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Corrects shader generation for S-Video input to S-Video output.

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This commit is contained in:
Thomas Harte 2018-11-24 21:40:34 -05:00
parent 4fa6bc0ad1
commit 6a62cf9146
1 changed files with 25 additions and 22 deletions
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47
Outputs/OpenGL/ScanTargetGLSLFragments.cpp
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@ -264,8 +264,8 @@ std::unique_ptr<Shader> ScanTarget::input_shader(InputDataType input_data_type,
"vec2 yc = texture(textureName, textureCoordinate).rg / vec2(255.0);"
"float phaseOffset = 3.141592654 * 2.0 * 2.0 * yc.y;"
"float chroma = step(yc.y, 0.75) * cos(compositeAngle + phaseOffset);"
"fragColour = vec3(yc.x, 0.5 + chroma*0.5, 0.0);";
"float rawChroma = step(yc.y, 0.75) * cos(compositeAngle + phaseOffset);"
"fragColour = vec3(yc.x, 0.5 + rawChroma*0.5, 0.0);";
break;
case InputDataType::Red1Green1Blue1:
@ -299,29 +299,32 @@ std::unique_ptr<Shader> ScanTarget::input_shader(InputDataType input_data_type,
break;
}
if(computed_display_type != display_type) {
// If the input type is RGB but the output type isn't then
// there'll definitely be an RGB to SVideo step.
if(computed_display_type == DisplayType::RGB) {
fragment_shader +=
"vec3 composite_colour = rgbToLumaChroma * fragColour;"
"vec2 quadrature = vec2(cos(compositeAngle), sin(compositeAngle));"
"fragColour = vec3(composite_colour.r, 0.5 + dot(quadrature, composite_colour.gb)*0.5, 0.0);";
}
// If the input type is RGB but the output type isn't then
// there'll definitely be an RGB to SVideo step.
if(computed_display_type == DisplayType::RGB && display_type != DisplayType::RGB) {
fragment_shader +=
"vec3 composite_colour = rgbToLumaChroma * fragColour;"
"vec2 quadrature = vec2(cos(compositeAngle), sin(compositeAngle));"
"fragColour = vec3(composite_colour.r, 0.5 + dot(quadrature, composite_colour.gb)*0.5, 0.0);";
}
// If the output type is SVideo, throw in an attempt to separate the two chrominance
// channels here; otherwise add an SVideo to composite step.
if(display_type == DisplayType::SVideo) {
if(computed_display_type != DisplayType::RGB) {
fragment_shader +=
"vec2 quadrature = vec2(cos(compositeAngle), sin(compositeAngle));";
}
// If the output type is SVideo, throw in an attempt to separate the two chrominance
// channels here; otherwise add an SVideo to composite step.
if(display_type == DisplayType::SVideo) {
if(computed_display_type != DisplayType::RGB) {
fragment_shader +=
"vec2 chroma = (((fragColour.y - 0.5)*2.0) * quadrature)*0.5 + vec2(0.5);"
"fragColour = vec3(fragColour.x, chroma);";
} else {
fragment_shader += "fragColour = vec3(fragColour.r, 2.0*(fragColour.g - 0.5) * quadrature);";
"vec2 quadrature = vec2(cos(compositeAngle), sin(compositeAngle));";
}
fragment_shader +=
"vec2 chroma = (((fragColour.y - 0.5)*2.0) * quadrature)*0.5 + vec2(0.5);"
"fragColour = vec3(fragColour.x, chroma);";
}
if(
(display_type == DisplayType::CompositeMonochrome || display_type == DisplayType::CompositeColour) &&
computed_display_type != DisplayType::CompositeMonochrome
) {
fragment_shader += "fragColour = vec3(fragColour.r, 2.0*(fragColour.g - 0.5) * quadrature);";
}
return std::unique_ptr<Shader>(new Shader(