test/CodeGen/bittest-intrin.c - clang - Git at Google

 // RUN: %clang_cc1 -fms-extensions -triple x86_64-windows-msvc %s -emit-llvm -o - | FileCheck %s --check-prefix=X64
 // RUN: %clang_cc1 -fms-extensions -triple thumbv7-windows-msvc %s -emit-llvm -o - | FileCheck %s --check-prefix=ARM
 // RUN: %clang_cc1 -fms-extensions -triple aarch64-windows-msvc %s -emit-llvm -o - | FileCheck %s --check-prefix=ARM

 volatile unsigned char sink = 0;
 void test32(long *base, long idx) {
   sink = _bittest(base, idx);
   sink = _bittestandcomplement(base, idx);
   sink = _bittestandreset(base, idx);
   sink = _bittestandset(base, idx);
   sink = _interlockedbittestandreset(base, idx);
   sink = _interlockedbittestandset(base, idx);
   sink = _interlockedbittestandset(base, idx);
 }

 void test64(__int64 *base, __int64 idx) {
   sink = _bittest64(base, idx);
   sink = _bittestandcomplement64(base, idx);
   sink = _bittestandreset64(base, idx);
   sink = _bittestandset64(base, idx);
   sink = _interlockedbittestandreset64(base, idx);
   sink = _interlockedbittestandset64(base, idx);
 }

 #if defined(_M_ARM) || defined(_M_ARM64)
 void test_arm(long *base, long idx) {
   sink = _interlockedbittestandreset_acq(base, idx);
   sink = _interlockedbittestandreset_rel(base, idx);
   sink = _interlockedbittestandreset_nf(base, idx);
   sink = _interlockedbittestandset_acq(base, idx);
   sink = _interlockedbittestandset_rel(base, idx);
   sink = _interlockedbittestandset_nf(base, idx);
 }
 #endif

 // X64-LABEL: define dso_local void @test32(i32* %base, i32 %idx)
 // X64: call i8 asm sideeffect "btl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i32* %{{.*}}, i32 {{.*}})
 // X64: call i8 asm sideeffect "btcl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i32* %{{.*}}, i32 {{.*}})
 // X64: call i8 asm sideeffect "btrl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i32* %{{.*}}, i32 {{.*}})
 // X64: call i8 asm sideeffect "btsl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i32* %{{.*}}, i32 {{.*}})
 // X64: call i8 asm sideeffect "lock btrl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i32* %{{.*}}, i32 {{.*}})
 // X64: call i8 asm sideeffect "lock btsl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i32* %{{.*}}, i32 {{.*}})

 // X64-LABEL: define dso_local void @test64(i64* %base, i64 %idx)
 // X64: call i8 asm sideeffect "btq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i64* %{{.*}}, i64 {{.*}})
 // X64: call i8 asm sideeffect "btcq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i64* %{{.*}}, i64 {{.*}})
 // X64: call i8 asm sideeffect "btrq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i64* %{{.*}}, i64 {{.*}})
 // X64: call i8 asm sideeffect "btsq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i64* %{{.*}}, i64 {{.*}})
 // X64: call i8 asm sideeffect "lock btrq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i64* %{{.*}}, i64 {{.*}})
 // X64: call i8 asm sideeffect "lock btsq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.*}}"(i64* %{{.*}}, i64 {{.*}})

 // ARM-LABEL: define dso_local {{.*}}void @test32(i32* %base, i32 %idx)
 // ARM: %[[IDXHI:[^ ]*]] = ashr i32 %{{.*}}, 3
 // ARM: %[[BASE:[^ ]*]] = bitcast i32* %{{.*}} to i8*
 // ARM: %[[BYTEADDR:[^ ]*]] = getelementptr inbounds i8, i8* %[[BASE]], i32 %[[IDXHI]]
 // ARM: %[[IDX8:[^ ]*]] = trunc i32 %{{.*}} to i8
 // ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
 // ARM: %[[BYTE:[^ ]*]] = load i8, i8* %[[BYTEADDR]], align 1
 // ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
 // ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
 // ARM: store volatile i8 %[[RES]], i8* @sink, align 1

 // ARM: %[[IDXHI:[^ ]*]] = ashr i32 %{{.*}}, 3
 // ARM: %[[BASE:[^ ]*]] = bitcast i32* %{{.*}} to i8*
 // ARM: %[[BYTEADDR:[^ ]*]] = getelementptr inbounds i8, i8* %[[BASE]], i32 %[[IDXHI]]
 // ARM: %[[IDX8:[^ ]*]] = trunc i32 %{{.*}} to i8
 // ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
 // ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
 // ARM: %[[BYTE:[^ ]*]] = load i8, i8* %[[BYTEADDR]], align 1
 // ARM: %[[NEWBYTE:[^ ]*]] = xor i8 %[[BYTE]], %[[MASK]]
 // ARM  store i8 %[[NEWBYTE]], i8* %[[BYTEADDR]], align 1
 // ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
 // ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
 // ARM: store volatile i8 %[[RES]], i8* @sink, align 1

 // ARM: %[[IDXHI:[^ ]*]] = ashr i32 %{{.*}}, 3
 // ARM: %[[BASE:[^ ]*]] = bitcast i32* %{{.*}} to i8*
 // ARM: %[[BYTEADDR:[^ ]*]] = getelementptr inbounds i8, i8* %[[BASE]], i32 %[[IDXHI]]
 // ARM: %[[IDX8:[^ ]*]] = trunc i32 %{{.*}} to i8
 // ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
 // ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
 // ARM: %[[BYTE:[^ ]*]] = load i8, i8* %[[BYTEADDR]], align 1
 // ARM: %[[NOTMASK:[^ ]*]] = xor i8 %[[MASK]], -1
 // ARM: %[[NEWBYTE:[^ ]*]] = and i8 %[[BYTE]], %[[NOTMASK]]
 // ARM  store i8 %[[NEWBYTE]], i8* %[[BYTEADDR]], align 1
 // ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
 // ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
 // ARM: store volatile i8 %[[RES]], i8* @sink, align 1

 // ARM: %[[IDXHI:[^ ]*]] = ashr i32 %{{.*}}, 3
 // ARM: %[[BASE:[^ ]*]] = bitcast i32* %{{.*}} to i8*
 // ARM: %[[BYTEADDR:[^ ]*]] = getelementptr inbounds i8, i8* %[[BASE]], i32 %[[IDXHI]]
 // ARM: %[[IDX8:[^ ]*]] = trunc i32 %{{.*}} to i8
 // ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
 // ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
 // ARM: %[[BYTE:[^ ]*]] = load i8, i8* %[[BYTEADDR]], align 1
 // ARM: %[[NEWBYTE:[^ ]*]] = or i8 %[[BYTE]], %[[MASK]]
 // ARM  store i8 %[[NEWBYTE]], i8* %[[BYTEADDR]], align 1
 // ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
 // ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
 // ARM: store volatile i8 %[[RES]], i8* @sink, align 1

 // ARM: %[[IDXHI:[^ ]*]] = ashr i32 %{{.*}}, 3
 // ARM: %[[BASE:[^ ]*]] = bitcast i32* %{{.*}} to i8*
 // ARM: %[[BYTEADDR:[^ ]*]] = getelementptr inbounds i8, i8* %[[BASE]], i32 %[[IDXHI]]
 // ARM: %[[IDX8:[^ ]*]] = trunc i32 %{{.*}} to i8
 // ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
 // ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
 // ARM: %[[NOTMASK:[^ ]*]] = xor i8 %[[MASK]], -1
 // ARM: %[[BYTE:[^ ]*]] = atomicrmw and i8* %[[BYTEADDR]], i8 %[[NOTMASK]] seq_cst
 // ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
 // ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
 // ARM: store volatile i8 %[[RES]], i8* @sink, align 1

 // ARM: %[[IDXHI:[^ ]*]] = ashr i32 %{{.*}}, 3
 // ARM: %[[BASE:[^ ]*]] = bitcast i32* %{{.*}} to i8*
 // ARM: %[[BYTEADDR:[^ ]*]] = getelementptr inbounds i8, i8* %[[BASE]], i32 %[[IDXHI]]
 // ARM: %[[IDX8:[^ ]*]] = trunc i32 %{{.*}} to i8
 // ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
 // ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
 // ARM: %[[BYTE:[^ ]*]] = atomicrmw or i8* %[[BYTEADDR]], i8 %[[MASK]] seq_cst
 // ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
 // ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
 // ARM: store volatile i8 %[[RES]], i8* @sink, align 1


 // Just look for the atomicrmw instructions.

 // ARM-LABEL: define dso_local {{.*}}void @test_arm(i32* %base, i32 %idx)
 // ARM: atomicrmw and i8* %{{.*}}, i8 {{.*}} acquire
 // ARM: atomicrmw and i8* %{{.*}}, i8 {{.*}} release
 // ARM: atomicrmw and i8* %{{.*}}, i8 {{.*}} monotonic
 // ARM: atomicrmw or i8* %{{.*}}, i8 {{.*}} acquire
 // ARM: atomicrmw or i8* %{{.*}}, i8 {{.*}} release
 // ARM: atomicrmw or i8* %{{.*}}, i8 {{.*}} monotonic
	// RUN: %clang_cc1 -fms-extensions -triple x86_64-windows-msvc %s -emit-llvm -o - \| FileCheck %s --check-prefix=X64
	// RUN: %clang_cc1 -fms-extensions -triple thumbv7-windows-msvc %s -emit-llvm -o - \| FileCheck %s --check-prefix=ARM
	// RUN: %clang_cc1 -fms-extensions -triple aarch64-windows-msvc %s -emit-llvm -o - \| FileCheck %s --check-prefix=ARM

	volatile unsigned char sink = 0;
	void test32(long *base, long idx) {
	sink = _bittest(base, idx);
	sink = _bittestandcomplement(base, idx);
	sink = _bittestandreset(base, idx);
	sink = _bittestandset(base, idx);
	sink = _interlockedbittestandreset(base, idx);
	sink = _interlockedbittestandset(base, idx);
	sink = _interlockedbittestandset(base, idx);
	}

	void test64(__int64 *base, __int64 idx) {
	sink = _bittest64(base, idx);
	sink = _bittestandcomplement64(base, idx);
	sink = _bittestandreset64(base, idx);
	sink = _bittestandset64(base, idx);
	sink = _interlockedbittestandreset64(base, idx);
	sink = _interlockedbittestandset64(base, idx);
	}

	#if defined(_M_ARM) \|\| defined(_M_ARM64)
	void test_arm(long *base, long idx) {
	sink = _interlockedbittestandreset_acq(base, idx);
	sink = _interlockedbittestandreset_rel(base, idx);
	sink = _interlockedbittestandreset_nf(base, idx);
	sink = _interlockedbittestandset_acq(base, idx);
	sink = _interlockedbittestandset_rel(base, idx);
	sink = _interlockedbittestandset_nf(base, idx);
	}
	#endif

	// X64-LABEL: define dso_local void @test32(i32* %base, i32 %idx)
	// X64: call i8 asm sideeffect "btl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i32 %{{.}}, i32 {{.}})
	// X64: call i8 asm sideeffect "btcl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i32 %{{.}}, i32 {{.}})
	// X64: call i8 asm sideeffect "btrl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i32 %{{.}}, i32 {{.}})
	// X64: call i8 asm sideeffect "btsl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i32 %{{.}}, i32 {{.}})
	// X64: call i8 asm sideeffect "lock btrl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i32 %{{.}}, i32 {{.}})
	// X64: call i8 asm sideeffect "lock btsl $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i32 %{{.}}, i32 {{.}})

	// X64-LABEL: define dso_local void @test64(i64* %base, i64 %idx)
	// X64: call i8 asm sideeffect "btq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i64 %{{.}}, i64 {{.}})
	// X64: call i8 asm sideeffect "btcq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i64 %{{.}}, i64 {{.}})
	// X64: call i8 asm sideeffect "btrq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i64 %{{.}}, i64 {{.}})
	// X64: call i8 asm sideeffect "btsq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i64 %{{.}}, i64 {{.}})
	// X64: call i8 asm sideeffect "lock btrq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i64 %{{.}}, i64 {{.}})
	// X64: call i8 asm sideeffect "lock btsq $2, ($1)\0A\09setc ${0:b}", "=r,r,r,~{{.}}"(i64 %{{.}}, i64 {{.}})

	// ARM-LABEL: define dso_local {{.}}void @test32(i32 %base, i32 %idx)
	// ARM: %[[IDXHI:[^ ]]] = ashr i32 %{{.}}, 3
	// ARM: %[[BASE:[^ ]]] = bitcast i32 %{{.}} to i8
	// ARM: %[[BYTEADDR:[^ ]]] = getelementptr inbounds i8, i8 %[[BASE]], i32 %[[IDXHI]]
	// ARM: %[[IDX8:[^ ]]] = trunc i32 %{{.}} to i8
	// ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
	// ARM: %[[BYTE:[^ ]]] = load i8, i8 %[[BYTEADDR]], align 1
	// ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
	// ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
	// ARM: store volatile i8 %[[RES]], i8* @sink, align 1

	// ARM: %[[IDXHI:[^ ]]] = ashr i32 %{{.}}, 3
	// ARM: %[[BASE:[^ ]]] = bitcast i32 %{{.}} to i8
	// ARM: %[[BYTEADDR:[^ ]]] = getelementptr inbounds i8, i8 %[[BASE]], i32 %[[IDXHI]]
	// ARM: %[[IDX8:[^ ]]] = trunc i32 %{{.}} to i8
	// ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
	// ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
	// ARM: %[[BYTE:[^ ]]] = load i8, i8 %[[BYTEADDR]], align 1
	// ARM: %[[NEWBYTE:[^ ]*]] = xor i8 %[[BYTE]], %[[MASK]]
	// ARM store i8 %[[NEWBYTE]], i8* %[[BYTEADDR]], align 1
	// ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
	// ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
	// ARM: store volatile i8 %[[RES]], i8* @sink, align 1

	// ARM: %[[IDXHI:[^ ]]] = ashr i32 %{{.}}, 3
	// ARM: %[[BASE:[^ ]]] = bitcast i32 %{{.}} to i8
	// ARM: %[[BYTEADDR:[^ ]]] = getelementptr inbounds i8, i8 %[[BASE]], i32 %[[IDXHI]]
	// ARM: %[[IDX8:[^ ]]] = trunc i32 %{{.}} to i8
	// ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
	// ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
	// ARM: %[[BYTE:[^ ]]] = load i8, i8 %[[BYTEADDR]], align 1
	// ARM: %[[NOTMASK:[^ ]*]] = xor i8 %[[MASK]], -1
	// ARM: %[[NEWBYTE:[^ ]*]] = and i8 %[[BYTE]], %[[NOTMASK]]
	// ARM store i8 %[[NEWBYTE]], i8* %[[BYTEADDR]], align 1
	// ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
	// ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
	// ARM: store volatile i8 %[[RES]], i8* @sink, align 1

	// ARM: %[[IDXHI:[^ ]]] = ashr i32 %{{.}}, 3
	// ARM: %[[BASE:[^ ]]] = bitcast i32 %{{.}} to i8
	// ARM: %[[BYTEADDR:[^ ]]] = getelementptr inbounds i8, i8 %[[BASE]], i32 %[[IDXHI]]
	// ARM: %[[IDX8:[^ ]]] = trunc i32 %{{.}} to i8
	// ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
	// ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
	// ARM: %[[BYTE:[^ ]]] = load i8, i8 %[[BYTEADDR]], align 1
	// ARM: %[[NEWBYTE:[^ ]*]] = or i8 %[[BYTE]], %[[MASK]]
	// ARM store i8 %[[NEWBYTE]], i8* %[[BYTEADDR]], align 1
	// ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
	// ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
	// ARM: store volatile i8 %[[RES]], i8* @sink, align 1

	// ARM: %[[IDXHI:[^ ]]] = ashr i32 %{{.}}, 3
	// ARM: %[[BASE:[^ ]]] = bitcast i32 %{{.}} to i8
	// ARM: %[[BYTEADDR:[^ ]]] = getelementptr inbounds i8, i8 %[[BASE]], i32 %[[IDXHI]]
	// ARM: %[[IDX8:[^ ]]] = trunc i32 %{{.}} to i8
	// ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
	// ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
	// ARM: %[[NOTMASK:[^ ]*]] = xor i8 %[[MASK]], -1
	// ARM: %[[BYTE:[^ ]]] = atomicrmw and i8 %[[BYTEADDR]], i8 %[[NOTMASK]] seq_cst
	// ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
	// ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
	// ARM: store volatile i8 %[[RES]], i8* @sink, align 1

	// ARM: %[[IDXHI:[^ ]]] = ashr i32 %{{.}}, 3
	// ARM: %[[BASE:[^ ]]] = bitcast i32 %{{.}} to i8
	// ARM: %[[BYTEADDR:[^ ]]] = getelementptr inbounds i8, i8 %[[BASE]], i32 %[[IDXHI]]
	// ARM: %[[IDX8:[^ ]]] = trunc i32 %{{.}} to i8
	// ARM: %[[IDXLO:[^ ]*]] = and i8 %[[IDX8]], 7
	// ARM: %[[MASK:[^ ]*]] = shl i8 1, %[[IDXLO]]
	// ARM: %[[BYTE:[^ ]]] = atomicrmw or i8 %[[BYTEADDR]], i8 %[[MASK]] seq_cst
	// ARM: %[[BYTESHR:[^ ]*]] = lshr i8 %[[BYTE]], %[[IDXLO]]
	// ARM: %[[RES:[^ ]*]] = and i8 %[[BYTESHR]], 1
	// ARM: store volatile i8 %[[RES]], i8* @sink, align 1


	// Just look for the atomicrmw instructions.

	// ARM-LABEL: define dso_local {{.}}void @test_arm(i32 %base, i32 %idx)
	// ARM: atomicrmw and i8* %{{.}}, i8 {{.}} acquire
	// ARM: atomicrmw and i8* %{{.}}, i8 {{.}} release
	// ARM: atomicrmw and i8* %{{.}}, i8 {{.}} monotonic
	// ARM: atomicrmw or i8* %{{.}}, i8 {{.}} acquire
	// ARM: atomicrmw or i8* %{{.}}, i8 {{.}} release
	// ARM: atomicrmw or i8* %{{.}}, i8 {{.}} monotonic