mirror of
https://github.com/KhronosGroup/glslang
synced 2024-11-13 21:50:06 +00:00
180 lines
8.0 KiB
Plaintext
180 lines
8.0 KiB
Plaintext
#version 450 core
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#extension GL_KHR_memory_scope_semantics : enable
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#extension GL_EXT_shader_explicit_arithmetic_types_float16 : enable
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#extension GL_EXT_shader_atomic_float2: enable
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#pragma use_vulkan_memory_model
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layout(local_size_x = 16, local_size_y = 16) in;
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layout(binding = 0) buffer Buffer
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{
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float16_t datah;
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float dataf;
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double datad;
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} buf;
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shared float16_t atomh;
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shared float atomf;
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shared double atomd;
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layout(binding = 0, r32f) volatile coherent uniform image1D fimage1D;
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layout(binding = 1, r32f) volatile coherent uniform image1DArray fimage1DArray;
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layout(binding = 2, r32f) volatile coherent uniform image2D fimage2D;
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layout(binding = 3, r32f) volatile coherent uniform image2DArray fimage2DArray;
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layout(binding = 4, r32f) volatile coherent uniform image2DRect fimage2DRect;
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layout(binding = 5, r32f) volatile coherent uniform imageCube fimageCube;
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layout(binding = 6, r32f) volatile coherent uniform imageCubeArray fimageCubeArray;
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layout(binding = 9, r32f) volatile coherent uniform image3D fimage3D;
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void main()
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{
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//atomicAdd
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float16_t resulth = float16_t(0.0);
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resulth = atomicAdd(atomh, float16_t(3.0));
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resulth = atomicAdd(atomh, float16_t(4.5), gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resulth = atomicAdd(buf.datah, float16_t(3.0));
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resulth = atomicAdd(buf.datah, float16_t(4.5), gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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//atomicMin
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resulth = atomicMin(atomh, float16_t(3.0));
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resulth = atomicMin(atomh, float16_t(4.5), gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resulth = atomicMin(buf.datah, float16_t(3.0));
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resulth = atomicMin(buf.datah, float16_t(4.5), gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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float resultf = 0.0;
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resultf = atomicMin(atomf, 3.0);
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resultf = atomicMin(atomf, 4.5, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resultf = atomicMin(buf.dataf, 3.0);
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resultf = atomicMin(buf.dataf, 4.5, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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double resultd = 0.0;
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resultd = atomicMin(atomd, 3.0);
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resultd = atomicMin(atomd, 4.5, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resultd = atomicMin(buf.datad, 3.0);
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resultd = atomicMin(buf.datad, 4.5, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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//atomicMax
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resulth = atomicMax(atomh, float16_t(3.0));
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resulth = atomicMax(atomh, float16_t(4.5), gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resulth = atomicMax(buf.datah, float16_t(3.0));
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resulth = atomicMax(buf.datah, float16_t(4.5), gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resultf = atomicMax(atomf, 3.0);
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resultf = atomicMax(atomf, 4.5, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resultf = atomicMax(buf.dataf, 3.0);
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resultf = atomicMax(buf.dataf, 4.5, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resultd = atomicMax(atomd, 3.0);
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resultd = atomicMax(atomd, 4.5, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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resultd = atomicMax(buf.datad, 3.0);
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resultd = atomicMax(buf.datad, 4.5, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelaxed);
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//atomicExchange
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resulth = atomicExchange(buf.datah, resulth);
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buf.datah += resulth;
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resulth = atomicExchange(buf.datah, resulth, gl_ScopeDevice, gl_StorageSemanticsShared, gl_SemanticsRelaxed);
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buf.datah += resulth;
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resulth = atomicExchange(atomh, resulth);
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buf.datah += resulth;
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resulth = atomicExchange(atomh, resulth, gl_ScopeDevice, gl_StorageSemanticsShared, gl_SemanticsRelaxed);
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buf.datah += resulth;
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//atomic load/store
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resulth = atomicLoad(buf.datah, gl_ScopeDevice, gl_StorageSemanticsShared, gl_SemanticsRelaxed);
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atomicStore(buf.datah, resulth, gl_ScopeDevice, gl_StorageSemanticsShared, gl_SemanticsRelaxed);
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buf.datah += resulth;
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resulth = atomicLoad(atomh, gl_ScopeDevice, gl_StorageSemanticsShared, gl_SemanticsRelaxed);
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atomicStore(atomh, resulth, gl_ScopeDevice, gl_StorageSemanticsShared, gl_SemanticsRelaxed);
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buf.datah += resulth;
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// image atomics on 1D:
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atomf = imageAtomicMin(fimage1D, int(0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMin(fimage1D, int(1), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage1D, int(0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage1D, int(1), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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// image atomics on 1D Array:
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atomf = imageAtomicMin(fimage1DArray, ivec2(0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMin(fimage1DArray, ivec2(1,1), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage1DArray, ivec2(0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage1DArray, ivec2(1,1), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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// image atomics on 2D:
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atomf = imageAtomicMin(fimage2D, ivec2(0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMin(fimage2D, ivec2(1,1), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage2D, ivec2(0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage2D, ivec2(1,1), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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// image atomics on 2D Rect:
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atomf = imageAtomicMin(fimage2DRect, ivec2(0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMin(fimage2DRect, ivec2(1,1), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage2DRect, ivec2(0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage2DRect, ivec2(1,1), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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// image atomics on 2D Array:
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atomf = imageAtomicMin(fimage2DArray, ivec3(0,0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMin(fimage2DArray, ivec3(1,1,0), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage2DArray, ivec3(0,0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage2DArray, ivec3(1,1,0), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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// image atomics on Cube:
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atomf = imageAtomicMin(fimageCube, ivec3(0,0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMin(fimageCube, ivec3(1,1,0), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimageCube, ivec3(0,0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimageCube, ivec3(1,1,0), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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// image atomics on Cube Array:
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atomf = imageAtomicMin(fimageCubeArray, ivec3(0,0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMin(fimageCubeArray, ivec3(1,1,0), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimageCubeArray, ivec3(0,0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimageCubeArray, ivec3(1,1,0), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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// image atomics on 3D:
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atomf = imageAtomicMin(fimage3D, ivec3(0,0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMin(fimage3D, ivec3(1,1,0), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage3D, ivec3(0,0,0), 2.0);
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buf.dataf += atomf;
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atomf = imageAtomicMax(fimage3D, ivec3(1,1,0), 3.0, gl_ScopeDevice, gl_StorageSemanticsImage , gl_SemanticsRelaxed);
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buf.dataf += atomf;
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}
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