489db6538e
This PR is to fix the following issues: * the SPIR-V Backend didn't generate Alignment decoration for alloca instructions, * we need to use types from demangled function declarations to specify types for opaque pointers.
54 lines
3.3 KiB
LLVM
54 lines
3.3 KiB
LLVM
; RUN: llc -O0 -mtriple=spirv64-unknown-unknown %s -o - | FileCheck %s
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; RUN: %if spirv-tools %{ llc -O0 -mtriple=spirv64-unknown-unknown %s -o - -filetype=obj | spirv-val %}
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; CHECK-DAG: %[[#IMPORT:]] = OpExtInstImport "OpenCL.std"
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; CHECK-DAG: OpName %[[#CALL1:]] "call1"
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; CHECK-DAG: OpName %[[#CALL2:]] "call2"
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; CHECK-DAG: OpName %[[#CALL3:]] "call3"
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; CHECK-DAG: OpName %[[#CALL4:]] "call4"
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; CHECK-DAG: OpName %[[#CALL5:]] "call5"
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; CHECK-DAG: %[[#INT8:]] = OpTypeInt 8 0
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; CHECK-DAG: %[[#INT16:]] = OpTypeInt 16 0
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; CHECK-DAG: %[[#INT32:]] = OpTypeInt 32 0
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; CHECK-DAG: %[[#INT64:]] = OpTypeInt 64 0
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; CHECK-DAG: %[[#FLOAT:]] = OpTypeFloat 32
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; CHECK-DAG: %[[#VINT8:]] = OpTypeVector %[[#INT8]] 2
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; CHECK-DAG: %[[#VINT16:]] = OpTypeVector %[[#INT16]] 2
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; CHECK-DAG: %[[#VINT32:]] = OpTypeVector %[[#INT32]] 2
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; CHECK-DAG: %[[#VINT64:]] = OpTypeVector %[[#INT64]] 2
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; CHECK-DAG: %[[#VFLOAT:]] = OpTypeVector %[[#FLOAT]] 2
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; CHECK-DAG: %[[#PTRINT8:]] = OpTypePointer CrossWorkgroup %[[#INT8]]
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; CHECK-DAG: %[[#PTRINT16:]] = OpTypePointer CrossWorkgroup %[[#INT16]]
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; CHECK-DAG: %[[#PTRINT32:]] = OpTypePointer CrossWorkgroup %[[#INT32]]
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; CHECK-DAG: %[[#PTRINT64:]] = OpTypePointer CrossWorkgroup %[[#INT64]]
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; CHECK-DAG: %[[#PTRFLOAT:]] = OpTypePointer CrossWorkgroup %[[#FLOAT]]
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; CHECK: %[[#OFFSET:]] = OpFunctionParameter %[[#INT64]]
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define spir_kernel void @test_fn(i64 %offset, ptr addrspace(1) %address) {
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; CHECK-DAG: %[[#CASTorPARAMofPTRI8:]] = {{OpBitcast|OpFunctionParameter}}{{.*}}%[[#PTRINT8]]{{.*}}
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; CHECK-DAG: %[[#CALL1]] = OpExtInst %[[#VINT8]] %[[#IMPORT]] vloadn %[[#OFFSET]] %[[#CASTorPARAMofPTRI8]] 2
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%call1 = call spir_func <2 x i8> @_Z6vload2mPU3AS1Kc(i64 %offset, ptr addrspace(1) %address)
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; CHECK-DAG: %[[#CASTorPARAMofPTRI16:]] = {{OpBitcast|OpFunctionParameter}}{{.*}}%[[#PTRINT16]]{{.*}}
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; CHECK-DAG: %[[#CALL2]] = OpExtInst %[[#VINT16]] %[[#IMPORT]] vloadn %[[#OFFSET]] %[[#CASTorPARAMofPTRI16]] 2
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%call2 = call spir_func <2 x i16> @_Z6vload2mPU3AS1Ks(i64 %offset, ptr addrspace(1) %address)
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; CHECK-DAG: %[[#CASTorPARAMofPTRI32:]] = {{OpBitcast|OpFunctionParameter}}{{.*}}%[[#PTRINT32]]{{.*}}
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; CHECK-DAG: %[[#CALL3]] = OpExtInst %[[#VINT32]] %[[#IMPORT]] vloadn %[[#OFFSET]] %[[#CASTorPARAMofPTRI32]] 2
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%call3 = call spir_func <2 x i32> @_Z6vload2mPU3AS1Ki(i64 %offset, ptr addrspace(1) %address)
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; CHECK-DAG: %[[#CASTorPARAMofPTRI64:]] = {{OpBitcast|OpFunctionParameter}}{{.*}}%[[#PTRINT64]]{{.*}}
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; CHECK-DAG: %[[#CALL4]] = OpExtInst %[[#VINT64]] %[[#IMPORT]] vloadn %[[#OFFSET]] %[[#CASTorPARAMofPTRI64]] 2
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%call4 = call spir_func <2 x i64> @_Z6vload2mPU3AS1Kl(i64 %offset, ptr addrspace(1) %address)
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; CHECK-DAG: %[[#CASTorPARAMofPTRFLOAT:]] = {{OpBitcast|OpFunctionParameter}}{{.*}}%[[#PTRFLOAT]]{{.*}}
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; CHECK-DAG: %[[#CALL5]] = OpExtInst %[[#VFLOAT]] %[[#IMPORT]] vloadn %[[#OFFSET]] %[[#CASTorPARAMofPTRFLOAT]] 2
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%call5 = call spir_func <2 x float> @_Z6vload2mPU3AS1Kf(i64 %offset, ptr addrspace(1) %address)
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ret void
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}
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declare spir_func <2 x i8> @_Z6vload2mPU3AS1Kc(i64, ptr addrspace(1))
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declare spir_func <2 x i16> @_Z6vload2mPU3AS1Ks(i64, ptr addrspace(1))
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declare spir_func <2 x i32> @_Z6vload2mPU3AS1Ki(i64, ptr addrspace(1))
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declare spir_func <2 x i64> @_Z6vload2mPU3AS1Kl(i64, ptr addrspace(1))
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declare spir_func <2 x float> @_Z6vload2mPU3AS1Kf(i64, ptr addrspace(1))
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