------
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//==============================================================
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//#define CRTS_DEBUG 1
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#define CRTS_GPU 1
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#define CRTS_GLSL 1
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//--------------------------------------------------------------
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//#define CRTS_2_TAP 1
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//--------------------------------------------------------------
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#define CRTS_TONE 1
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#define CRTS_CONTRAST 0
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#define CRTS_SATURATION 0
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//--------------------------------------------------------------
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#define CRTS_WARP 1
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//--------------------------------------------------------------
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// Try different masks -> moved to runtime parameters
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//#define CRTS_MASK_GRILLE 1
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//#define CRTS_MASK_GRILLE_LITE 1
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//#define CRTS_MASK_NONE 1
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//#define CRTS_MASK_SHADOW 1
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//--------------------------------------------------------------
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// Scanline thinness
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// 0.50 = fused scanlines
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// 0.70 = recommended default
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// 1.00 = thinner scanlines (too thin)
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#define INPUT_THIN (0.5 + (0.5 * params.SCANLINE_THINNESS))
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//--------------------------------------------------------------
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// Horizonal scan blur
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// -3.0 = pixely
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// -2.5 = default
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// -2.0 = smooth
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// -1.0 = too blurry
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#define INPUT_BLUR (-1.0 * params.SCAN_BLUR)
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//--------------------------------------------------------------
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// Shadow mask effect, ranges from,
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// 0.25 = large amount of mask (not recommended, too dark)
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// 0.50 = recommended default
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// 1.00 = no shadow mask
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#define INPUT_MASK (1.0 - params.MASK_INTENSITY)
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//--------------------------------------------------------------
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#define INPUT_X params.SourceSize.x
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#define INPUT_Y params.SourceSize.y
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//--------------------------------------------------------------
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// Setup the function which returns input image color
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vec3 CrtsFetch(vec2 uv){
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// For shadertoy, scale to get native texels in the image
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uv*=vec2(INPUT_X,INPUT_Y)/params.SourceSize.xy;
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// Move towards intersting parts
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// uv+=vec2(0.5,0.5);
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// Non-shadertoy case would not have the color conversion
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return FromSrgb(texture(Source,uv.xy,-16.0).rgb);}
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////
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//_____________________________/\_______________________________
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//==============================================================
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//
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// GPU CODE
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//
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//==============================================================
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#ifdef CRTS_GPU
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//_____________________________/\_______________________________
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//==============================================================
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// PORTABILITY
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//==============================================================
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#ifdef CRTS_GLSL
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#define CrtsF1 float
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#define CrtsF2 vec2
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#define CrtsF3 vec3
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#define CrtsF4 vec4
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#define CrtsFractF1 fract
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#define CrtsRcpF1(x) (1.0/(x))
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#define CrtsSatF1(x) clamp((x),0.0,1.0)
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//--------------------------------------------------------------
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CrtsF1 CrtsMax3F1(CrtsF1 a,CrtsF1 b,CrtsF1 c){
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return max(a,max(b,c));}
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#endif
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//==============================================================
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#ifdef CRTS_HLSL
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#define CrtsF1 float
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#define CrtsF2 float2
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#define CrtsF3 float3
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#define CrtsF4 float4
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#define CrtsFractF1 frac
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#define CrtsRcpF1(x) (1.0/(x))
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#define CrtsSatF1(x) saturate(x)
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//--------------------------------------------------------------
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CrtsF1 CrtsMax3F1(CrtsF1 a,CrtsF1 b,CrtsF1 c){
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return max(a,max(b,c));}
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#endif
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//_____________________________/\_______________________________
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//==============================================================
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// TONAL CONTROL CONSTANT GENERATION
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//--------------------------------------------------------------
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// This is in here for rapid prototyping
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// Please use the CPU code and pass in as constants
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//==============================================================
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CrtsF4 CrtsTone(
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CrtsF1 contrast,
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CrtsF1 saturation,
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CrtsF1 thin,
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CrtsF1 mask){
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//--------------------------------------------------------------
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if(params.MASK == 0.0) mask=1.0;
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//--------------------------------------------------------------
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if(params.MASK == 1.0){
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// Normal R mask is {1.0,mask,mask}
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// LITE R mask is {mask,1.0,1.0}
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mask=0.5+mask*0.5;
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}
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//--------------------------------------------------------------
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CrtsF4 ret;
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CrtsF1 midOut=0.18/((1.5-thin)*(0.5*mask+0.5));
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CrtsF1 pMidIn=pow(0.18,contrast);
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ret.x=contrast;
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ret.y=((-pMidIn)+midOut)/((1.0-pMidIn)*midOut);
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ret.z=((-pMidIn)*midOut+pMidIn)/(midOut*(-pMidIn)+midOut);
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ret.w=contrast+saturation;
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return ret;}
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//_____________________________/\_______________________________
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//==============================================================
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// MASK
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//--------------------------------------------------------------
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// Letting LCD/OLED pixel elements function like CRT phosphors
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// So "phosphor" resolution scales with display resolution
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//--------------------------------------------------------------
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// Not applying any warp to the mask (want high frequency)
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// Real aperture grille has a mask which gets wider on ends
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// Not attempting to be "real" but instead look the best
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//--------------------------------------------------------------
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// Shadow mask is stretched horizontally
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// RRGGBB
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// GBBRRG
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// RRGGBB
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// This tends to look better on LCDs than vertical
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// Also 2 pixel width is required to get triad centered
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//--------------------------------------------------------------
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// The LITE version of the Aperture Grille is brighter
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// Uses {dark,1.0,1.0} for R channel
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// Non LITE version uses {1.0,dark,dark}
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//--------------------------------------------------------------
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// 'pos' - This is 'fragCoord.xy'
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// Pixel {0,0} should be {0.5,0.5}
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// Pixel {1,1} should be {1.5,1.5}
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//--------------------------------------------------------------
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// 'dark' - Exposure of of masked channel
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// 0.0=fully off, 1.0=no effect
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//==============================================================
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CrtsF3 CrtsMask(CrtsF2 pos,CrtsF1 dark){
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if(params.MASK == 2.0){
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CrtsF3 m=CrtsF3(dark,dark,dark);
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CrtsF1 x=CrtsFractF1(pos.x*(1.0/3.0));
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if(x<(1.0/3.0))m.r=1.0;
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else if(x<(2.0/3.0))m.g=1.0;
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else m.b=1.0;
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return m;
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}
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//--------------------------------------------------------------
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else if(params.MASK == 1.0){
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CrtsF3 m=CrtsF3(1.0,1.0,1.0);
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CrtsF1 x=CrtsFractF1(pos.x*(1.0/3.0));
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if(x<(1.0/3.0))m.r=dark;
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else if(x<(2.0/3.0))m.g=dark;
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else m.b=dark;
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return m;
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}
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//--------------------------------------------------------------
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else if(params.MASK == 3.0){
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pos.x+=pos.y*2.9999;
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CrtsF3 m=CrtsF3(dark,dark,dark);
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CrtsF1 x=CrtsFractF1(pos.x*(1.0/6.0));
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if(x<(1.0/3.0))m.r=1.0;
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else if(x<(2.0/3.0))m.g=1.0;
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else m.b=1.0;
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return m;
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}
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//--------------------------------------------------------------
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else{
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return CrtsF3(1.0,1.0,1.0);
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}
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}
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//_____________________________/\_______________________________
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//==============================================================
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// FILTER ENTRY
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//--------------------------------------------------------------
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// Input must be linear
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// Output color is linear
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//--------------------------------------------------------------
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// Must have fetch function setup: CrtsF3 CrtsFetch(CrtsF2 uv)
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// - The 'uv' range is {0.0 to 1.0} for input texture
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// - Output of this must be linear color
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//--------------------------------------------------------------
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// SCANLINE MATH & AUTO-EXPOSURE NOTES
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// ===================================
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// Each output line has contribution from at most 2 scanlines
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// Scanlines are shaped by a windowed cosine function
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// This shape blends together well with only 2 lines of overlap
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//--------------------------------------------------------------
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// Base scanline intensity is as follows
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// which leaves output intensity range from {0 to 1.0}
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// --------
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// thin := range {thick 0.5 to thin 1.0}
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// off := range {0.0 to <1.0},
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// sub-pixel offset between two scanlines
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// --------
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// a0=cos(min(0.5, off *thin)*2pi)*0.5+0.5;
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// a1=cos(min(0.5,(1.0-off)*thin)*2pi)*0.5+0.5;
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//--------------------------------------------------------------
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// This leads to a image darkening factor of roughly:
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// {(1.5-thin)/1.0}
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// This is further reduced by the mask:
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// {1.0/2.0+mask*1.0/2.0}
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// Reciprocal of combined effect is used for auto-exposure
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// to scale up the mid-level in the tonemapper
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//==============================================================
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CrtsF3 CrtsFilter(
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//--------------------------------------------------------------
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// SV_POSITION, fragCoord.xy
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CrtsF2 ipos,
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//--------------------------------------------------------------
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// inputSize / outputSize (in pixels)
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CrtsF2 inputSizeDivOutputSize,
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//--------------------------------------------------------------
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// 0.5 * inputSize (in pixels)
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CrtsF2 halfInputSize,
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//--------------------------------------------------------------
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// 1.0 / inputSize (in pixels)
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CrtsF2 rcpInputSize,
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//--------------------------------------------------------------
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// 1.0 / outputSize (in pixels)
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CrtsF2 rcpOutputSize,
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//--------------------------------------------------------------
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// 2.0 / outputSize (in pixels)
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CrtsF2 twoDivOutputSize,
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//--------------------------------------------------------------
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// inputSize.y
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CrtsF1 inputHeight,
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//--------------------------------------------------------------
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// Warp scanlines but not phosphor mask
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// 0.0 = no warp
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// 1.0/64.0 = light warping
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// 1.0/32.0 = more warping
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// Want x and y warping to be different (based on aspect)
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CrtsF2 warp,
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//--------------------------------------------------------------
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// Scanline thinness
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// 0.50 = fused scanlines
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// 0.70 = recommended default
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// 1.00 = thinner scanlines (too thin)
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// Shared with CrtsTone() function
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CrtsF1 thin,
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//--------------------------------------------------------------
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// Horizonal scan blur
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// -3.0 = pixely
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// -2.5 = default
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// -2.0 = smooth
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// -1.0 = too blurry
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CrtsF1 blur,
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//--------------------------------------------------------------
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// Shadow mask effect, ranges from,
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// 0.25 = large amount of mask (not recommended, too dark)
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// 0.50 = recommended default
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// 1.00 = no shadow mask
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// Shared with CrtsTone() function
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CrtsF1 mask,
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//--------------------------------------------------------------
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// Tonal curve parameters generated by CrtsTone()
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CrtsF4 tone
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//--------------------------------------------------------------
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){
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//--------------------------------------------------------------
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#ifdef CRTS_DEBUG
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CrtsF2 uv=ipos*rcpOutputSize;
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// Show second half processed, and first half un-processed
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if(uv.x<0.5){
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// Force nearest to get squares
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uv*=1.0/rcpInputSize;
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uv=floor(uv)+CrtsF2(0.5,0.5);
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uv*=rcpInputSize;
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CrtsF3 color=CrtsFetch(uv);
|
|
return color;}
|
|
#endif
|
|
//--------------------------------------------------------------
|
|
// Optional apply warp
|
|
CrtsF2 pos;
|
|
#ifdef CRTS_WARP
|
|
// Convert to {-1 to 1} range
|
|
pos=ipos*twoDivOutputSize-CrtsF2(1.0,1.0);
|
|
// Distort pushes image outside {-1 to 1} range
|
|
pos*=CrtsF2(
|
|
1.0+(pos.y*pos.y)*warp.x,
|
|
1.0+(pos.x*pos.x)*warp.y);
|
|
// TODO: Vignette needs optimization
|
|
CrtsF1 vin=(1.0-(
|
|
(1.0-CrtsSatF1(pos.x*pos.x))*(1.0-CrtsSatF1(pos.y*pos.y)))) * (0.998 + (0.001 * params.CORNER));
|
|
vin=CrtsSatF1((-vin)*inputHeight+inputHeight);
|
|
// Leave in {0 to inputSize}
|
|
pos=pos*halfInputSize+halfInputSize;
|
|
#else
|
|
pos=ipos*inputSizeDivOutputSize;
|
|
#endif
|
|
//--------------------------------------------------------------
|
|
// Snap to center of first scanline
|
|
CrtsF1 y0=floor(pos.y-0.5)+0.5;
|
|
#ifdef CRTS_2_TAP
|
|
// Using Inigo's "Improved Texture Interpolation"
|
|
// http://iquilezles.org/www/articles/texture/texture.htm
|
|
pos.x+=0.5;
|
|
CrtsF1 xi=floor(pos.x);
|
|
CrtsF1 xf=pos.x-xi;
|
|
xf=xf*xf*xf*(xf*(xf*6.0-15.0)+10.0);
|
|
CrtsF1 x0=xi+xf-0.5;
|
|
CrtsF2 p=CrtsF2(x0*rcpInputSize.x,y0*rcpInputSize.y);
|
|
// Coordinate adjusted bilinear fetch from 2 nearest scanlines
|
|
CrtsF3 colA=CrtsFetch(p);
|
|
p.y+=rcpInputSize.y;
|
|
CrtsF3 colB=CrtsFetch(p);
|
|
#else
|
|
// Snap to center of one of four pixels
|
|
CrtsF1 x0=floor(pos.x-1.5)+0.5;
|
|
// Inital UV position
|
|
CrtsF2 p=CrtsF2(x0*rcpInputSize.x,y0*rcpInputSize.y);
|
|
// Fetch 4 nearest texels from 2 nearest scanlines
|
|
CrtsF3 colA0=CrtsFetch(p);
|
|
p.x+=rcpInputSize.x;
|
|
CrtsF3 colA1=CrtsFetch(p);
|
|
p.x+=rcpInputSize.x;
|
|
CrtsF3 colA2=CrtsFetch(p);
|
|
p.x+=rcpInputSize.x;
|
|
CrtsF3 colA3=CrtsFetch(p);
|
|
p.y+=rcpInputSize.y;
|
|
CrtsF3 colB3=CrtsFetch(p);
|
|
p.x-=rcpInputSize.x;
|
|
CrtsF3 colB2=CrtsFetch(p);
|
|
p.x-=rcpInputSize.x;
|
|
CrtsF3 colB1=CrtsFetch(p);
|
|
p.x-=rcpInputSize.x;
|
|
CrtsF3 colB0=CrtsFetch(p);
|
|
#endif
|
|
//--------------------------------------------------------------
|
|
// Vertical filter
|
|
// Scanline intensity is using sine wave
|
|
// Easy filter window and integral used later in exposure
|
|
CrtsF1 off=pos.y-y0;
|
|
CrtsF1 pi2=6.28318530717958;
|
|
CrtsF1 hlf=0.5;
|
|
CrtsF1 scanA=cos(min(0.5, off *thin )*pi2)*hlf+hlf;
|
|
CrtsF1 scanB=cos(min(0.5,(-off)*thin+thin)*pi2)*hlf+hlf;
|
|
//--------------------------------------------------------------
|
|
#ifdef CRTS_2_TAP
|
|
#ifdef CRTS_WARP
|
|
// Get rid of wrong pixels on edge
|
|
scanA*=vin;
|
|
scanB*=vin;
|
|
#endif
|
|
// Apply vertical filter
|
|
CrtsF3 color=(colA*scanA)+(colB*scanB);
|
|
#else
|
|
// Horizontal kernel is simple gaussian filter
|
|
CrtsF1 off0=pos.x-x0;
|
|
CrtsF1 off1=off0-1.0;
|
|
CrtsF1 off2=off0-2.0;
|
|
CrtsF1 off3=off0-3.0;
|
|
CrtsF1 pix0=exp2(blur*off0*off0);
|
|
CrtsF1 pix1=exp2(blur*off1*off1);
|
|
CrtsF1 pix2=exp2(blur*off2*off2);
|
|
CrtsF1 pix3=exp2(blur*off3*off3);
|
|
CrtsF1 pixT=CrtsRcpF1(pix0+pix1+pix2+pix3);
|
|
#ifdef CRTS_WARP
|
|
// Get rid of wrong pixels on edge
|
|
pixT*=vin;
|
|
#endif
|
|
scanA*=pixT;
|
|
scanB*=pixT;
|
|
// Apply horizontal and vertical filters
|
|
CrtsF3 color=
|
|
(colA0*pix0+colA1*pix1+colA2*pix2+colA3*pix3)*scanA +
|
|
(colB0*pix0+colB1*pix1+colB2*pix2+colB3*pix3)*scanB;
|
|
#endif
|
|
//--------------------------------------------------------------
|
|
// Apply phosphor mask
|
|
color*=CrtsMask(ipos,mask);
|
|
//--------------------------------------------------------------
|
|
// Optional color processing
|
|
#ifdef CRTS_TONE
|
|
// Tonal control, start by protecting from /0
|
|
CrtsF1 peak=max(1.0/(256.0*65536.0),
|
|
CrtsMax3F1(color.r,color.g,color.b));
|
|
// Compute the ratios of {R,G,B}
|
|
CrtsF3 ratio=color*CrtsRcpF1(peak);
|
|
// Apply tonal curve to peak value
|
|
#ifdef CRTS_CONTRAST
|
|
peak=pow(peak,tone.x);
|
|
#endif
|
|
peak=peak*CrtsRcpF1(peak*tone.y+tone.z);
|
|
// Apply saturation
|
|
#ifdef CRTS_SATURATION
|
|
ratio=pow(ratio,CrtsF3(tone.w,tone.w,tone.w));
|
|
#endif
|
|
// Reconstruct color
|
|
return ratio*peak;
|
|
#else
|
|
return color;
|
|
#endif
|
|
//--------------------------------------------------------------
|
|
}
|
|
#endif
|
|
|
|
void main()
|
|
{
|
|
vec2 warp_factor;
|
|
warp_factor.x = params.CURVATURE;
|
|
warp_factor.y = (3.0 / 4.0) * warp_factor.x; // assume 4:3 aspect
|
|
warp_factor.x *= (1.0 - params.TRINITRON_CURVE);
|
|
FragColor.rgb = CrtsFilter(vTexCoord.xy * params.OutputSize.xy,
|
|
params.SourceSize.xy * params.OutputSize.zw,
|
|
params.SourceSize.xy * vec2(0.5,0.5),
|
|
params.SourceSize.zw,
|
|
params.OutputSize.zw,
|
|
2.0 * params.OutputSize.zw,
|
|
params.SourceSize.y,
|
|
warp_factor,
|
|
INPUT_THIN,
|
|
INPUT_BLUR,
|
|
INPUT_MASK,
|
|
CrtsTone(1.0,0.0,INPUT_THIN,INPUT_MASK));
|
|
|
|
// Shadertoy outputs non-linear color
|
|
FragColor.rgb = ToSrgb(FragColor.rgb);
|
|
} |