LookingGlass/client/renderers/EGL/shader/desktop_rgb.frag
Quantum 8559b354ae [client] egl: always render desktop texture as opaque
We ask for 32-bit colour buffer when creating the EGL context. On Wayland,
this sometimes give contexts with alpha channels, resulting in unwanted
transparency. So we clear the alpha channel in the desktop shader.

We also switch to using constant alpha for blending the splash, which
avoids more alpha issues.
2021-02-21 10:31:48 +11:00

90 lines
2.2 KiB
GLSL

#version 300 es
in highp vec2 uv;
out highp vec4 color;
uniform sampler2D sampler1;
uniform int nearest;
uniform highp vec2 size;
uniform int rotate;
uniform int nv;
uniform highp float nvGain;
uniform int cbMode;
void main()
{
highp vec2 ruv;
if (rotate == 0) // 0
{
ruv = uv;
}
else if (rotate == 1) // 90
{
ruv.x = uv.y;
ruv.y = -uv.x + 1.0f;
}
else if (rotate == 2) // 180
{
ruv.x = -uv.x + 1.0f;
ruv.y = -uv.y + 1.0f;
}
else if (rotate == 3) // 270
{
ruv.x = -uv.y + 1.0f;
ruv.y = uv.x;
}
if(nearest == 1)
color = texture(sampler1, ruv);
else
color = texelFetch(sampler1, ivec2(ruv * size), 0);
if (cbMode > 0)
{
highp float L = (17.8824000 * color.r) + (43.516100 * color.g) + (4.11935 * color.b);
highp float M = (03.4556500 * color.r) + (27.155400 * color.g) + (3.86714 * color.b);
highp float S = (00.0299566 * color.r) + (00.184309 * color.g) + (1.46709 * color.b);
highp float l, m, s;
if (cbMode == 1) // Protanope
{
l = 0.0f * L + 2.02344f * M + -2.52581f * S;
m = 0.0f * L + 1.0f * M + 0.0f * S;
s = 0.0f * L + 0.0f * M + 1.0f * S;
}
else if (cbMode == 2) // Deuteranope
{
l = 1.000000 * L + 0.0f * M + 0.00000 * S;
m = 0.494207 * L + 0.0f * M + 1.24827 * S;
s = 0.000000 * L + 0.0f * M + 1.00000 * S;
}
else if (cbMode == 3) // Tritanope
{
l = 1.000000 * L + 0.000000 * M + 0.0 * S;
m = 0.000000 * L + 1.000000 * M + 0.0 * S;
s = -0.395913 * L + 0.801109 * M + 0.0 * S;
}
highp vec4 error;
error.r = ( 0.080944447900 * l) + (-0.13050440900 * m) + ( 0.116721066 * s);
error.g = (-0.010248533500 * l) + ( 0.05401932660 * m) + (-0.113614708 * s);
error.b = (-0.000365296938 * l) + (-0.00412161469 * m) + ( 0.693511405 * s);
error.a = 0.0;
error = color - error;
color.g += (error.r * 0.7) + (error.g * 1.0);
color.b += (error.r * 0.7) + (error.b * 1.0);
}
if (nv == 1)
{
highp float lumi = 1.0 - (0.2126 * color.r + 0.7152 * color.g + 0.0722 * color.b);
color *= 1.0 + lumi;
color *= nvGain;
}
color.a = 1.0;
}