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llvm / llvm / 5feb56f4ba4f8855214ba3b996096901c056ea65 / . / test / CodeGen / AMDGPU / GlobalISel / irtranslator-amdgpu_kernel.ll
blob: 5756ff52b83866058666f77fb3bcf99068302be3 [file] [log] [blame]
; NOTE: Assertions have been autogenerated by utils/update_mir_test_checks.py
; REQUIRES: global-isel
; RUN: llc -mtriple=amdgcn-amd-amdhsa -mcpu=fiji -O0 -amdgpu-ir-lower-kernel-arguments=0 -stop-after=irtranslator -global-isel %s -o - | FileCheck -check-prefix=HSA-VI %s
define amdgpu_kernel void @i8_arg(i32 addrspace(1)* nocapture %out, i8 %in) nounwind {
; HSA-VI-LABEL: name: i8_arg
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s8) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i8 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[ZEXT:%[0-9]+]]:_(s32) = G_ZEXT [[LOAD1]](s8)
; HSA-VI: G_STORE [[ZEXT]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = zext i8 %in to i32
store i32 %ext, i32 addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @i8_zext_arg(i32 addrspace(1)* nocapture %out, i8 zeroext %in) nounwind {
; HSA-VI-LABEL: name: i8_zext_arg
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s8) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i8 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[ZEXT:%[0-9]+]]:_(s32) = G_ZEXT [[LOAD1]](s8)
; HSA-VI: G_STORE [[ZEXT]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = zext i8 %in to i32
store i32 %ext, i32 addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @i8_sext_arg(i32 addrspace(1)* nocapture %out, i8 signext %in) nounwind {
; HSA-VI-LABEL: name: i8_sext_arg
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s8) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i8 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[SEXT:%[0-9]+]]:_(s32) = G_SEXT [[LOAD1]](s8)
; HSA-VI: G_STORE [[SEXT]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = sext i8 %in to i32
store i32 %ext, i32 addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @i16_arg(i32 addrspace(1)* nocapture %out, i16 %in) nounwind {
; HSA-VI-LABEL: name: i16_arg
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s16) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 2 from `i16 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[ZEXT:%[0-9]+]]:_(s32) = G_ZEXT [[LOAD1]](s16)
; HSA-VI: G_STORE [[ZEXT]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = zext i16 %in to i32
store i32 %ext, i32 addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @i16_zext_arg(i32 addrspace(1)* nocapture %out, i16 zeroext %in) nounwind {
; HSA-VI-LABEL: name: i16_zext_arg
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s16) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 2 from `i16 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[ZEXT:%[0-9]+]]:_(s32) = G_ZEXT [[LOAD1]](s16)
; HSA-VI: G_STORE [[ZEXT]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = zext i16 %in to i32
store i32 %ext, i32 addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @i16_sext_arg(i32 addrspace(1)* nocapture %out, i16 signext %in) nounwind {
; HSA-VI-LABEL: name: i16_sext_arg
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s16) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 2 from `i16 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[SEXT:%[0-9]+]]:_(s32) = G_SEXT [[LOAD1]](s16)
; HSA-VI: G_STORE [[SEXT]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = sext i16 %in to i32
store i32 %ext, i32 addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @i32_arg(i32 addrspace(1)* nocapture %out, i32 %in) nounwind {
; HSA-VI-LABEL: name: i32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s32) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 4 from `i32 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store i32 %in, i32 addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @f32_arg(float addrspace(1)* nocapture %out, float %in) nounwind {
; HSA-VI-LABEL: name: f32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `float addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s32) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 4 from `float addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store float %in, float addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v2i8_arg(<2 x i8> addrspace(1)* %out, <2 x i8> %in) {
; HSA-VI-LABEL: name: v2i8_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<2 x i8> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<2 x s8>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 2 from `<2 x i8> addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<2 x s8>), [[LOAD]](p1) :: (store 2 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <2 x i8> %in, <2 x i8> addrspace(1)* %out
ret void
}
define amdgpu_kernel void @v2i16_arg(<2 x i16> addrspace(1)* %out, <2 x i16> %in) {
; HSA-VI-LABEL: name: v2i16_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<2 x i16> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<2 x s16>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 4 from `<2 x i16> addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<2 x s16>), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <2 x i16> %in, <2 x i16> addrspace(1)* %out
ret void
}
define amdgpu_kernel void @v2i32_arg(<2 x i32> addrspace(1)* nocapture %out, <2 x i32> %in) nounwind {
; HSA-VI-LABEL: name: v2i32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<2 x i32> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<2 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 8 from `<2 x i32> addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<2 x s32>), [[LOAD]](p1) :: (store 8 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <2 x i32> %in, <2 x i32> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v2f32_arg(<2 x float> addrspace(1)* nocapture %out, <2 x float> %in) nounwind {
; HSA-VI-LABEL: name: v2f32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<2 x float> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<2 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 8 from `<2 x float> addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<2 x s32>), [[LOAD]](p1) :: (store 8 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <2 x float> %in, <2 x float> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v3i8_arg(<3 x i8> addrspace(1)* nocapture %out, <3 x i8> %in) nounwind {
; HSA-VI-LABEL: name: v3i8_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<3 x i8> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<3 x s8>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 3 from `<3 x i8> addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<3 x s8>), [[LOAD]](p1) :: (store 3 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <3 x i8> %in, <3 x i8> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v3i16_arg(<3 x i16> addrspace(1)* nocapture %out, <3 x i16> %in) nounwind {
; HSA-VI-LABEL: name: v3i16_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<3 x i16> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<3 x s16>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 6 from `<3 x i16> addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<3 x s16>), [[LOAD]](p1) :: (store 6 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <3 x i16> %in, <3 x i16> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v3i32_arg(<3 x i32> addrspace(1)* nocapture %out, <3 x i32> %in) nounwind {
; HSA-VI-LABEL: name: v3i32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<3 x i32> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 16
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<3 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 12 from `<3 x i32> addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<3 x s32>), [[LOAD]](p1) :: (store 12 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <3 x i32> %in, <3 x i32> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v3f32_arg(<3 x float> addrspace(1)* nocapture %out, <3 x float> %in) nounwind {
; HSA-VI-LABEL: name: v3f32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<3 x float> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 16
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<3 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 12 from `<3 x float> addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<3 x s32>), [[LOAD]](p1) :: (store 12 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <3 x float> %in, <3 x float> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v4i8_arg(<4 x i8> addrspace(1)* %out, <4 x i8> %in) {
; HSA-VI-LABEL: name: v4i8_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<4 x i8> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<4 x s8>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 4 from `<4 x i8> addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<4 x s8>), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <4 x i8> %in, <4 x i8> addrspace(1)* %out
ret void
}
define amdgpu_kernel void @v4i16_arg(<4 x i16> addrspace(1)* %out, <4 x i16> %in) {
; HSA-VI-LABEL: name: v4i16_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<4 x i16> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<4 x s16>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 8 from `<4 x i16> addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<4 x s16>), [[LOAD]](p1) :: (store 8 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <4 x i16> %in, <4 x i16> addrspace(1)* %out
ret void
}
define amdgpu_kernel void @v4i32_arg(<4 x i32> addrspace(1)* nocapture %out, <4 x i32> %in) nounwind {
; HSA-VI-LABEL: name: v4i32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<4 x i32> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 16
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<4 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 16 from `<4 x i32> addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<4 x s32>), [[LOAD]](p1) :: (store 16 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <4 x i32> %in, <4 x i32> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v4f32_arg(<4 x float> addrspace(1)* nocapture %out, <4 x float> %in) nounwind {
; HSA-VI-LABEL: name: v4f32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<4 x float> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 16
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<4 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 16 from `<4 x float> addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<4 x s32>), [[LOAD]](p1) :: (store 16 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <4 x float> %in, <4 x float> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v8i8_arg(<8 x i8> addrspace(1)* %out, <8 x i8> %in) {
; HSA-VI-LABEL: name: v8i8_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<8 x i8> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<8 x s8>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 8 from `<8 x i8> addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<8 x s8>), [[LOAD]](p1) :: (store 8 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <8 x i8> %in, <8 x i8> addrspace(1)* %out
ret void
}
define amdgpu_kernel void @v8i16_arg(<8 x i16> addrspace(1)* %out, <8 x i16> %in) {
; HSA-VI-LABEL: name: v8i16_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<8 x i16> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 16
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<8 x s16>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 16 from `<8 x i16> addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<8 x s16>), [[LOAD]](p1) :: (store 16 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <8 x i16> %in, <8 x i16> addrspace(1)* %out
ret void
}
define amdgpu_kernel void @v8i32_arg(<8 x i32> addrspace(1)* nocapture %out, <8 x i32> %in) nounwind {
; HSA-VI-LABEL: name: v8i32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<8 x i32> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 32
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<8 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 32 from `<8 x i32> addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<8 x s32>), [[LOAD]](p1) :: (store 32 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <8 x i32> %in, <8 x i32> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v8f32_arg(<8 x float> addrspace(1)* nocapture %out, <8 x float> %in) nounwind {
; HSA-VI-LABEL: name: v8f32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<8 x float> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 32
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<8 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 32 from `<8 x float> addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<8 x s32>), [[LOAD]](p1) :: (store 32 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <8 x float> %in, <8 x float> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v16i8_arg(<16 x i8> addrspace(1)* %out, <16 x i8> %in) {
; HSA-VI-LABEL: name: v16i8_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<16 x i8> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 16
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<16 x s8>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 16 from `<16 x i8> addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<16 x s8>), [[LOAD]](p1) :: (store 16 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <16 x i8> %in, <16 x i8> addrspace(1)* %out
ret void
}
define amdgpu_kernel void @v16i16_arg(<16 x i16> addrspace(1)* %out, <16 x i16> %in) {
; HSA-VI-LABEL: name: v16i16_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<16 x i16> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 32
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<16 x s16>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 32 from `<16 x i16> addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<16 x s16>), [[LOAD]](p1) :: (store 32 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <16 x i16> %in, <16 x i16> addrspace(1)* %out
ret void
}
define amdgpu_kernel void @v16i32_arg(<16 x i32> addrspace(1)* nocapture %out, <16 x i32> %in) nounwind {
; HSA-VI-LABEL: name: v16i32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<16 x i32> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 64
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<16 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 64 from `<16 x i32> addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<16 x s32>), [[LOAD]](p1) :: (store 64 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <16 x i32> %in, <16 x i32> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @v16f32_arg(<16 x float> addrspace(1)* nocapture %out, <16 x float> %in) nounwind {
; HSA-VI-LABEL: name: v16f32_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `<16 x float> addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 64
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(<16 x s32>) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 64 from `<16 x float> addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](<16 x s32>), [[LOAD]](p1) :: (store 64 into %ir.out, align 4, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store <16 x float> %in, <16 x float> addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @kernel_arg_i64(i64 addrspace(1)* %out, i64 %a) nounwind {
; HSA-VI-LABEL: name: kernel_arg_i64
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i64 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s64) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 8 from `i64 addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](s64), [[LOAD]](p1) :: (store 8 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
store i64 %a, i64 addrspace(1)* %out, align 8
ret void
}
define amdgpu_kernel void @f64_kernel_arg(double addrspace(1)* %out, double %in) {
; HSA-VI-LABEL: name: f64_kernel_arg
; HSA-VI: bb.1.entry:
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `double addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s64) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 8 from `double addrspace(4)* undef`, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](s64), [[LOAD]](p1) :: (store 8 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
entry:
store double %in, double addrspace(1)* %out
ret void
}
define amdgpu_kernel void @i1_arg(i1 addrspace(1)* %out, i1 %x) nounwind {
; HSA-VI-LABEL: name: i1_arg
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i1 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s1) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i1 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: G_STORE [[LOAD1]](s1), [[LOAD]](p1) :: (store 1 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
store i1 %x, i1 addrspace(1)* %out, align 1
ret void
}
define amdgpu_kernel void @i1_arg_zext_i32(i32 addrspace(1)* %out, i1 %x) nounwind {
; HSA-VI-LABEL: name: i1_arg_zext_i32
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s1) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i1 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[ZEXT:%[0-9]+]]:_(s32) = G_ZEXT [[LOAD1]](s1)
; HSA-VI: G_STORE [[ZEXT]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = zext i1 %x to i32
store i32 %ext, i32 addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @i1_arg_zext_i64(i64 addrspace(1)* %out, i1 %x) nounwind {
; HSA-VI-LABEL: name: i1_arg_zext_i64
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i64 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s1) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i1 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[ZEXT:%[0-9]+]]:_(s64) = G_ZEXT [[LOAD1]](s1)
; HSA-VI: G_STORE [[ZEXT]](s64), [[LOAD]](p1) :: (store 8 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = zext i1 %x to i64
store i64 %ext, i64 addrspace(1)* %out, align 8
ret void
}
define amdgpu_kernel void @i1_arg_sext_i32(i32 addrspace(1)* %out, i1 %x) nounwind {
; HSA-VI-LABEL: name: i1_arg_sext_i32
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i32 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s1) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i1 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[SEXT:%[0-9]+]]:_(s32) = G_SEXT [[LOAD1]](s1)
; HSA-VI: G_STORE [[SEXT]](s32), [[LOAD]](p1) :: (store 4 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = sext i1 %x to i32
store i32 %ext, i32addrspace(1)* %out, align 4
ret void
}
define amdgpu_kernel void @i1_arg_sext_i64(i64 addrspace(1)* %out, i1 %x) nounwind {
; HSA-VI-LABEL: name: i1_arg_sext_i64
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(p1) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 8 from `i64 addrspace(1)* addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 8
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s1) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i1 addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[SEXT:%[0-9]+]]:_(s64) = G_SEXT [[LOAD1]](s1)
; HSA-VI: G_STORE [[SEXT]](s64), [[LOAD]](p1) :: (store 8 into %ir.out, addrspace 1)
; HSA-VI: S_ENDPGM
%ext = sext i1 %x to i64
store i64 %ext, i64 addrspace(1)* %out, align 8
ret void
}
define amdgpu_kernel void @empty_struct_arg({} %in) nounwind {
; HSA-VI-LABEL: name: empty_struct_arg
; HSA-VI: bb.1 (%ir-block.0):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: S_ENDPGM
ret void
}
; The correct load offsets for these:
; load 4 from 0,
; load 8 from 8
; load 4 from 24
; load 8 from 32
; With the SelectionDAG argument lowering, the alignments for the
; struct members is not properly considered, making these wrong.
; FIXME: GlobalISel extractvalue emission broken
define amdgpu_kernel void @struct_argument_alignment({i32, i64} %arg0, i8, {i32, i64} %arg1) {
; %val0 = extractvalue {i32, i64} %arg0, 0
; %val1 = extractvalue {i32, i64} %arg0, 1
; %val2 = extractvalue {i32, i64} %arg1, 0
; %val3 = extractvalue {i32, i64} %arg1, 1
; store volatile i32 %val0, i32 addrspace(1)* null
; store volatile i64 %val1, i64 addrspace(1)* null
; store volatile i32 %val2, i32 addrspace(1)* null
; store volatile i64 %val3, i64 addrspace(1)* null
; HSA-VI-LABEL: name: struct_argument_alignment
; HSA-VI: bb.1 (%ir-block.1):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(s128) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 16 from `{ i32, i64 } addrspace(4)* undef`, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 16
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s8) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i8 addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C2:%[0-9]+]]:_(s64) = G_CONSTANT i64 24
; HSA-VI: [[GEP2:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C2]](s64)
; HSA-VI: [[LOAD2:%[0-9]+]]:_(s128) = G_LOAD [[GEP2]](p4) :: (non-temporal invariant load 16 from `{ i32, i64 } addrspace(4)* undef`, align 8, addrspace 4)
; HSA-VI: [[EXTRACT:%[0-9]+]]:_(s32) = G_EXTRACT [[LOAD]](s128), 0
; HSA-VI: [[EXTRACT1:%[0-9]+]]:_(s64) = G_EXTRACT [[LOAD]](s128), 64
; HSA-VI: [[EXTRACT2:%[0-9]+]]:_(s32) = G_EXTRACT [[LOAD2]](s128), 0
; HSA-VI: [[EXTRACT3:%[0-9]+]]:_(s64) = G_EXTRACT [[LOAD2]](s128), 64
; HSA-VI: S_ENDPGM
ret void
}
; No padding between i8 and next struct, but round up at end to 4 byte
; multiple.
define amdgpu_kernel void @packed_struct_argument_alignment(<{i32, i64}> %arg0, i8, <{i32, i64}> %arg1) {
; %val0 = extractvalue <{i32, i64}> %arg0, 0
; %val1 = extractvalue <{i32, i64}> %arg0, 1
; %val2 = extractvalue <{i32, i64}> %arg1, 0
; %val3 = extractvalue <{i32, i64}> %arg1, 1
; store volatile i32 %val0, i32 addrspace(1)* null
; store volatile i64 %val1, i64 addrspace(1)* null
; store volatile i32 %val2, i32 addrspace(1)* null
; store volatile i64 %val3, i64 addrspace(1)* null
; HSA-VI-LABEL: name: packed_struct_argument_alignment
; HSA-VI: bb.1 (%ir-block.1):
; HSA-VI: liveins: $sgpr4_sgpr5
; HSA-VI: [[COPY:%[0-9]+]]:_(p4) = COPY $sgpr4_sgpr5
; HSA-VI: [[C:%[0-9]+]]:_(s64) = G_CONSTANT i64 0
; HSA-VI: [[GEP:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C]](s64)
; HSA-VI: [[LOAD:%[0-9]+]]:_(s96) = G_LOAD [[GEP]](p4) :: (non-temporal invariant load 12 from `<{ i32, i64 }> addrspace(4)* undef`, align 16, addrspace 4)
; HSA-VI: [[C1:%[0-9]+]]:_(s64) = G_CONSTANT i64 12
; HSA-VI: [[GEP1:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C1]](s64)
; HSA-VI: [[LOAD1:%[0-9]+]]:_(s8) = G_LOAD [[GEP1]](p4) :: (non-temporal invariant load 1 from `i8 addrspace(4)* undef`, align 4, addrspace 4)
; HSA-VI: [[C2:%[0-9]+]]:_(s64) = G_CONSTANT i64 13
; HSA-VI: [[GEP2:%[0-9]+]]:_(p4) = G_GEP [[COPY]], [[C2]](s64)
; HSA-VI: [[LOAD2:%[0-9]+]]:_(s96) = G_LOAD [[GEP2]](p4) :: (non-temporal invariant load 12 from `<{ i32, i64 }> addrspace(4)* undef`, align 1, addrspace 4)
; HSA-VI: [[EXTRACT:%[0-9]+]]:_(s32) = G_EXTRACT [[LOAD]](s96), 0
; HSA-VI: [[EXTRACT1:%[0-9]+]]:_(s64) = G_EXTRACT [[LOAD]](s96), 32
; HSA-VI: [[EXTRACT2:%[0-9]+]]:_(s32) = G_EXTRACT [[LOAD2]](s96), 0
; HSA-VI: [[EXTRACT3:%[0-9]+]]:_(s64) = G_EXTRACT [[LOAD2]](s96), 32
; HSA-VI: S_ENDPGM
ret void
}