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

 ; This tries to be a comprehensive test of f32 and f64 call/return ops.
 ; The CHECK lines are only checking for basic instruction patterns
 ; that should be present regardless of the optimization level, so
 ; there are no special OPTM1 match lines.

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

 ; Can't test on ARM yet. Need to use several vpush {contiguous FP regs},
 ; instead of push {any GPR list}.

 define internal i32 @doubleArgs(double %a, i32 %b, double %c) {
 entry:
   ret i32 %b
 }
 ; CHECK-LABEL: doubleArgs
 ; CHECK:      mov eax,DWORD PTR [esp+0xc]
 ; CHECK-NEXT: ret
 ; ARM32-LABEL: doubleArgs
 ; MIPS32-LABEL: doubleArgs
 ; MIPS32: 	move	v0,a2
 ; MIPS32: 	jr	ra

 define internal i32 @floatArgs(float %a, i32 %b, float %c) {
 entry:
   ret i32 %b
 }
 ; CHECK-LABEL: floatArgs
 ; CHECK:      mov eax,DWORD PTR [esp+0x8]
 ; CHECK-NEXT: ret
 ; MIPS32-LABEL: floatArgs
 ; MIPS32: 	move	v0,a1
 ; MIPS32: 	jr	ra

 define internal i32 @passFpArgs(float %a, double %b, float %c, double %d, float %e, double %f) {
 entry:
   %call = call i32 @ignoreFpArgsNoInline(float %a, i32 123, double %b)
   %call1 = call i32 @ignoreFpArgsNoInline(float %c, i32 123, double %d)
   %call2 = call i32 @ignoreFpArgsNoInline(float %e, i32 123, double %f)
   %add = add i32 %call1, %call
   %add3 = add i32 %add, %call2
   ret i32 %add3
 }
 ; CHECK-LABEL: passFpArgs
 ; CHECK: mov DWORD PTR [esp+0x4],0x7b
 ; CHECK: call {{.*}} R_{{.*}} ignoreFpArgsNoInline
 ; CHECK: mov DWORD PTR [esp+0x4],0x7b
 ; CHECK: call {{.*}} R_{{.*}} ignoreFpArgsNoInline
 ; CHECK: mov DWORD PTR [esp+0x4],0x7b
 ; CHECK: call {{.*}} R_{{.*}} ignoreFpArgsNoInline
 ; MIPS32-LABEL: passFpArgs
 ; MIPS32: 	mfc1	a2,$f{{[0-9]+}}
 ; MIPS32: 	mfc1	a3,$f{{[0-9]+}}
 ; MIPS32: 	li	a1,123
 ; MIPS32: 	jal	{{.*}}	ignoreFpArgsNoInline
 ; MIPS32: 	mfc1	a2,$f{{[0-9]+}}
 ; MIPS32: 	mfc1	a3,$f{{[0-9]+}}
 ; MIPS32: 	li	a1,123
 ; MIPS32: 	jal	{{.*}}	ignoreFpArgsNoInline
 ; MIPS32: 	mfc1	a2,$f{{[0-9]+}}
 ; MIPS32: 	mfc1	a3,$f{{[0-9]+}}
 ; MIPS32: 	li	a1,123
 ; MIPS32: 	jal	{{.*}}	ignoreFpArgsNoInline

 declare i32 @ignoreFpArgsNoInline(float %x, i32 %y, double %z)

 define internal i32 @passFpConstArg(float %a, double %b) {
 entry:
   %call = call i32 @ignoreFpArgsNoInline(float %a, i32 123, double 2.340000e+00)
   ret i32 %call
 }
 ; CHECK-LABEL: passFpConstArg
 ; CHECK: mov DWORD PTR [esp+0x4],0x7b
 ; CHECK: call {{.*}} R_{{.*}} ignoreFpArgsNoInline
 ; MIPS32-LABEL: passFpConstArg
 ; MIPS32: 	mfc1	a2,$f{{[0-9]+}}
 ; MIPS32: 	mfc1	a3,$f{{[0-9]+}}
 ; MIPS32: 	li	a1,123
 ; MIPS32: 	jal	{{.*}}	ignoreFpArgsNoInline

 define internal i32 @passFp32ConstArg(float %a) {
 entry:
   %call = call i32 @ignoreFp32ArgsNoInline(float %a, i32 123, float 2.0)
   ret i32 %call
 }
 ; CHECK-LABEL: passFp32ConstArg
 ; CHECK: mov DWORD PTR [esp+0x4],0x7b
 ; CHECK: movss DWORD PTR [esp+0x8]
 ; CHECK: call {{.*}} R_{{.*}} ignoreFp32ArgsNoInline
 ; MIPS32-LABEL: passFp32ConstArg
 ; MIPS32: 	mfc1	a2,$f0
 ; MIPS32: 	li	a1,123
 ; MIPS32: 	jal	{{.*}}	ignoreFp32ArgsNoInline

 declare i32 @ignoreFp32ArgsNoInline(float %x, i32 %y, float %z)

 define internal float @returnFloatArg(float %a) {
 entry:
   ret float %a
 }
 ; CHECK-LABEL: returnFloatArg
 ; CHECK: fld DWORD PTR [esp
 ; MIPS32-LABEL: returnFloatArg
 ; MIPS32: 	mov.s	$f0,$f12
 ; MIPS32: 	jr	ra

 define internal double @returnDoubleArg(double %a) {
 entry:
   ret double %a
 }
 ; CHECK-LABEL: returnDoubleArg
 ; CHECK: fld QWORD PTR [esp
 ; MIPS32-LABEL: returnDoubleArg
 ; MIPS32: 	mov.d	$f0,$f12
 ; MIPS32: 	jr	ra

 define internal float @returnFloatConst() {
 entry:
   ret float 0x3FF3AE1480000000
 }
 ; CHECK-LABEL: returnFloatConst
 ; CHECK: fld
 ; MIPS32-LABEL: returnFloatConst
 ; MIPS32: 	lui	v0,0x0    {{.*}} .L$float$3f9d70a4
 ; MIPS32: 	lwc1	$f0,0(v0) {{.*}} .L$float$3f9d70a4
 ; MIPS32: 	jr	ra

 define internal double @returnDoubleConst() {
 entry:
   ret double 1.230000e+00
 }
 ; CHECK-LABEL: returnDoubleConst
 ; CHECK: fld
 ; MIPS32-LABEL: returnDoubleConst
 ; MIPS32: 	lui	v0,0x0	   {{.*}}  .L$double$3ff3ae147ae147ae
 ; MIPS32: 	ldc1	$f0,0(v0)  {{.*}}  .L$double$3ff3ae147ae147ae
 ; MIPS32: 	jr	ra
	; This tries to be a comprehensive test of f32 and f64 call/return ops.
	; The CHECK lines are only checking for basic instruction patterns
	; that should be present regardless of the optimization level, so
	; there are no special OPTM1 match lines.

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

	; Can't test on ARM yet. Need to use several vpush {contiguous FP regs},
	; instead of push {any GPR list}.

	define internal i32 @doubleArgs(double %a, i32 %b, double %c) {
	entry:
	ret i32 %b
	}
	; CHECK-LABEL: doubleArgs
	; CHECK: mov eax,DWORD PTR [esp+0xc]
	; CHECK-NEXT: ret
	; ARM32-LABEL: doubleArgs
	; MIPS32-LABEL: doubleArgs
	; MIPS32: move v0,a2
	; MIPS32: jr ra

	define internal i32 @floatArgs(float %a, i32 %b, float %c) {
	entry:
	ret i32 %b
	}
	; CHECK-LABEL: floatArgs
	; CHECK: mov eax,DWORD PTR [esp+0x8]
	; CHECK-NEXT: ret
	; MIPS32-LABEL: floatArgs
	; MIPS32: move v0,a1
	; MIPS32: jr ra

	define internal i32 @passFpArgs(float %a, double %b, float %c, double %d, float %e, double %f) {
	entry:
	%call = call i32 @ignoreFpArgsNoInline(float %a, i32 123, double %b)
	%call1 = call i32 @ignoreFpArgsNoInline(float %c, i32 123, double %d)
	%call2 = call i32 @ignoreFpArgsNoInline(float %e, i32 123, double %f)
	%add = add i32 %call1, %call
	%add3 = add i32 %add, %call2
	ret i32 %add3
	}
	; CHECK-LABEL: passFpArgs
	; CHECK: mov DWORD PTR [esp+0x4],0x7b
	; CHECK: call {{.}} R_{{.}} ignoreFpArgsNoInline
	; CHECK: mov DWORD PTR [esp+0x4],0x7b
	; CHECK: call {{.}} R_{{.}} ignoreFpArgsNoInline
	; CHECK: mov DWORD PTR [esp+0x4],0x7b
	; CHECK: call {{.}} R_{{.}} ignoreFpArgsNoInline
	; MIPS32-LABEL: passFpArgs
	; MIPS32: mfc1 a2,$f{{[0-9]+}}
	; MIPS32: mfc1 a3,$f{{[0-9]+}}
	; MIPS32: li a1,123
	; MIPS32: jal {{.*}} ignoreFpArgsNoInline
	; MIPS32: mfc1 a2,$f{{[0-9]+}}
	; MIPS32: mfc1 a3,$f{{[0-9]+}}
	; MIPS32: li a1,123
	; MIPS32: jal {{.*}} ignoreFpArgsNoInline
	; MIPS32: mfc1 a2,$f{{[0-9]+}}
	; MIPS32: mfc1 a3,$f{{[0-9]+}}
	; MIPS32: li a1,123
	; MIPS32: jal {{.*}} ignoreFpArgsNoInline

	declare i32 @ignoreFpArgsNoInline(float %x, i32 %y, double %z)

	define internal i32 @passFpConstArg(float %a, double %b) {
	entry:
	%call = call i32 @ignoreFpArgsNoInline(float %a, i32 123, double 2.340000e+00)
	ret i32 %call
	}
	; CHECK-LABEL: passFpConstArg
	; CHECK: mov DWORD PTR [esp+0x4],0x7b
	; CHECK: call {{.}} R_{{.}} ignoreFpArgsNoInline
	; MIPS32-LABEL: passFpConstArg
	; MIPS32: mfc1 a2,$f{{[0-9]+}}
	; MIPS32: mfc1 a3,$f{{[0-9]+}}
	; MIPS32: li a1,123
	; MIPS32: jal {{.*}} ignoreFpArgsNoInline

	define internal i32 @passFp32ConstArg(float %a) {
	entry:
	%call = call i32 @ignoreFp32ArgsNoInline(float %a, i32 123, float 2.0)
	ret i32 %call
	}
	; CHECK-LABEL: passFp32ConstArg
	; CHECK: mov DWORD PTR [esp+0x4],0x7b
	; CHECK: movss DWORD PTR [esp+0x8]
	; CHECK: call {{.}} R_{{.}} ignoreFp32ArgsNoInline
	; MIPS32-LABEL: passFp32ConstArg
	; MIPS32: mfc1 a2,$f0
	; MIPS32: li a1,123
	; MIPS32: jal {{.*}} ignoreFp32ArgsNoInline

	declare i32 @ignoreFp32ArgsNoInline(float %x, i32 %y, float %z)

	define internal float @returnFloatArg(float %a) {
	entry:
	ret float %a
	}
	; CHECK-LABEL: returnFloatArg
	; CHECK: fld DWORD PTR [esp
	; MIPS32-LABEL: returnFloatArg
	; MIPS32: mov.s $f0,$f12
	; MIPS32: jr ra

	define internal double @returnDoubleArg(double %a) {
	entry:
	ret double %a
	}
	; CHECK-LABEL: returnDoubleArg
	; CHECK: fld QWORD PTR [esp
	; MIPS32-LABEL: returnDoubleArg
	; MIPS32: mov.d $f0,$f12
	; MIPS32: jr ra

	define internal float @returnFloatConst() {
	entry:
	ret float 0x3FF3AE1480000000
	}
	; CHECK-LABEL: returnFloatConst
	; CHECK: fld
	; MIPS32-LABEL: returnFloatConst
	; MIPS32: lui v0,0x0 {{.*}} .L$float$3f9d70a4
	; MIPS32: lwc1 $f0,0(v0) {{.*}} .L$float$3f9d70a4
	; MIPS32: jr ra

	define internal double @returnDoubleConst() {
	entry:
	ret double 1.230000e+00
	}
	; CHECK-LABEL: returnDoubleConst
	; CHECK: fld
	; MIPS32-LABEL: returnDoubleConst
	; MIPS32: lui v0,0x0 {{.*}} .L$double$3ff3ae147ae147ae
	; MIPS32: ldc1 $f0,0(v0) {{.*}} .L$double$3ff3ae147ae147ae
	; MIPS32: jr ra