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147 lines
3.9 KiB
LLVM
147 lines
3.9 KiB
LLVM
; RUN: llc < %s -march=nvptx -mcpu=sm_20 | FileCheck %s
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; RUN: llc < %s -march=nvptx64 -mcpu=sm_20 | FileCheck %s
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; CHECK-LABEL: test_fabsf(
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define float @test_fabsf(float %f) {
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; CHECK: abs.f32
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%x = call float @llvm.fabs.f32(float %f)
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ret float %x
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}
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; CHECK-LABEL: test_fabs(
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define double @test_fabs(double %d) {
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; CHECK: abs.f64
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%x = call double @llvm.fabs.f64(double %d)
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ret double %x
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}
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; CHECK-LABEL: test_nvvm_sqrt(
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define float @test_nvvm_sqrt(float %a) {
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; CHECK: sqrt.rn.f32
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%val = call float @llvm.nvvm.sqrt.f(float %a)
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ret float %val
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}
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; CHECK-LABEL: test_llvm_sqrt(
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define float @test_llvm_sqrt(float %a) {
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; CHECK: sqrt.rn.f32
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%val = call float @llvm.sqrt.f32(float %a)
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ret float %val
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}
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; CHECK-LABEL: test_bitreverse32(
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define i32 @test_bitreverse32(i32 %a) {
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; CHECK: brev.b32
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%val = call i32 @llvm.bitreverse.i32(i32 %a)
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ret i32 %val
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}
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; CHECK-LABEL: test_bitreverse64(
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define i64 @test_bitreverse64(i64 %a) {
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; CHECK: brev.b64
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%val = call i64 @llvm.bitreverse.i64(i64 %a)
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ret i64 %val
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}
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; CHECK-LABEL: test_popc32(
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define i32 @test_popc32(i32 %a) {
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; CHECK: popc.b32
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%val = call i32 @llvm.ctpop.i32(i32 %a)
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ret i32 %val
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}
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; CHECK-LABEL: test_popc64
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define i64 @test_popc64(i64 %a) {
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; CHECK: popc.b64
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; CHECK: cvt.u64.u32
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%val = call i64 @llvm.ctpop.i64(i64 %a)
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ret i64 %val
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}
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; NVPTX popc.b64 returns an i32 even though @llvm.ctpop.i64 returns an i64, so
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; if this function returns an i32, there's no need to do any type conversions
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; in the ptx.
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; CHECK-LABEL: test_popc64_trunc
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define i32 @test_popc64_trunc(i64 %a) {
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; CHECK: popc.b64
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; CHECK-NOT: cvt.
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%val = call i64 @llvm.ctpop.i64(i64 %a)
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%trunc = trunc i64 %val to i32
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ret i32 %trunc
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}
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; llvm.ctpop.i16 is implemenented by converting to i32, running popc.b32, and
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; then converting back to i16.
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; CHECK-LABEL: test_popc16
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define void @test_popc16(i16 %a, i16* %b) {
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; CHECK: cvt.u32.u16
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; CHECK: popc.b32
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; CHECK: cvt.u16.u32
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%val = call i16 @llvm.ctpop.i16(i16 %a)
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store i16 %val, i16* %b
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ret void
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}
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; If we call llvm.ctpop.i16 and then zext the result to i32, we shouldn't need
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; to do any conversions after calling popc.b32, because that returns an i32.
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; CHECK-LABEL: test_popc16_to_32
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define i32 @test_popc16_to_32(i16 %a) {
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; CHECK: cvt.u32.u16
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; CHECK: popc.b32
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; CHECK-NOT: cvt.
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%val = call i16 @llvm.ctpop.i16(i16 %a)
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%zext = zext i16 %val to i32
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ret i32 %zext
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}
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; Most of nvvm.read.ptx.sreg.* intrinsics always return the same value and may
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; be CSE'd.
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; CHECK-LABEL: test_tid
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define i32 @test_tid() {
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; CHECK: mov.u32 %r{{.*}}, %tid.x;
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%a = tail call i32 @llvm.nvvm.read.ptx.sreg.tid.x()
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; CHECK-NOT: mov.u32 %r{{.*}}, %tid.x;
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%b = tail call i32 @llvm.nvvm.read.ptx.sreg.tid.x()
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%ret = add i32 %a, %b
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; CHECK: ret
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ret i32 %ret
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}
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; reading clock() or clock64() should not be CSE'd as each read may return
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; different value.
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; CHECK-LABEL: test_clock
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define i32 @test_clock() {
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; CHECK: mov.u32 %r{{.*}}, %clock;
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%a = tail call i32 @llvm.nvvm.read.ptx.sreg.clock()
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; CHECK: mov.u32 %r{{.*}}, %clock;
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%b = tail call i32 @llvm.nvvm.read.ptx.sreg.clock()
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%ret = add i32 %a, %b
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; CHECK: ret
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ret i32 %ret
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}
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; CHECK-LABEL: test_clock64
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define i64 @test_clock64() {
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; CHECK: mov.u64 %r{{.*}}, %clock64;
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%a = tail call i64 @llvm.nvvm.read.ptx.sreg.clock64()
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; CHECK: mov.u64 %r{{.*}}, %clock64;
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%b = tail call i64 @llvm.nvvm.read.ptx.sreg.clock64()
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%ret = add i64 %a, %b
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; CHECK: ret
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ret i64 %ret
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}
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declare float @llvm.fabs.f32(float)
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declare double @llvm.fabs.f64(double)
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declare float @llvm.nvvm.sqrt.f(float)
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declare float @llvm.sqrt.f32(float)
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declare i32 @llvm.bitreverse.i32(i32)
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declare i64 @llvm.bitreverse.i64(i64)
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declare i16 @llvm.ctpop.i16(i16)
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declare i32 @llvm.ctpop.i32(i32)
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declare i64 @llvm.ctpop.i64(i64)
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declare i32 @llvm.nvvm.read.ptx.sreg.tid.x()
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declare i32 @llvm.nvvm.read.ptx.sreg.clock()
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declare i64 @llvm.nvvm.read.ptx.sreg.clock64()
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