third_party/subzero/tests_lit/llvm2ice_tests/test_i1.ll - SwiftShader - Git at Google

 ; Tests various aspects of i1 related lowering.

 ; RUN: %if --need=target_X8632 --command %p2i --filetype=obj --disassemble \
 ; RUN:   --target x8632 -i %s --args -O2 \
 ; RUN:   | %if --need=target_X8632 --command FileCheck %s

 ; RUN: %if --need=target_X8632 --command %p2i --filetype=obj --disassemble \
 ; RUN:   --target x8632 -i %s --args -Om1 \
 ; RUN:   | %if --need=target_X8632 --command FileCheck %s

 ; TODO(jpp): Switch to --filetype=obj when possible.
 ; RUN: %if --need=target_ARM32 --need=allow_dump \
 ; RUN:   --command %p2i --filetype=asm --assemble \
 ; RUN:   --disassemble --target arm32 -i %s --args -O2 \
 ; RUN:   | %if --need=target_ARM32 --need=allow_dump \
 ; RUN:   --command FileCheck --check-prefix ARM32 %s

 ; RUN: %if --need=target_MIPS32 --need=allow_dump \
 ; RUN:   --command %p2i --filetype=asm --assemble --disassemble --target \
 ; RUN:   mips32 -i %s --args -O2 -allow-externally-defined-symbols \
 ; RUN:   | %if --need=target_MIPS32 --need=allow_dump \
 ; RUN:   --command FileCheck --check-prefix MIPS32 %s

 ; Test that and with true uses immediate 1, not -1.
 define internal i32 @testAndTrue(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i1 = and i1 %arg_i1, true
   %result = zext i1 %result_i1 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testAndTrue
 ; CHECK: and {{.*}},0x1
 ; ARM32-LABEL: testAndTrue
 ; ARM32: and {{.*}}, #1
 ; MIPS32-LABEL: testAndTrue
 ; MIPS32: 	andi	{{.*}},0x1

 ; Test that or with true uses immediate 1, not -1.
 define internal i32 @testOrTrue(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i1 = or i1 %arg_i1, true
   %result = zext i1 %result_i1 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testOrTrue
 ; CHECK: or {{.*}},0x1
 ; ARM32-LABEL: testOrTrue
 ; ARM32: orr {{.*}}, #1
 ; MIPS32-LABEL: testOrTrue
 ; MIPS32: 	ori	{{.*}},0x1

 ; Test that xor with true uses immediate 1, not -1.
 define internal i32 @testXorTrue(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i1 = xor i1 %arg_i1, true
   %result = zext i1 %result_i1 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testXorTrue
 ; CHECK: xor {{.*}},0x1
 ; ARM32-LABEL: testXorTrue
 ; ARM32: eor {{.*}}, #1
 ; MIPS32-LABEL: testXorTrue
 ; MIPS32: 	xori	{{.*}},0x1

 ; Test that trunc to i1 masks correctly.
 define internal i32 @testTrunc(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result = zext i1 %arg_i1 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testTrunc
 ; CHECK: and {{.*}},0x1
 ; ARM32-LABEL: testTrunc
 ; ARM32: and {{.*}}, #1
 ; MIPS32-LABEL: testTrunc
 ; MIPS32: 	andi	{{.*}},0x1

 ; Test zext to i8.
 define internal i32 @testZextI8(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i8 = zext i1 %arg_i1 to i8
   %result = zext i8 %result_i8 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testZextI8
 ; match the trunc instruction
 ; CHECK: and {{.*}},0x1
 ; match the zext i1 instruction (NOTE: no mov need between i1 and i8).
 ; CHECK-NOT: and {{.*}},0x1
 ; ARM32-LABEL: testZextI8
 ; ARM32: {{.*}}, #1
 ; ARM32: uxtb
 ; MIPS32-LABEL: testZextI8
 ; MIPS32: 	andi	{{.*}},0x1
 ; MIPS32: 	andi	{{.*}},0xff

 ; Test zext to i16.
 define internal i32 @testZextI16(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i16 = zext i1 %arg_i1 to i16
   %result = zext i16 %result_i16 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testZextI16
 ; match the trunc instruction
 ; CHECK: and {{.*}},0x1
 ; match the zext i1 instruction (note 32-bit reg is used because it's shorter).
 ; CHECK: movzx [[REG:e.*]],{{[a-d]l|BYTE PTR}}
 ; CHECK-NOT: and [[REG]],0x1

 ; ARM32-LABEL: testZextI16
 ; ARM32: and {{.*}}, #1
 ; ARM32: uxth

 ; MIPS32-LABEL: testZextI16
 ; MIPS32: 	andi	{{.*}},0x1
 ; MIPS32: 	andi	{{.*}},0xffff

 ; Test zext to i32.
 define internal i32 @testZextI32(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i32 = zext i1 %arg_i1 to i32
   ret i32 %result_i32
 }
 ; CHECK-LABEL: testZextI32
 ; match the trunc instruction
 ; CHECK: and {{.*}},0x1
 ; match the zext i1 instruction
 ; CHECK: movzx
 ; CHECK-NOT: and {{.*}},0x1
 ; ARM32-LABEL: testZextI32
 ; ARM32: and {{.*}}, #1
 ; MIPS32-LABEL: testZextI32
 ; MIPS32: 	andi	{{.*}},0x1

 ; Test zext to i64.
 define internal i64 @testZextI64(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i64 = zext i1 %arg_i1 to i64
   ret i64 %result_i64
 }
 ; CHECK-LABEL: testZextI64
 ; match the trunc instruction
 ; CHECK: and {{.*}},0x1
 ; match the zext i1 instruction
 ; CHECK: movzx
 ; CHECK: mov {{.*}},0x0
 ; ARM32-LABEL: testZextI64
 ; ARM32: and {{.*}}, #1
 ; ARM32: mov {{.*}}, #0
 ; MIPS32-LABEL: testZextI64
 ; MIPS32: 	andi	{{.*}},0x1
 ; MIPS32: 	li	{{.*}},0
 ; MIPS32: 	move
 ; MIPS32: 	move

 ; Test sext to i8.
 define internal i32 @testSextI8(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i8 = sext i1 %arg_i1 to i8
   %result = sext i8 %result_i8 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testSextI8
 ; match the trunc instruction
 ; CHECK: and {{.*}},0x1
 ; match the sext i1 instruction
 ; CHECK: shl [[REG:.*]],0x7
 ; CHECK-NEXT: sar [[REG]],0x7
 ;
 ; ARM32-LABEL: testSextI8
 ; ARM32: mov {{.*}}, #0
 ; ARM32: tst {{.*}}, #1
 ; ARM32: mvn {{.*}}, #0
 ; ARM32: movne
 ; ARM32: sxtb
 ;
 ; MIPS32-LABEL: testSextI8
 ; MIPS32: 	sll	{{.*}},0x1f
 ; MIPS32: 	sra	{{.*}},0x1f
 ; MIPS32: 	sll	{{.*}},0x18
 ; MIPS32: 	sra	{{.*}},0x18

 ; Test sext to i16.
 define internal i32 @testSextI16(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i16 = sext i1 %arg_i1 to i16
   %result = sext i16 %result_i16 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testSextI16
 ; match the trunc instruction
 ; CHECK: and {{.*}},0x1
 ; match the sext i1 instruction
 ; CHECK: movzx {{e*}}[[REG:.*]],{{[a-d]l|BYTE PTR}}
 ; CHECK-NEXT: shl [[REG]],0xf
 ; CHECK-NEXT: sar [[REG]],0xf

 ; ARM32-LABEL: testSextI16
 ; ARM32: mov {{.*}}, #0
 ; ARM32: tst {{.*}}, #1
 ; ARM32: mvn {{.*}}, #0
 ; ARM32: movne
 ; ARM32: sxth

 ; MIPS32-LABEL: testSextI16
 ; MIPS32: 	sll	{{.*}},0x1f
 ; MIPS32: 	sra	{{.*}},0x1f
 ; MIPS32: 	sll	{{.*}},0x10
 ; MIPS32: 	sra	{{.*}},0x10

 ; Test sext to i32.
 define internal i32 @testSextI32(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i32 = sext i1 %arg_i1 to i32
   ret i32 %result_i32
 }
 ; CHECK-LABEL: testSextI32
 ; match the trunc instruction
 ; CHECK: and {{.*}},0x1
 ; match the sext i1 instruction
 ; CHECK: movzx [[REG:.*]],
 ; CHECK-NEXT: shl [[REG]],0x1f
 ; CHECK-NEXT: sar [[REG]],0x1f

 ; ARM32-LABEL: testSextI32
 ; ARM32: mov {{.*}}, #0
 ; ARM32: tst {{.*}}, #1
 ; ARM32: mvn {{.*}}, #0
 ; ARM32: movne

 ; MIPS32-LABEL: testSextI32
 ; MIPS32: 	sll	{{.*}},0x1f
 ; MIPS32: 	sra	{{.*}},0x1f

 ; Test sext to i64.
 define internal i64 @testSextI64(i32 %arg) {
 entry:
   %arg_i1 = trunc i32 %arg to i1
   %result_i64 = sext i1 %arg_i1 to i64
   ret i64 %result_i64
 }
 ; CHECK-LABEL: testSextI64
 ; match the trunc instruction
 ; CHECK: and {{.*}},0x1
 ; match the sext i1 instruction
 ; CHECK: movzx [[REG:.*]],
 ; CHECK-NEXT: shl [[REG]],0x1f
 ; CHECK-NEXT: sar [[REG]],0x1f

 ; ARM32-LABEL: testSextI64
 ; ARM32: mov {{.*}}, #0
 ; ARM32: tst {{.*}}, #1
 ; ARM32: mvn {{.*}}, #0
 ; ARM32: movne [[REG:r[0-9]+]]
 ; ARM32: mov {{.*}}, [[REG]]

 ; MIPS32-LABEL: testSextI64
 ; MIPS32: 	sll	{{.*}},0x1f
 ; MIPS32: 	sra	{{.*}},0x1f
 ; MIPS32: 	move
 ; MIPS32: 	move

 ; Kind of like sext i1 to i32, but with an immediate source. On ARM,
 ; sxtb cannot take an immediate operand, so make sure it's using a reg.
 ; If we had optimized constants, this could just be mov dst, 0xffffffff
 ; or mvn dst, #0.
 define internal i32 @testSextTrue() {
   %result = sext i1 true to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testSextTrue
 ; CHECK: movzx
 ; CHECK-NEXT: shl
 ; CHECK-NEXT: sar
 ; ARM32-LABEL: testSextTrue
 ; ARM32: mov {{.*}}, #0
 ; ARM32: tst {{.*}}, #1
 ; ARM32: mvn {{.*}}, #0
 ; ARM32: movne
 ; MIPS32-LABEL: testSextTrue
 ; MIPS32: 	li	{{.*}},1
 ; MIPS32: 	sll	{{.*}},0x1f
 ; MIPS32: 	sra	{{.*}},0x1f

 define internal i32 @testZextTrue() {
   %result = zext i1 true to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testZextTrue
 ; CHECK: movzx
 ; CHECK-NOT: and {{.*}},0x1
 ; ARM32-LABEL: testZextTrue
 ; ARM32: mov{{.*}}, #1
 ; ARM32: and {{.*}}, #1
 ; MIPS32-LABEL: testZextTrue
 ; MIPS32: 	li	{{.*}},1
 ; MIPS32: 	andi	{{.*}},0x1

 ; Test fptosi float to i1.
 define internal i32 @testFptosiFloat(float %arg) {
 entry:
   %arg_i1 = fptosi float %arg to i1
   %result = sext i1 %arg_i1 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testFptosiFloat
 ; CHECK: cvttss2si
 ; CHECK: and {{.*}},0x1
 ; CHECK: movzx [[REG:.*]],
 ; CHECK-NEXT: shl [[REG]],0x1f
 ; CHECK-NEXT: sar [[REG]],0x1f
 ; MIPS32-LABEL: testFptosiFloat
 ; MIPS32: 	trunc.w.s
 ; MIPS32: 	mfc1
 ; MIPS32: 	sll	{{.*}},0x1f
 ; MIPS32: 	sra	{{.*}},0x1f

 ; Test fptosi double to i1.
 define internal i32 @testFptosiDouble(double %arg) {
 entry:
   %arg_i1 = fptosi double %arg to i1
   %result = sext i1 %arg_i1 to i32
   ret i32 %result
 }
 ; CHECK-LABEL: testFptosiDouble
 ; CHECK: cvttsd2si
 ; CHECK: and {{.*}},0x1
 ; CHECK: movzx [[REG:.*]],
 ; CHECK-NEXT: shl [[REG]],0x1f
 ; CHECK-NEXT: sar [[REG]],0x1f
 ; MIPS32-LABEL: testFptosiDouble
 ; MIPS32: 	trunc.w.d
 ; MIPS32: 	mfc1
 ; MIPS32: 	sll	{{.*}},0x1f
 ; MIPS32: 	sra	{{.*}},0x1f
	; Tests various aspects of i1 related lowering.

	; RUN: %if --need=target_X8632 --command %p2i --filetype=obj --disassemble \
	; RUN: --target x8632 -i %s --args -O2 \
	; RUN: \| %if --need=target_X8632 --command FileCheck %s

	; RUN: %if --need=target_X8632 --command %p2i --filetype=obj --disassemble \
	; RUN: --target x8632 -i %s --args -Om1 \
	; RUN: \| %if --need=target_X8632 --command FileCheck %s

	; TODO(jpp): Switch to --filetype=obj when possible.
	; RUN: %if --need=target_ARM32 --need=allow_dump \
	; RUN: --command %p2i --filetype=asm --assemble \
	; RUN: --disassemble --target arm32 -i %s --args -O2 \
	; RUN: \| %if --need=target_ARM32 --need=allow_dump \
	; RUN: --command FileCheck --check-prefix ARM32 %s

	; RUN: %if --need=target_MIPS32 --need=allow_dump \
	; RUN: --command %p2i --filetype=asm --assemble --disassemble --target \
	; RUN: mips32 -i %s --args -O2 -allow-externally-defined-symbols \
	; RUN: \| %if --need=target_MIPS32 --need=allow_dump \
	; RUN: --command FileCheck --check-prefix MIPS32 %s

	; Test that and with true uses immediate 1, not -1.
	define internal i32 @testAndTrue(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i1 = and i1 %arg_i1, true
	%result = zext i1 %result_i1 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testAndTrue
	; CHECK: and {{.*}},0x1
	; ARM32-LABEL: testAndTrue
	; ARM32: and {{.*}}, #1
	; MIPS32-LABEL: testAndTrue
	; MIPS32: andi {{.*}},0x1

	; Test that or with true uses immediate 1, not -1.
	define internal i32 @testOrTrue(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i1 = or i1 %arg_i1, true
	%result = zext i1 %result_i1 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testOrTrue
	; CHECK: or {{.*}},0x1
	; ARM32-LABEL: testOrTrue
	; ARM32: orr {{.*}}, #1
	; MIPS32-LABEL: testOrTrue
	; MIPS32: ori {{.*}},0x1

	; Test that xor with true uses immediate 1, not -1.
	define internal i32 @testXorTrue(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i1 = xor i1 %arg_i1, true
	%result = zext i1 %result_i1 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testXorTrue
	; CHECK: xor {{.*}},0x1
	; ARM32-LABEL: testXorTrue
	; ARM32: eor {{.*}}, #1
	; MIPS32-LABEL: testXorTrue
	; MIPS32: xori {{.*}},0x1

	; Test that trunc to i1 masks correctly.
	define internal i32 @testTrunc(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result = zext i1 %arg_i1 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testTrunc
	; CHECK: and {{.*}},0x1
	; ARM32-LABEL: testTrunc
	; ARM32: and {{.*}}, #1
	; MIPS32-LABEL: testTrunc
	; MIPS32: andi {{.*}},0x1

	; Test zext to i8.
	define internal i32 @testZextI8(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i8 = zext i1 %arg_i1 to i8
	%result = zext i8 %result_i8 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testZextI8
	; match the trunc instruction
	; CHECK: and {{.*}},0x1
	; match the zext i1 instruction (NOTE: no mov need between i1 and i8).
	; CHECK-NOT: and {{.*}},0x1
	; ARM32-LABEL: testZextI8
	; ARM32: {{.*}}, #1
	; ARM32: uxtb
	; MIPS32-LABEL: testZextI8
	; MIPS32: andi {{.*}},0x1
	; MIPS32: andi {{.*}},0xff

	; Test zext to i16.
	define internal i32 @testZextI16(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i16 = zext i1 %arg_i1 to i16
	%result = zext i16 %result_i16 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testZextI16
	; match the trunc instruction
	; CHECK: and {{.*}},0x1
	; match the zext i1 instruction (note 32-bit reg is used because it's shorter).
	; CHECK: movzx [[REG:e.*]],{{[a-d]l\|BYTE PTR}}
	; CHECK-NOT: and [[REG]],0x1

	; ARM32-LABEL: testZextI16
	; ARM32: and {{.*}}, #1
	; ARM32: uxth

	; MIPS32-LABEL: testZextI16
	; MIPS32: andi {{.*}},0x1
	; MIPS32: andi {{.*}},0xffff

	; Test zext to i32.
	define internal i32 @testZextI32(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i32 = zext i1 %arg_i1 to i32
	ret i32 %result_i32
	}
	; CHECK-LABEL: testZextI32
	; match the trunc instruction
	; CHECK: and {{.*}},0x1
	; match the zext i1 instruction
	; CHECK: movzx
	; CHECK-NOT: and {{.*}},0x1
	; ARM32-LABEL: testZextI32
	; ARM32: and {{.*}}, #1
	; MIPS32-LABEL: testZextI32
	; MIPS32: andi {{.*}},0x1

	; Test zext to i64.
	define internal i64 @testZextI64(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i64 = zext i1 %arg_i1 to i64
	ret i64 %result_i64
	}
	; CHECK-LABEL: testZextI64
	; match the trunc instruction
	; CHECK: and {{.*}},0x1
	; match the zext i1 instruction
	; CHECK: movzx
	; CHECK: mov {{.*}},0x0
	; ARM32-LABEL: testZextI64
	; ARM32: and {{.*}}, #1
	; ARM32: mov {{.*}}, #0
	; MIPS32-LABEL: testZextI64
	; MIPS32: andi {{.*}},0x1
	; MIPS32: li {{.*}},0
	; MIPS32: move
	; MIPS32: move

	; Test sext to i8.
	define internal i32 @testSextI8(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i8 = sext i1 %arg_i1 to i8
	%result = sext i8 %result_i8 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testSextI8
	; match the trunc instruction
	; CHECK: and {{.*}},0x1
	; match the sext i1 instruction
	; CHECK: shl [[REG:.*]],0x7
	; CHECK-NEXT: sar [[REG]],0x7
	;
	; ARM32-LABEL: testSextI8
	; ARM32: mov {{.*}}, #0
	; ARM32: tst {{.*}}, #1
	; ARM32: mvn {{.*}}, #0
	; ARM32: movne
	; ARM32: sxtb
	;
	; MIPS32-LABEL: testSextI8
	; MIPS32: sll {{.*}},0x1f
	; MIPS32: sra {{.*}},0x1f
	; MIPS32: sll {{.*}},0x18
	; MIPS32: sra {{.*}},0x18

	; Test sext to i16.
	define internal i32 @testSextI16(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i16 = sext i1 %arg_i1 to i16
	%result = sext i16 %result_i16 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testSextI16
	; match the trunc instruction
	; CHECK: and {{.*}},0x1
	; match the sext i1 instruction
	; CHECK: movzx {{e}}[[REG:.]],{{[a-d]l\|BYTE PTR}}
	; CHECK-NEXT: shl [[REG]],0xf
	; CHECK-NEXT: sar [[REG]],0xf

	; ARM32-LABEL: testSextI16
	; ARM32: mov {{.*}}, #0
	; ARM32: tst {{.*}}, #1
	; ARM32: mvn {{.*}}, #0
	; ARM32: movne
	; ARM32: sxth

	; MIPS32-LABEL: testSextI16
	; MIPS32: sll {{.*}},0x1f
	; MIPS32: sra {{.*}},0x1f
	; MIPS32: sll {{.*}},0x10
	; MIPS32: sra {{.*}},0x10

	; Test sext to i32.
	define internal i32 @testSextI32(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i32 = sext i1 %arg_i1 to i32
	ret i32 %result_i32
	}
	; CHECK-LABEL: testSextI32
	; match the trunc instruction
	; CHECK: and {{.*}},0x1
	; match the sext i1 instruction
	; CHECK: movzx [[REG:.*]],
	; CHECK-NEXT: shl [[REG]],0x1f
	; CHECK-NEXT: sar [[REG]],0x1f

	; ARM32-LABEL: testSextI32
	; ARM32: mov {{.*}}, #0
	; ARM32: tst {{.*}}, #1
	; ARM32: mvn {{.*}}, #0
	; ARM32: movne

	; MIPS32-LABEL: testSextI32
	; MIPS32: sll {{.*}},0x1f
	; MIPS32: sra {{.*}},0x1f

	; Test sext to i64.
	define internal i64 @testSextI64(i32 %arg) {
	entry:
	%arg_i1 = trunc i32 %arg to i1
	%result_i64 = sext i1 %arg_i1 to i64
	ret i64 %result_i64
	}
	; CHECK-LABEL: testSextI64
	; match the trunc instruction
	; CHECK: and {{.*}},0x1
	; match the sext i1 instruction
	; CHECK: movzx [[REG:.*]],
	; CHECK-NEXT: shl [[REG]],0x1f
	; CHECK-NEXT: sar [[REG]],0x1f

	; ARM32-LABEL: testSextI64
	; ARM32: mov {{.*}}, #0
	; ARM32: tst {{.*}}, #1
	; ARM32: mvn {{.*}}, #0
	; ARM32: movne [[REG:r[0-9]+]]
	; ARM32: mov {{.*}}, [[REG]]

	; MIPS32-LABEL: testSextI64
	; MIPS32: sll {{.*}},0x1f
	; MIPS32: sra {{.*}},0x1f
	; MIPS32: move
	; MIPS32: move

	; Kind of like sext i1 to i32, but with an immediate source. On ARM,
	; sxtb cannot take an immediate operand, so make sure it's using a reg.
	; If we had optimized constants, this could just be mov dst, 0xffffffff
	; or mvn dst, #0.
	define internal i32 @testSextTrue() {
	%result = sext i1 true to i32
	ret i32 %result
	}
	; CHECK-LABEL: testSextTrue
	; CHECK: movzx
	; CHECK-NEXT: shl
	; CHECK-NEXT: sar
	; ARM32-LABEL: testSextTrue
	; ARM32: mov {{.*}}, #0
	; ARM32: tst {{.*}}, #1
	; ARM32: mvn {{.*}}, #0
	; ARM32: movne
	; MIPS32-LABEL: testSextTrue
	; MIPS32: li {{.*}},1
	; MIPS32: sll {{.*}},0x1f
	; MIPS32: sra {{.*}},0x1f

	define internal i32 @testZextTrue() {
	%result = zext i1 true to i32
	ret i32 %result
	}
	; CHECK-LABEL: testZextTrue
	; CHECK: movzx
	; CHECK-NOT: and {{.*}},0x1
	; ARM32-LABEL: testZextTrue
	; ARM32: mov{{.*}}, #1
	; ARM32: and {{.*}}, #1
	; MIPS32-LABEL: testZextTrue
	; MIPS32: li {{.*}},1
	; MIPS32: andi {{.*}},0x1

	; Test fptosi float to i1.
	define internal i32 @testFptosiFloat(float %arg) {
	entry:
	%arg_i1 = fptosi float %arg to i1
	%result = sext i1 %arg_i1 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testFptosiFloat
	; CHECK: cvttss2si
	; CHECK: and {{.*}},0x1
	; CHECK: movzx [[REG:.*]],
	; CHECK-NEXT: shl [[REG]],0x1f
	; CHECK-NEXT: sar [[REG]],0x1f
	; MIPS32-LABEL: testFptosiFloat
	; MIPS32: trunc.w.s
	; MIPS32: mfc1
	; MIPS32: sll {{.*}},0x1f
	; MIPS32: sra {{.*}},0x1f

	; Test fptosi double to i1.
	define internal i32 @testFptosiDouble(double %arg) {
	entry:
	%arg_i1 = fptosi double %arg to i1
	%result = sext i1 %arg_i1 to i32
	ret i32 %result
	}
	; CHECK-LABEL: testFptosiDouble
	; CHECK: cvttsd2si
	; CHECK: and {{.*}},0x1
	; CHECK: movzx [[REG:.*]],
	; CHECK-NEXT: shl [[REG]],0x1f
	; CHECK-NEXT: sar [[REG]],0x1f
	; MIPS32-LABEL: testFptosiDouble
	; MIPS32: trunc.w.d
	; MIPS32: mfc1
	; MIPS32: sll {{.*}},0x1f
	; MIPS32: sra {{.*}},0x1f