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

 ; Assembly test for simple arithmetic operations.

 ; 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_ARM32 \
 ; RUN:   --command %p2i --filetype=obj --disassemble --target arm32 \
 ; RUN:   -i %s --args -O2 \
 ; RUN:   | %if --need=target_ARM32 \
 ; RUN:   --command FileCheck --check-prefix ARM32 --check-prefix ARM-OPT2 %s
 ; RUN: %if --need=target_ARM32 \
 ; RUN:   --command %p2i --filetype=obj --disassemble --target arm32 \
 ; RUN:   -i %s --args -O2 --mattr=hwdiv-arm \
 ; RUN:   | %if --need=target_ARM32 \
 ; RUN:   --command FileCheck --check-prefix ARM32HWDIV %s
 ; RUN: %if --need=target_ARM32 \
 ; RUN:   --command %p2i --filetype=obj --disassemble --target arm32 \
 ; RUN:   -i %s --args -Om1 \
 ; RUN:   | %if --need=target_ARM32 \
 ; RUN:   --command FileCheck --check-prefix ARM32 --check-prefix ARM32-OPTM1 %s
 ;
 ; RUN: %if --need=target_MIPS32 --need=allow_dump \
 ; RUN:   --command %p2i --filetype=asm --assemble --disassemble --target mips32\
 ; RUN:   -i %s --args -O2 \
 ; RUN:   | %if --need=target_MIPS32 --need=allow_dump \
 ; RUN:   --command FileCheck --check-prefix MIPS32 %s

 ; RUN: %if --need=target_MIPS32 --need=allow_dump \
 ; RUN:   --command %p2i --filetype=asm --assemble --disassemble --target mips32\
 ; RUN:   -i %s --args -Om1 \
 ; RUN:   | %if --need=target_MIPS32 --need=allow_dump \
 ; RUN:   --command FileCheck --check-prefix MIPS32 %s

 define internal i32 @Add(i32 %a, i32 %b) {
 entry:
   %add = add i32 %b, %a
   ret i32 %add
 }
 ; CHECK-LABEL: Add
 ; CHECK: add e
 ; ARM32-LABEL: Add
 ; ARM32: add r
 ; MIPS32-LABEL: Add
 ; MIPS32: add

 define internal i32 @And(i32 %a, i32 %b) {
 entry:
   %and = and i32 %b, %a
   ret i32 %and
 }
 ; CHECK-LABEL: And
 ; CHECK: and e
 ; ARM32-LABEL: And
 ; ARM32: and r
 ; MIPS32-LABEL: And
 ; MIPS32: and

 define internal i32 @Or(i32 %a, i32 %b) {
 entry:
   %or = or i32 %b, %a
   ret i32 %or
 }
 ; CHECK-LABEL: Or
 ; CHECK: or e
 ; ARM32-LABEL: Or
 ; ARM32: orr r
 ; MIPS32-LABEL: Or
 ; MIPS32: or

 define internal i32 @Xor(i32 %a, i32 %b) {
 entry:
   %xor = xor i32 %b, %a
   ret i32 %xor
 }
 ; CHECK-LABEL: Xor
 ; CHECK: xor e
 ; ARM32-LABEL: Xor
 ; ARM32: eor r
 ; MIPS32-LABEL: Xor
 ; MIPS32: xor

 define internal i32 @Sub(i32 %a, i32 %b) {
 entry:
   %sub = sub i32 %a, %b
   ret i32 %sub
 }
 ; CHECK-LABEL: Sub
 ; CHECK: sub e
 ; ARM32-LABEL: Sub
 ; ARM32: sub r
 ; MIPS32-LABEL: Sub
 ; MIPS32: sub

 define internal i32 @Mul(i32 %a, i32 %b) {
 entry:
   %mul = mul i32 %b, %a
   ret i32 %mul
 }
 ; CHECK-LABEL: Mul
 ; CHECK: imul e
 ; ARM32-LABEL: Mul
 ; ARM32: mul r
 ; MIPS32-LABEL: Mul
 ; MIPS32: mul

 ; Check for a valid ARM mul instruction where operands have to be registers.
 ; On the other hand x86-32 does allow an immediate.
 define internal i32 @MulImm(i32 %a, i32 %b) {
 entry:
   %mul = mul i32 %a, 99
   ret i32 %mul
 }
 ; CHECK-LABEL: MulImm
 ; CHECK: imul e{{.*}},e{{.*}},0x63
 ; ARM32-LABEL: MulImm
 ; ARM32-OPTM1: mov {{.*}}, #99
 ; ARM32-OPTM1: mul r{{.*}}, r{{.*}}, r{{.*}}
 ; ARM32-OPT2: rsb [[T:r[0-9]+]], [[S:r[0-9]+]], [[S]], lsl #2
 ; ARM32-OPT2-DAG: add [[T]], [[T]], [[S]], lsl #7
 ; ARM32-OPT2-DAG: sub [[T]], [[T]], [[S]], lsl #5
 ; MIPS32-LABEL: MulImm
 ; MIPS32: mul

 ; Check for a valid addressing mode in the x86-32 mul instruction when
 ; the second source operand is an immediate.
 define internal i64 @MulImm64(i64 %a) {
 entry:
   %mul = mul i64 %a, 99
   ret i64 %mul
 }
 ; NOTE: the lowering is currently a bit inefficient for small 64-bit constants.
 ; The top bits of the immediate are 0, but the instructions modeling that
 ; multiply by 0 are not eliminated (see expanded 64-bit ARM lowering).
 ; CHECK-LABEL: MulImm64
 ; CHECK: mov {{.*}},0x63
 ; CHECK: mov {{.*}},0x0
 ; CHECK-NOT: mul {{[0-9]+}}
 ;
 ; ARM32-LABEL: MulImm64
 ; ARM32: mov {{.*}}, #99
 ; ARM32: mov {{.*}}, #0
 ; ARM32: mul r
 ; ARM32: mla r
 ; ARM32: umull r
 ; ARM32: add r

 ; MIPS32-LABEL: MulImm64

 define internal i32 @Sdiv(i32 %a, i32 %b) {
 entry:
   %div = sdiv i32 %a, %b
   ret i32 %div
 }
 ; CHECK-LABEL: Sdiv
 ; CHECK: cdq
 ; CHECK: idiv e
 ;
 ; ARM32-LABEL: Sdiv
 ; ARM32: tst [[DENOM:r.*]], [[DENOM]]
 ; ARM32: bne
 ; The following instruction is ".word 0xe7fedef0 = udf #60896 ; 0xede0".
 ; ARM32: e7fedef0
 ; ARM32: bl {{.*}} __divsi3
 ; ARM32HWDIV-LABEL: Sdiv
 ; ARM32HWDIV: tst
 ; ARM32HWDIV: bne
 ; ARM32HWDIV: sdiv

 ; MIPS32-LABEL: Sdiv
 ; MIPS32: div zero,{{.*}},[[REG:.*]]
 ; MIPS32: teq [[REG]],zero,0x7
 ; MIPS32: mflo

 define internal i32 @SdivConst(i32 %a) {
 entry:
   %div = sdiv i32 %a, 219
   ret i32 %div
 }
 ; CHECK-LABEL: SdivConst
 ; CHECK: cdq
 ; CHECK: idiv e
 ;
 ; ARM32-LABEL: SdivConst
 ; ARM32-NOT: tst
 ; ARM32: bl {{.*}} __divsi3
 ; ARM32HWDIV-LABEL: SdivConst
 ; ARM32HWDIV-NOT: tst
 ; ARM32HWDIV: sdiv

 ; MIPS32-LABEL: SdivConst
 ; MIPS32: div zero,{{.*}},[[REG:.*]]
 ; MIPS32: teq [[REG]],zero,0x7
 ; MIPS32: mflo

 define internal i32 @Srem(i32 %a, i32 %b) {
 entry:
   %rem = srem i32 %a, %b
   ret i32 %rem
 }
 ; CHECK-LABEL: Srem
 ; CHECK: cdq
 ; CHECK: idiv e
 ;
 ; ARM32-LABEL: Srem
 ; ARM32: tst [[DENOM:r.*]], [[DENOM]]
 ; ARM32: bne
 ; ARM32: bl {{.*}} __modsi3
 ; ARM32HWDIV-LABEL: Srem
 ; ARM32HWDIV: tst
 ; ARM32HWDIV: bne
 ; ARM32HWDIV: sdiv
 ; ARM32HWDIV: mls

 ; MIPS32-LABEL: Srem
 ; MIPS32: div zero,{{.*}},[[REG:.*]]
 ; MIPS32: teq [[REG]],zero,0x7
 ; MIPS32: mfhi

 define internal i32 @Udiv(i32 %a, i32 %b) {
 entry:
   %div = udiv i32 %a, %b
   ret i32 %div
 }
 ; CHECK-LABEL: Udiv
 ; CHECK: div e
 ;
 ; ARM32-LABEL: Udiv
 ; ARM32: tst [[DENOM:r.*]], [[DENOM]]
 ; ARM32: bne
 ; ARM32: bl {{.*}} __udivsi3
 ; ARM32HWDIV-LABEL: Udiv
 ; ARM32HWDIV: tst
 ; ARM32HWDIV: bne
 ; ARM32HWDIV: udiv

 ; MIPS32-LABEL: Udiv
 ; MIPS32: divu zero,{{.*}},[[REG:.*]]
 ; MIPS32: teq [[REG]],zero,0x7
 ; MIPS32: mflo

 define internal i32 @Urem(i32 %a, i32 %b) {
 entry:
   %rem = urem i32 %a, %b
   ret i32 %rem
 }
 ; CHECK-LABEL: Urem
 ; CHECK: div e
 ;
 ; ARM32-LABEL: Urem
 ; ARM32: tst [[DENOM:r.*]], [[DENOM]]
 ; ARM32: bne
 ; ARM32: bl {{.*}} __umodsi3
 ; ARM32HWDIV-LABEL: Urem
 ; ARM32HWDIV: tst
 ; ARM32HWDIV: bne
 ; ARM32HWDIV: udiv
 ; ARM32HWDIV: mls

 ; MIPS32-LABEL: Urem
 ; MIPS32: divu zero,{{.*}},[[REG:.*]]
 ; MIPS32: teq [[REG]],zero,0x7
 ; MIPS32: mfhi

 ; The following tests check that shift instructions don't try to use a
 ; ConstantRelocatable as an immediate operand.

 @G = internal global [4 x i8] zeroinitializer, align 4

 define internal i32 @ShlReloc(i32 %a) {
 entry:
   %opnd = ptrtoint [4 x i8]* @G to i32
   %result = shl i32 %a, %opnd
   ret i32 %result
 }
 ; CHECK-LABEL: ShlReloc
 ; CHECK: shl {{.*}},cl

 ; MIPS32-LABEL: ShlReloc
 ; MIPS32: lui [[REG:.*]],{{.*}} R_MIPS_HI16 G
 ; MIPS32: addiu [[REG]],[[REG]],{{.*}} R_MIPS_LO16 G
 ; MIPS32: sllv {{.*}},{{.*}},[[REG]]

 define internal i32 @LshrReloc(i32 %a) {
 entry:
   %opnd = ptrtoint [4 x i8]* @G to i32
   %result = lshr i32 %a, %opnd
   ret i32 %result
 }
 ; CHECK-LABEL: LshrReloc
 ; CHECK: shr {{.*}},cl

 ; MIPS32-LABEL: LshrReloc
 ; MIPS32: lui [[REG:.*]],{{.*}} R_MIPS_HI16 G
 ; MIPS32: addiu [[REG]],[[REG]],{{.*}} R_MIPS_LO16 G
 ; MIPS32: srlv {{.*}},{{.*}},[[REG]]

 define internal i32 @AshrReloc(i32 %a) {
 entry:
   %opnd = ptrtoint [4 x i8]* @G to i32
   %result = ashr i32 %a, %opnd
   ret i32 %result
 }
 ; CHECK-LABEL: AshrReloc
 ; CHECK: sar {{.*}},cl

 ; MIPS32-LABEL: AshrReloc
 ; MIPS32: lui [[REG:.*]],{{.*}} R_MIPS_HI16 G
 ; MIPS32: addiu [[REG]],[[REG]],{{.*}} R_MIPS_LO16 G
 ; MIPS32: srav {{.*}},{{.*}},[[REG]]
	; Assembly test for simple arithmetic operations.

	; 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_ARM32 \
	; RUN: --command %p2i --filetype=obj --disassemble --target arm32 \
	; RUN: -i %s --args -O2 \
	; RUN: \| %if --need=target_ARM32 \
	; RUN: --command FileCheck --check-prefix ARM32 --check-prefix ARM-OPT2 %s
	; RUN: %if --need=target_ARM32 \
	; RUN: --command %p2i --filetype=obj --disassemble --target arm32 \
	; RUN: -i %s --args -O2 --mattr=hwdiv-arm \
	; RUN: \| %if --need=target_ARM32 \
	; RUN: --command FileCheck --check-prefix ARM32HWDIV %s
	; RUN: %if --need=target_ARM32 \
	; RUN: --command %p2i --filetype=obj --disassemble --target arm32 \
	; RUN: -i %s --args -Om1 \
	; RUN: \| %if --need=target_ARM32 \
	; RUN: --command FileCheck --check-prefix ARM32 --check-prefix ARM32-OPTM1 %s
	;
	; RUN: %if --need=target_MIPS32 --need=allow_dump \
	; RUN: --command %p2i --filetype=asm --assemble --disassemble --target mips32\
	; RUN: -i %s --args -O2 \
	; RUN: \| %if --need=target_MIPS32 --need=allow_dump \
	; RUN: --command FileCheck --check-prefix MIPS32 %s

	; RUN: %if --need=target_MIPS32 --need=allow_dump \
	; RUN: --command %p2i --filetype=asm --assemble --disassemble --target mips32\
	; RUN: -i %s --args -Om1 \
	; RUN: \| %if --need=target_MIPS32 --need=allow_dump \
	; RUN: --command FileCheck --check-prefix MIPS32 %s

	define internal i32 @Add(i32 %a, i32 %b) {
	entry:
	%add = add i32 %b, %a
	ret i32 %add
	}
	; CHECK-LABEL: Add
	; CHECK: add e
	; ARM32-LABEL: Add
	; ARM32: add r
	; MIPS32-LABEL: Add
	; MIPS32: add

	define internal i32 @And(i32 %a, i32 %b) {
	entry:
	%and = and i32 %b, %a
	ret i32 %and
	}
	; CHECK-LABEL: And
	; CHECK: and e
	; ARM32-LABEL: And
	; ARM32: and r
	; MIPS32-LABEL: And
	; MIPS32: and

	define internal i32 @Or(i32 %a, i32 %b) {
	entry:
	%or = or i32 %b, %a
	ret i32 %or
	}
	; CHECK-LABEL: Or
	; CHECK: or e
	; ARM32-LABEL: Or
	; ARM32: orr r
	; MIPS32-LABEL: Or
	; MIPS32: or

	define internal i32 @Xor(i32 %a, i32 %b) {
	entry:
	%xor = xor i32 %b, %a
	ret i32 %xor
	}
	; CHECK-LABEL: Xor
	; CHECK: xor e
	; ARM32-LABEL: Xor
	; ARM32: eor r
	; MIPS32-LABEL: Xor
	; MIPS32: xor

	define internal i32 @Sub(i32 %a, i32 %b) {
	entry:
	%sub = sub i32 %a, %b
	ret i32 %sub
	}
	; CHECK-LABEL: Sub
	; CHECK: sub e
	; ARM32-LABEL: Sub
	; ARM32: sub r
	; MIPS32-LABEL: Sub
	; MIPS32: sub

	define internal i32 @Mul(i32 %a, i32 %b) {
	entry:
	%mul = mul i32 %b, %a
	ret i32 %mul
	}
	; CHECK-LABEL: Mul
	; CHECK: imul e
	; ARM32-LABEL: Mul
	; ARM32: mul r
	; MIPS32-LABEL: Mul
	; MIPS32: mul

	; Check for a valid ARM mul instruction where operands have to be registers.
	; On the other hand x86-32 does allow an immediate.
	define internal i32 @MulImm(i32 %a, i32 %b) {
	entry:
	%mul = mul i32 %a, 99
	ret i32 %mul
	}
	; CHECK-LABEL: MulImm
	; CHECK: imul e{{.}},e{{.}},0x63
	; ARM32-LABEL: MulImm
	; ARM32-OPTM1: mov {{.*}}, #99
	; ARM32-OPTM1: mul r{{.}}, r{{.}}, r{{.*}}
	; ARM32-OPT2: rsb [[T:r[0-9]+]], [[S:r[0-9]+]], [[S]], lsl #2
	; ARM32-OPT2-DAG: add [[T]], [[T]], [[S]], lsl #7
	; ARM32-OPT2-DAG: sub [[T]], [[T]], [[S]], lsl #5
	; MIPS32-LABEL: MulImm
	; MIPS32: mul

	; Check for a valid addressing mode in the x86-32 mul instruction when
	; the second source operand is an immediate.
	define internal i64 @MulImm64(i64 %a) {
	entry:
	%mul = mul i64 %a, 99
	ret i64 %mul
	}
	; NOTE: the lowering is currently a bit inefficient for small 64-bit constants.
	; The top bits of the immediate are 0, but the instructions modeling that
	; multiply by 0 are not eliminated (see expanded 64-bit ARM lowering).
	; CHECK-LABEL: MulImm64
	; CHECK: mov {{.*}},0x63
	; CHECK: mov {{.*}},0x0
	; CHECK-NOT: mul {{[0-9]+}}
	;
	; ARM32-LABEL: MulImm64
	; ARM32: mov {{.*}}, #99
	; ARM32: mov {{.*}}, #0
	; ARM32: mul r
	; ARM32: mla r
	; ARM32: umull r
	; ARM32: add r

	; MIPS32-LABEL: MulImm64

	define internal i32 @Sdiv(i32 %a, i32 %b) {
	entry:
	%div = sdiv i32 %a, %b
	ret i32 %div
	}
	; CHECK-LABEL: Sdiv
	; CHECK: cdq
	; CHECK: idiv e
	;
	; ARM32-LABEL: Sdiv
	; ARM32: tst [[DENOM:r.*]], [[DENOM]]
	; ARM32: bne
	; The following instruction is ".word 0xe7fedef0 = udf #60896 ; 0xede0".
	; ARM32: e7fedef0
	; ARM32: bl {{.*}} __divsi3
	; ARM32HWDIV-LABEL: Sdiv
	; ARM32HWDIV: tst
	; ARM32HWDIV: bne
	; ARM32HWDIV: sdiv

	; MIPS32-LABEL: Sdiv
	; MIPS32: div zero,{{.}},[[REG:.]]
	; MIPS32: teq [[REG]],zero,0x7
	; MIPS32: mflo

	define internal i32 @SdivConst(i32 %a) {
	entry:
	%div = sdiv i32 %a, 219
	ret i32 %div
	}
	; CHECK-LABEL: SdivConst
	; CHECK: cdq
	; CHECK: idiv e
	;
	; ARM32-LABEL: SdivConst
	; ARM32-NOT: tst
	; ARM32: bl {{.*}} __divsi3
	; ARM32HWDIV-LABEL: SdivConst
	; ARM32HWDIV-NOT: tst
	; ARM32HWDIV: sdiv

	; MIPS32-LABEL: SdivConst
	; MIPS32: div zero,{{.}},[[REG:.]]
	; MIPS32: teq [[REG]],zero,0x7
	; MIPS32: mflo

	define internal i32 @Srem(i32 %a, i32 %b) {
	entry:
	%rem = srem i32 %a, %b
	ret i32 %rem
	}
	; CHECK-LABEL: Srem
	; CHECK: cdq
	; CHECK: idiv e
	;
	; ARM32-LABEL: Srem
	; ARM32: tst [[DENOM:r.*]], [[DENOM]]
	; ARM32: bne
	; ARM32: bl {{.*}} __modsi3
	; ARM32HWDIV-LABEL: Srem
	; ARM32HWDIV: tst
	; ARM32HWDIV: bne
	; ARM32HWDIV: sdiv
	; ARM32HWDIV: mls

	; MIPS32-LABEL: Srem
	; MIPS32: div zero,{{.}},[[REG:.]]
	; MIPS32: teq [[REG]],zero,0x7
	; MIPS32: mfhi

	define internal i32 @Udiv(i32 %a, i32 %b) {
	entry:
	%div = udiv i32 %a, %b
	ret i32 %div
	}
	; CHECK-LABEL: Udiv
	; CHECK: div e
	;
	; ARM32-LABEL: Udiv
	; ARM32: tst [[DENOM:r.*]], [[DENOM]]
	; ARM32: bne
	; ARM32: bl {{.*}} __udivsi3
	; ARM32HWDIV-LABEL: Udiv
	; ARM32HWDIV: tst
	; ARM32HWDIV: bne
	; ARM32HWDIV: udiv

	; MIPS32-LABEL: Udiv
	; MIPS32: divu zero,{{.}},[[REG:.]]
	; MIPS32: teq [[REG]],zero,0x7
	; MIPS32: mflo

	define internal i32 @Urem(i32 %a, i32 %b) {
	entry:
	%rem = urem i32 %a, %b
	ret i32 %rem
	}
	; CHECK-LABEL: Urem
	; CHECK: div e
	;
	; ARM32-LABEL: Urem
	; ARM32: tst [[DENOM:r.*]], [[DENOM]]
	; ARM32: bne
	; ARM32: bl {{.*}} __umodsi3
	; ARM32HWDIV-LABEL: Urem
	; ARM32HWDIV: tst
	; ARM32HWDIV: bne
	; ARM32HWDIV: udiv
	; ARM32HWDIV: mls

	; MIPS32-LABEL: Urem
	; MIPS32: divu zero,{{.}},[[REG:.]]
	; MIPS32: teq [[REG]],zero,0x7
	; MIPS32: mfhi

	; The following tests check that shift instructions don't try to use a
	; ConstantRelocatable as an immediate operand.

	@G = internal global [4 x i8] zeroinitializer, align 4

	define internal i32 @ShlReloc(i32 %a) {
	entry:
	%opnd = ptrtoint [4 x i8]* @G to i32
	%result = shl i32 %a, %opnd
	ret i32 %result
	}
	; CHECK-LABEL: ShlReloc
	; CHECK: shl {{.*}},cl

	; MIPS32-LABEL: ShlReloc
	; MIPS32: lui [[REG:.]],{{.}} R_MIPS_HI16 G
	; MIPS32: addiu [[REG]],[[REG]],{{.*}} R_MIPS_LO16 G
	; MIPS32: sllv {{.}},{{.}},[[REG]]

	define internal i32 @LshrReloc(i32 %a) {
	entry:
	%opnd = ptrtoint [4 x i8]* @G to i32
	%result = lshr i32 %a, %opnd
	ret i32 %result
	}
	; CHECK-LABEL: LshrReloc
	; CHECK: shr {{.*}},cl

	; MIPS32-LABEL: LshrReloc
	; MIPS32: lui [[REG:.]],{{.}} R_MIPS_HI16 G
	; MIPS32: addiu [[REG]],[[REG]],{{.*}} R_MIPS_LO16 G
	; MIPS32: srlv {{.}},{{.}},[[REG]]

	define internal i32 @AshrReloc(i32 %a) {
	entry:
	%opnd = ptrtoint [4 x i8]* @G to i32
	%result = ashr i32 %a, %opnd
	ret i32 %result
	}
	; CHECK-LABEL: AshrReloc
	; CHECK: sar {{.*}},cl

	; MIPS32-LABEL: AshrReloc
	; MIPS32: lui [[REG:.]],{{.}} R_MIPS_HI16 G
	; MIPS32: addiu [[REG]],[[REG]],{{.*}} R_MIPS_LO16 G
	; MIPS32: srav {{.}},{{.}},[[REG]]