blob: 04f3aa1ca253ac3d42700ad84f2042b322967571 [file] [log] [blame]
#version 450 core
in float in1;
in vec2 in2;
in vec3 in3;
in vec4 in4;
void main()
{
vec2 v2 = dFdxFine(in2);
vec3 v3 = dFdyCoarse(in3);
vec4 v4 = fwidth(in4);
v4 = dFdyFine(in4);
v3 = dFdyFine(in3);
float f = dFdx(in1) + dFdxFine(in1) + dFdxCoarse(in1);
v4 = fwidthCoarse(in4) + fwidthFine(in4);
float cull = gl_CullDistance[2];
float consts = gl_MaxCullDistances + gl_MaxCombinedClipAndCullDistances + gl_MaxSamples;
if (gl_HelperInvocation)
++v4;
int sum = gl_MaxVertexImageUniforms +
gl_MaxFragmentImageUniforms +
gl_MaxComputeImageUniforms +
gl_MaxCombinedImageUniforms +
gl_MaxCombinedShaderOutputResources;
bool b1, b3, b;
uint uin;
bvec2 b2 = mix(bvec2(b1), bvec2(b3), bvec2(b));
uint um = mix(uin, uin, b);
ivec3 im3 = mix(ivec3(uin), ivec3(uin), bvec3(b));
}
uniform sampler2DMS s2dms;
uniform usampler2DMSArray us2dmsa;
layout(rgba32i) uniform iimage2DMS ii2dms;
layout(rgba32f) uniform image2DMSArray i2dmsa;
void foo()
{
int s = textureSamples(s2dms);
s += textureSamples(us2dmsa);
s += imageSamples(ii2dms);
s += imageSamples(i2dmsa);
float f = imageAtomicExchange(i2dmsa, ivec3(in3), 2, 4.5);
}
in float gl_CullDistance[6];
float cull(int i)
{
return (i >= 6) ? gl_CullDistance[5] : gl_CullDistance[i];
}