#version 450 #extension GL_KHR_memory_scope_semantics : require #extension GL_ARB_gpu_shader_int64 : require #pragma use_vulkan_memory_model shared uint value; shared int atomi; shared uint atomu; layout(binding = 0, r32ui) workgroupcoherent uniform uimage2D imageu; layout(binding = 1, r32i) volatile coherent uniform iimage2D imagei; layout(binding = 5, r32i) nonprivate uniform iimage2D imagej[2]; layout (binding = 2) buffer BufferU { workgroupcoherent uint x; } bufferu; layout (binding = 3) coherent buffer BufferI { uint x; } bufferi; struct A { uint x[2]; }; layout (binding = 4) volatile buffer BufferJ { subgroupcoherent A a; } bufferj[2]; layout (binding = 6) nonprivate uniform sampler2D samp[2]; layout (binding = 7) nonprivate uniform BufferK { uint x; } bufferk; shared uint64_t atomu64; shared int64_t atomi64; void main() { int origi = atomicAdd(atomi, 3, gl_ScopeDevice, gl_StorageSemanticsBuffer | gl_StorageSemanticsShared, gl_SemanticsRelease); uint origu = atomicAnd(atomu, value); origi = atomicLoad(atomi, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsAcquire); atomicStore(atomu, value, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelease); origi = imageAtomicLoad(imagei, ivec2(0,0), gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsAcquire); origu = imageAtomicAdd(imageu, ivec2(0,0), 3u, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsAcquire); imageAtomicStore(imageu, ivec2(0,0), 4u, gl_ScopeDevice, gl_StorageSemanticsBuffer, gl_SemanticsRelease); origu = atomicOr(atomu, 7u, gl_ScopeDevice, 0, 0); origu = atomicXor(atomu, 7u, gl_ScopeDevice, 0, 0); origu = atomicMin(atomu, value, gl_ScopeDevice, 0, 0); origi = atomicMax(atomi, 7, gl_ScopeDevice, 0, 0); origi = atomicExchange(atomi, origi, gl_ScopeDevice, 0, 0); origu = atomicCompSwap(atomu, 10u, value, gl_ScopeDevice, gl_StorageSemanticsBuffer | gl_StorageSemanticsShared, gl_SemanticsAcquire, gl_StorageSemanticsBuffer | gl_StorageSemanticsShared, gl_SemanticsAcquire); atomicAdd(bufferu.x, 1, gl_ScopeDevice, gl_StorageSemanticsBuffer | gl_StorageSemanticsShared, gl_SemanticsRelease); memoryBarrier(gl_ScopeWorkgroup, gl_StorageSemanticsBuffer | gl_StorageSemanticsShared, gl_SemanticsRelease); controlBarrier(gl_ScopeWorkgroup, gl_ScopeWorkgroup, gl_StorageSemanticsBuffer | gl_StorageSemanticsShared, gl_SemanticsAcquire); controlBarrier(gl_ScopeWorkgroup, gl_ScopeWorkgroup, 0, 0); uint y; y = bufferu.x; bufferu.x = y; y = bufferi.x; y = bufferj[0].a.x[1]; bufferi.x = y; bufferj[0].a.x[1] = y; bufferj[0].a = bufferj[1].a; bufferi.x = bufferk.x; imageLoad(imagei, ivec2(0,0)); imageLoad(imagej[0], ivec2(0,0)); imageStore(imagej[1], ivec2(0,0), ivec4(0,0,0,0)); texture(samp[0], vec2(0,0)); atomu64 = atomicMax(atomu64, uint64_t(7), gl_ScopeDevice, 0, 0); atomicCompSwap(atomi64, int64_t(10), int64_t(atomu64), gl_ScopeDevice, gl_StorageSemanticsBuffer | gl_StorageSemanticsShared, gl_SemanticsAcquire, gl_StorageSemanticsBuffer | gl_StorageSemanticsShared, gl_SemanticsAcquire); }