glslang/Test/spv.image.frag
John Kessenich 6373574b13 Front-end: Fix: Cubemap arrays only use 3-component coord when accessed as an image.
4 components are needed when used a texture, but not an image, which multiplies
layers and faces into the same coordinate.  This fixes it from using 4 everywhere,
to only using 4 for textures and 3 for images.
2015-10-01 12:40:48 -06:00

90 lines
3.1 KiB
GLSL

#version 450
layout(rgba32f, binding = 0) uniform image1D i1D;
layout(rgba32f, binding = 1) uniform image2D i2D;
layout(rgba32f, binding = 2) uniform image3D i3D;
layout(rgba32f, binding = 3) uniform imageCube iCube;
layout(rgba32f, binding = 4) uniform imageCubeArray iCubeArray;
layout(rgba32f, binding = 5) uniform image2DRect i2DRect;
layout(rgba32f, binding = 6) uniform image1DArray i1DArray;
layout(rgba32f, binding = 7) uniform image2DArray i2DArray;
layout(rgba32f, binding = 8) uniform imageBuffer iBuffer;
layout(rgba32f, binding = 9) uniform image2DMS i2DMS;
layout(rgba32f, binding = 10) uniform image2DMSArray i2DMSArray;
layout(r32i, binding = 11) uniform iimage1D ii1D;
layout(r32ui, binding = 12) uniform uimage2D ui2D;
uniform int ic1D;
uniform ivec2 ic2D;
uniform ivec3 ic3D;
uniform ivec4 ic4D;
uniform uint value;
out vec4 fragData;
void main()
{
ivec3 iv = ivec3(0);
iv.x += imageSize(i1D);
iv.xy += imageSize(i2D);
iv.xyz += imageSize(i3D);
iv.xy += imageSize(iCube);
iv.xyz += imageSize(iCubeArray);
iv.xy += imageSize(i2DRect);
iv.xy += imageSize(i1DArray);
iv.xyz += imageSize(i2DArray);
iv.x += imageSize(iBuffer);
iv.xy += imageSize(i2DMS);
iv.xyz += imageSize(i2DMSArray);
iv.x += imageSamples(i2DMS);
iv.x += imageSamples(i2DMSArray);
vec4 v = vec4(0.0);
v += imageLoad(i1D, ic1D);
imageStore(i1D, ic1D, v);
v += imageLoad(i2D, ic2D);
imageStore(i2D, ic2D, v);
v += imageLoad(i3D, ic3D);
imageStore(i3D, ic3D, v);
v += imageLoad(iCube, ic3D);
imageStore(iCube, ic3D, v);
v += imageLoad(iCubeArray, ic3D);
imageStore(iCubeArray, ic3D, v);
v += imageLoad(i2DRect, ic2D);
imageStore(i2DRect, ic2D, v);
v += imageLoad(i1DArray, ic2D);
imageStore(i1DArray, ic2D, v);
v += imageLoad(i2DArray, ic3D);
imageStore(i2DArray, ic3D, v);
v += imageLoad(iBuffer, ic1D);
imageStore(iBuffer, ic1D, v);
v += imageLoad(i2DMS, ic2D, 1);
imageStore(i2DMS, ic2D, 2, v);
v += imageLoad(i2DMSArray, ic3D, 3);
imageStore(i2DMSArray, ic3D, 4, v);
uint ui = 0;
iv.x += imageAtomicAdd(ii1D, ic1D, 10);
ui += imageAtomicAdd(ui2D, ic2D, value);
iv.x += imageAtomicMin(ii1D, ic1D, 11);
ui += imageAtomicMin(ui2D, ic2D, value);
iv.x += imageAtomicMax(ii1D, ic1D, 12);
ui += imageAtomicMax(ui2D, ic2D, value);
iv.x += imageAtomicAnd(ii1D, ic1D, 13);
ui += imageAtomicAnd(ui2D, ic2D, value);
iv.x += imageAtomicOr(ii1D, ic1D, 14);
ui += imageAtomicOr(ui2D, ic2D, value);
iv.x += imageAtomicXor(ii1D, ic1D, 15);
ui += imageAtomicXor(ui2D, ic2D, value);
iv.x += imageAtomicExchange(ii1D, ic1D, 16);
ui += imageAtomicExchange(ui2D, ic2D, value);
iv.x += imageAtomicCompSwap(ii1D, ic1D, 18, 17);
ui += imageAtomicCompSwap(ui2D, ic2D, 19u, value);
fragData = ui != iv.y ? v : vec4(0.0);
}