third_party/subzero/tests_lit/assembler/arm32/push-pop.ll - SwiftShader - Git at Google

 ; Show that we know how to translate push and pop.
 ; TODO(kschimpf) Translate pop instructions.

 ; NOTE: We use -O2 to get rid of memory stores.

 ; REQUIRES: allow_dump

 ; Compile using standalone assembler.
 ; RUN: %p2i --filetype=asm -i %s --target=arm32 --args -O2 -allow-extern \
 ; RUN:   | FileCheck %s --check-prefix=ASM

 ; Show bytes in assembled standalone code.
 ; RUN: %p2i --filetype=asm -i %s --target=arm32 --assemble --disassemble \
 ; RUN:   --args -O2 -allow-extern | FileCheck %s --check-prefix=DIS

 ; Compile using integrated assembler.
 ; RUN: %p2i --filetype=iasm -i %s --target=arm32 --args -O2 \
 ; RUN:   -allow-extern | FileCheck %s --check-prefix=IASM

 ; Show bytes in assembled integrated code.
 ; RUN: %p2i --filetype=iasm -i %s --target=arm32 --assemble --disassemble \
 ; RUN:   --args -O2 -allow-extern | FileCheck %s --check-prefix=DIS

 declare external void @DoSomething()

 define internal void @SinglePushPop() {
   call void @DoSomething();
   ret void
 }

 ; ASM-LABEL:SinglePushPop:
 ; ASM-NEXT:.LSinglePushPop$__0:
 ; ASM-NEXT:    push    {lr}
 ; ASM-NEXT:    sub     sp, sp, #12
 ; ASM-NEXT:    bl      DoSomething
 ; ASM-NEXT:    add     sp, sp, #12
 ; ASM-NEXT:    pop     {lr}
 ; ASM-NEXT:     # lr = def.pseudo
 ; ASM-NEXT:    bx      lr

 ; DIS-LABEL:00000000 <SinglePushPop>:
 ; DIS-NEXT:   0:        e52de004
 ; DIS-NEXT:   4:        e24dd00c
 ; DIS-NEXT:   8:        ebfffffe
 ; DIS-NEXT:   c:        e28dd00c
 ; DIS-NEXT:  10:        e49de004
 ; DIS-NEXT:  14:        e12fff1e

 ; IASM-LABEL:SinglePushPop:
 ; IASM-NEXT:.LSinglePushPop$__0:
 ; IASM-NEXT:    .byte 0x4
 ; IASM-NEXT:    .byte 0xe0
 ; IASM-NEXT:    .byte 0x2d
 ; IASM-NEXT:    .byte 0xe5

 ; IASM-NEXT:    .byte 0xc
 ; IASM-NEXT:    .byte 0xd0
 ; IASM-NEXT:    .byte 0x4d
 ; IASM-NEXT:    .byte 0xe2
 ; IASM-NEXT:    bl      DoSomething     @ .word ebfffffe
 ; IASM-NEXT:    .byte 0xc
 ; IASM-NEXT:    .byte 0xd0
 ; IASM-NEXT:    .byte 0x8d
 ; IASM-NEXT:    .byte 0xe2

 ; IASM-NEXT:    .byte 0x4
 ; IASM-NEXT:    .byte 0xe0
 ; IASM-NEXT:    .byte 0x9d
 ; IASM-NEXT:    .byte 0xe4

 ; IASM:         .byte 0x1e
 ; IASM-NEXT:    .byte 0xff
 ; IASM-NEXT:    .byte 0x2f
 ; IASM-NEXT:    .byte 0xe1

 ; This test is based on taking advantage of the over-eager -O2
 ; register allocator that puts V1 and V2 into callee-save registers,
 ; since the call instruction kills the scratch registers. This
 ; requires the callee-save registers to be pushed/popped in the
 ; prolog/epilog.
 define internal i32 @MultPushPop(i32 %v1, i32 %v2) {
   call void @DoSomething();
   %v3 = add i32 %v1, %v2
   ret i32 %v3
 }

 ; ASM-LABEL:MultPushPop:
 ; ASM-NEXT:.LMultPushPop$__0:
 ; ASM-NEXT:     push    {r4, r5, lr}
 ; ASM-NEXT:     sub     sp, sp, #4
 ; ASM-NEXT:     mov     r4, r0
 ; ASM-NEXT:     mov     r5, r1
 ; ASM-NEXT:     bl      DoSomething
 ; ASM-NEXT:     add     r4, r4, r5
 ; ASM-NEXT:     mov     r0, r4
 ; ASM-NEXT:     add     sp, sp, #4
 ; ASM-NEXT:     pop     {r4, r5, lr}
 ; ASM-NEXT:     # r4 = def.pseudo
 ; ASM-NEXT:     # r5 = def.pseudo
 ; ASM-NEXT:     # lr = def.pseudo
 ; ASM-NEXT:     bx      lr

 ; DIS-LABEL:00000020 <MultPushPop>:
 ; DIS-NEXT:  20:        e92d4030
 ; DIS-NEXT:  24:        e24dd004
 ; DIS-NEXT:  28:        e1a04000
 ; DIS-NEXT:  2c:        e1a05001
 ; DIS-NEXT:  30:        ebfffffe
 ; DIS-NEXT:  34:        e0844005
 ; DIS-NEXT:  38:        e1a00004
 ; DIS-NEXT:  3c:        e28dd004
 ; DIS-NEXT:  40:        e8bd4030
 ; DIS-NEXT:  44:        e12fff1e

 ; IASM-LABEL:MultPushPop:
 ; IASM-NEXT:.LMultPushPop$__0:
 ; IASM-NEXT:    .byte 0x30
 ; IASM-NEXT:    .byte 0x40
 ; IASM-NEXT:    .byte 0x2d
 ; IASM-NEXT:    .byte 0xe9

 ; IASM-NEXT:    .byte 0x4
 ; IASM-NEXT:    .byte 0xd0
 ; IASM-NEXT:    .byte 0x4d
 ; IASM-NEXT:    .byte 0xe2

 ; IASM-NEXT:    .byte 0x0
 ; IASM-NEXT:    .byte 0x40
 ; IASM-NEXT:    .byte 0xa0
 ; IASM-NEXT:    .byte 0xe1

 ; IASM-NEXT:    .byte 0x1
 ; IASM-NEXT:    .byte 0x50
 ; IASM-NEXT:    .byte 0xa0
 ; IASM-NEXT:    .byte 0xe1

 ; IASM-NEXT:    bl      DoSomething     @ .word ebfffffe
 ; IASM-NEXT:    .byte 0x5
 ; IASM-NEXT:    .byte 0x40
 ; IASM-NEXT:    .byte 0x84
 ; IASM-NEXT:    .byte 0xe0

 ; IASM-NEXT:    .byte 0x4
 ; IASM-NEXT:    .byte 0x0
 ; IASM-NEXT:    .byte 0xa0
 ; IASM-NEXT:    .byte 0xe1

 ; IASM-NEXT:    .byte 0x4
 ; IASM-NEXT:    .byte 0xd0
 ; IASM-NEXT:    .byte 0x8d
 ; IASM-NEXT:    .byte 0xe2

 ; IASM-NEXT:    .byte 0x30
 ; IASM-NEXT:    .byte 0x40
 ; IASM-NEXT:    .byte 0xbd
 ; IASM-NEXT:    .byte 0xe8

 ; IASM:         .byte 0x1e
 ; IASM-NEXT:    .byte 0xff
 ; IASM-NEXT:    .byte 0x2f
 ; IASM-NEXT:    .byte 0xe1
	; Show that we know how to translate push and pop.
	; TODO(kschimpf) Translate pop instructions.

	; NOTE: We use -O2 to get rid of memory stores.

	; REQUIRES: allow_dump

	; Compile using standalone assembler.
	; RUN: %p2i --filetype=asm -i %s --target=arm32 --args -O2 -allow-extern \
	; RUN: \| FileCheck %s --check-prefix=ASM

	; Show bytes in assembled standalone code.
	; RUN: %p2i --filetype=asm -i %s --target=arm32 --assemble --disassemble \
	; RUN: --args -O2 -allow-extern \| FileCheck %s --check-prefix=DIS

	; Compile using integrated assembler.
	; RUN: %p2i --filetype=iasm -i %s --target=arm32 --args -O2 \
	; RUN: -allow-extern \| FileCheck %s --check-prefix=IASM

	; Show bytes in assembled integrated code.
	; RUN: %p2i --filetype=iasm -i %s --target=arm32 --assemble --disassemble \
	; RUN: --args -O2 -allow-extern \| FileCheck %s --check-prefix=DIS

	declare external void @DoSomething()

	define internal void @SinglePushPop() {
	call void @DoSomething();
	ret void
	}

	; ASM-LABEL:SinglePushPop:
	; ASM-NEXT:.LSinglePushPop$__0:
	; ASM-NEXT: push {lr}
	; ASM-NEXT: sub sp, sp, #12
	; ASM-NEXT: bl DoSomething
	; ASM-NEXT: add sp, sp, #12
	; ASM-NEXT: pop {lr}
	; ASM-NEXT: # lr = def.pseudo
	; ASM-NEXT: bx lr

	; DIS-LABEL:00000000 <SinglePushPop>:
	; DIS-NEXT: 0: e52de004
	; DIS-NEXT: 4: e24dd00c
	; DIS-NEXT: 8: ebfffffe
	; DIS-NEXT: c: e28dd00c
	; DIS-NEXT: 10: e49de004
	; DIS-NEXT: 14: e12fff1e

	; IASM-LABEL:SinglePushPop:
	; IASM-NEXT:.LSinglePushPop$__0:
	; IASM-NEXT: .byte 0x4
	; IASM-NEXT: .byte 0xe0
	; IASM-NEXT: .byte 0x2d
	; IASM-NEXT: .byte 0xe5

	; IASM-NEXT: .byte 0xc
	; IASM-NEXT: .byte 0xd0
	; IASM-NEXT: .byte 0x4d
	; IASM-NEXT: .byte 0xe2
	; IASM-NEXT: bl DoSomething @ .word ebfffffe
	; IASM-NEXT: .byte 0xc
	; IASM-NEXT: .byte 0xd0
	; IASM-NEXT: .byte 0x8d
	; IASM-NEXT: .byte 0xe2

	; IASM-NEXT: .byte 0x4
	; IASM-NEXT: .byte 0xe0
	; IASM-NEXT: .byte 0x9d
	; IASM-NEXT: .byte 0xe4

	; IASM: .byte 0x1e
	; IASM-NEXT: .byte 0xff
	; IASM-NEXT: .byte 0x2f
	; IASM-NEXT: .byte 0xe1

	; This test is based on taking advantage of the over-eager -O2
	; register allocator that puts V1 and V2 into callee-save registers,
	; since the call instruction kills the scratch registers. This
	; requires the callee-save registers to be pushed/popped in the
	; prolog/epilog.
	define internal i32 @MultPushPop(i32 %v1, i32 %v2) {
	call void @DoSomething();
	%v3 = add i32 %v1, %v2
	ret i32 %v3
	}

	; ASM-LABEL:MultPushPop:
	; ASM-NEXT:.LMultPushPop$__0:
	; ASM-NEXT: push {r4, r5, lr}
	; ASM-NEXT: sub sp, sp, #4
	; ASM-NEXT: mov r4, r0
	; ASM-NEXT: mov r5, r1
	; ASM-NEXT: bl DoSomething
	; ASM-NEXT: add r4, r4, r5
	; ASM-NEXT: mov r0, r4
	; ASM-NEXT: add sp, sp, #4
	; ASM-NEXT: pop {r4, r5, lr}
	; ASM-NEXT: # r4 = def.pseudo
	; ASM-NEXT: # r5 = def.pseudo
	; ASM-NEXT: # lr = def.pseudo
	; ASM-NEXT: bx lr

	; DIS-LABEL:00000020 <MultPushPop>:
	; DIS-NEXT: 20: e92d4030
	; DIS-NEXT: 24: e24dd004
	; DIS-NEXT: 28: e1a04000
	; DIS-NEXT: 2c: e1a05001
	; DIS-NEXT: 30: ebfffffe
	; DIS-NEXT: 34: e0844005
	; DIS-NEXT: 38: e1a00004
	; DIS-NEXT: 3c: e28dd004
	; DIS-NEXT: 40: e8bd4030
	; DIS-NEXT: 44: e12fff1e

	; IASM-LABEL:MultPushPop:
	; IASM-NEXT:.LMultPushPop$__0:
	; IASM-NEXT: .byte 0x30
	; IASM-NEXT: .byte 0x40
	; IASM-NEXT: .byte 0x2d
	; IASM-NEXT: .byte 0xe9

	; IASM-NEXT: .byte 0x4
	; IASM-NEXT: .byte 0xd0
	; IASM-NEXT: .byte 0x4d
	; IASM-NEXT: .byte 0xe2

	; IASM-NEXT: .byte 0x0
	; IASM-NEXT: .byte 0x40
	; IASM-NEXT: .byte 0xa0
	; IASM-NEXT: .byte 0xe1

	; IASM-NEXT: .byte 0x1
	; IASM-NEXT: .byte 0x50
	; IASM-NEXT: .byte 0xa0
	; IASM-NEXT: .byte 0xe1

	; IASM-NEXT: bl DoSomething @ .word ebfffffe
	; IASM-NEXT: .byte 0x5
	; IASM-NEXT: .byte 0x40
	; IASM-NEXT: .byte 0x84
	; IASM-NEXT: .byte 0xe0

	; IASM-NEXT: .byte 0x4
	; IASM-NEXT: .byte 0x0
	; IASM-NEXT: .byte 0xa0
	; IASM-NEXT: .byte 0xe1

	; IASM-NEXT: .byte 0x4
	; IASM-NEXT: .byte 0xd0
	; IASM-NEXT: .byte 0x8d
	; IASM-NEXT: .byte 0xe2

	; IASM-NEXT: .byte 0x30
	; IASM-NEXT: .byte 0x40
	; IASM-NEXT: .byte 0xbd
	; IASM-NEXT: .byte 0xe8

	; IASM: .byte 0x1e
	; IASM-NEXT: .byte 0xff
	; IASM-NEXT: .byte 0x2f
	; IASM-NEXT: .byte 0xe1