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

 ; This tests some of the subtleties of Phi lowering.  In particular,
 ; it tests that it does the right thing when it tries to enable
 ; compare/branch fusing.

 ; RUN: %p2i -i %s --filetype=obj --disassemble --args -O2 --phi-edge-split=0 \
 ; RUN:   | FileCheck %s
 ; RUN: %p2i -i %s --filetype=obj --disassemble --args -O2 --phi-edge-split=1 \
 ; RUN:   | FileCheck --check-prefix=SPLIT %s

 define internal i32 @testPhi1(i32 %arg) {
 entry:
   %cmp1 = icmp sgt i32 %arg, 0
   br i1 %cmp1, label %next, label %target
 next:
   br label %target
 target:
   %merge = phi i1 [ %cmp1, %entry ], [ false, %next ]
   %result = zext i1 %merge to i32
   ret i32 %result
 }
 ; Test that compare/branch fusing does not happen, and Phi lowering is
 ; put in the right place.
 ; CHECK-LABEL: testPhi1
 ; CHECK: cmp {{.*}},0x0
 ; CHECK: setg
 ; CHECK: mov [[PHI:.*]],
 ; CHECK: cmp {{.*}},0x0
 ; CHECK: je
 ; CHECK: mov [[PHI]],0x0
 ; CHECK: movzx {{.*}},[[PHI]]

 define internal i32 @testPhi2(i32 %arg) {
 entry:
   %cmp1 = icmp sgt i32 %arg, 0
   br i1 %cmp1, label %next, label %target
 next:
   br label %target
 target:
   %merge = phi i32 [ 12345, %entry ], [ 54321, %next ]
   ret i32 %merge
 }
 ; Test that compare/branch fusing and Phi lowering happens as expected.
 ; CHECK-LABEL: testPhi2
 ; CHECK: mov {{.*}},0x3039
 ; CHECK: cmp {{.*}},0x0
 ; CHECK-NEXT: jle
 ; CHECK: mov [[PHI:.*]],0xd431
 ; CHECK: mov {{.*}},[[PHI]]

 ; Test that address mode inference doesn't extend past
 ; multi-definition, non-SSA Phi temporaries.
 define internal i32 @testPhi3(i32 %arg) {
 entry:
   br label %body
 body:
   %merge = phi i32 [ %arg, %entry ], [ %elt, %body ]
   %interior = add i32 %merge, 1000
   ; Trick to make a basic block local copy of interior for
   ; addressing mode optimization.
   %interior__4 = add i32 %interior, 0
   %__4 = inttoptr i32 %interior__4 to i32*
   %elt = load i32, i32* %__4, align 1
   %cmp = icmp eq i32 %elt, 0
   br i1 %cmp, label %exit, label %body
 exit:
   ; Same trick (making a basic block local copy).
   %interior__6 = add i32 %interior, 0
   %__6 = inttoptr i32 %interior__6 to i32*
   store i32 %arg, i32* %__6, align 1
   ret i32 %arg
 }
 ; I can't figure out how to reliably test this for correctness, so I
 ; will just include patterns for the entire current O2 sequence.  This
 ; may need to be changed when meaningful optimizations are added.
 ; The key is to avoid the "bad" pattern like this:
 ;
 ; testPhi3:
 ; .LtestPhi3$entry:
 ;         mov     eax, DWORD PTR [esp+4]
 ;         mov     ecx, eax
 ; .LtestPhi3$body:
 ;         mov     ecx, DWORD PTR [ecx+1000]
 ;         cmp     ecx, 0
 ;         jne     .LtestPhi3$body
 ; .LtestPhi3$exit:
 ;         mov     DWORD PTR [ecx+1000], eax
 ;         ret
 ;
 ; This is bad because the final store address is supposed to be the
 ; same as the load address in the loop, but it has clearly been
 ; over-optimized into a null pointer dereference.

 ; CHECK-LABEL: testPhi3
 ; CHECK: push [[EBX:.*]]
 ; CHECK: mov [[EAX:.*]],DWORD PTR [esp
 ; CHECK: mov [[ECX:.*]],[[EAX]]
 ;;; start of loop body
 ; CHECK: mov [[EDX:.*]],[[ECX]]
 ; CHECK: mov {{.*}},DWORD PTR [{{.*}}+0x3e8]
 ; CHECK: cmp {{.*}},0x0
 ; CHECK: jne
 ;;; start of epilog
 ; CHECK: mov DWORD PTR {{.}}[[EDX]]+0x3e8],
 ; CHECK: pop [[EBX]]

 ; Test of "advanced phi lowering" with undef phi arg (integer vector).
 define internal <4 x i32> @test_split_undef_int_vec(<4 x i32> %arg, i32 %cond) {
 entry:
   %cmp = icmp eq i32 %cond, 0
   br i1 %cmp, label %eq, label %exit
 eq:
   br label %exit
 exit:
   %merge = phi <4 x i32> [ %arg, %entry ], [ undef, %eq ]
   ret <4 x i32> %merge
 }
 ; SPLIT-LABEL: test_split_undef_int_vec
 ; SPLIT: pxor

 ; Test of "advanced phi lowering" with undef phi arg (float vector).
 define internal <4 x float> @test_split_undef_float_vec(<4 x float> %arg, i32 %cond) {
 entry:
   %cmp = icmp eq i32 %cond, 0
   br i1 %cmp, label %eq, label %exit
 eq:
   br label %exit
 exit:
   %merge = phi <4 x float> [ %arg, %entry ], [ undef, %eq ]
   ret <4 x float> %merge
 }
 ; SPLIT-LABEL: test_split_undef_float_vec
 ; SPLIT: pxor

 ; Test of "advanced phi lowering" with undef phi arg (integer scalar).
 define internal i32 @test_split_undef_int_scalar(i32 %arg, i32 %cond) {
 entry:
   %cmp = icmp eq i32 %cond, 0
   br i1 %cmp, label %eq, label %exit
 eq:
   br label %exit
 exit:
   %merge = phi i32 [ %arg, %entry ], [ undef, %eq ]
   ret i32 %merge
 }
 ; SPLIT-LABEL: test_split_undef_int_scalar
 ; SPLIT: mov {{.*}},0x0

 ; Test of "advanced phi lowering" with undef phi arg (float scalar).
 define internal float @test_split_undef_float_scalar(float %arg, i32 %cond) {
 entry:
   %cmp = icmp eq i32 %cond, 0
   br i1 %cmp, label %eq, label %exit
 eq:
   br label %exit
 exit:
   %merge = phi float [ %arg, %entry ], [ undef, %eq ]
   ret float %merge
 }
 ; SPLIT-LABEL: test_split_undef_float_scalar
 ; SPLIT: movss {{.*}},DWORD PTR
	; This tests some of the subtleties of Phi lowering. In particular,
	; it tests that it does the right thing when it tries to enable
	; compare/branch fusing.

	; RUN: %p2i -i %s --filetype=obj --disassemble --args -O2 --phi-edge-split=0 \
	; RUN: \| FileCheck %s
	; RUN: %p2i -i %s --filetype=obj --disassemble --args -O2 --phi-edge-split=1 \
	; RUN: \| FileCheck --check-prefix=SPLIT %s

	define internal i32 @testPhi1(i32 %arg) {
	entry:
	%cmp1 = icmp sgt i32 %arg, 0
	br i1 %cmp1, label %next, label %target
	next:
	br label %target
	target:
	%merge = phi i1 [ %cmp1, %entry ], [ false, %next ]
	%result = zext i1 %merge to i32
	ret i32 %result
	}
	; Test that compare/branch fusing does not happen, and Phi lowering is
	; put in the right place.
	; CHECK-LABEL: testPhi1
	; CHECK: cmp {{.*}},0x0
	; CHECK: setg
	; CHECK: mov [[PHI:.*]],
	; CHECK: cmp {{.*}},0x0
	; CHECK: je
	; CHECK: mov [[PHI]],0x0
	; CHECK: movzx {{.*}},[[PHI]]

	define internal i32 @testPhi2(i32 %arg) {
	entry:
	%cmp1 = icmp sgt i32 %arg, 0
	br i1 %cmp1, label %next, label %target
	next:
	br label %target
	target:
	%merge = phi i32 [ 12345, %entry ], [ 54321, %next ]
	ret i32 %merge
	}
	; Test that compare/branch fusing and Phi lowering happens as expected.
	; CHECK-LABEL: testPhi2
	; CHECK: mov {{.*}},0x3039
	; CHECK: cmp {{.*}},0x0
	; CHECK-NEXT: jle
	; CHECK: mov [[PHI:.*]],0xd431
	; CHECK: mov {{.*}},[[PHI]]

	; Test that address mode inference doesn't extend past
	; multi-definition, non-SSA Phi temporaries.
	define internal i32 @testPhi3(i32 %arg) {
	entry:
	br label %body
	body:
	%merge = phi i32 [ %arg, %entry ], [ %elt, %body ]
	%interior = add i32 %merge, 1000
	; Trick to make a basic block local copy of interior for
	; addressing mode optimization.
	%interior__4 = add i32 %interior, 0
	%__4 = inttoptr i32 %interior__4 to i32*
	%elt = load i32, i32* %__4, align 1
	%cmp = icmp eq i32 %elt, 0
	br i1 %cmp, label %exit, label %body
	exit:
	; Same trick (making a basic block local copy).
	%interior__6 = add i32 %interior, 0
	%__6 = inttoptr i32 %interior__6 to i32*
	store i32 %arg, i32* %__6, align 1
	ret i32 %arg
	}
	; I can't figure out how to reliably test this for correctness, so I
	; will just include patterns for the entire current O2 sequence. This
	; may need to be changed when meaningful optimizations are added.
	; The key is to avoid the "bad" pattern like this:
	;
	; testPhi3:
	; .LtestPhi3$entry:
	; mov eax, DWORD PTR [esp+4]
	; mov ecx, eax
	; .LtestPhi3$body:
	; mov ecx, DWORD PTR [ecx+1000]
	; cmp ecx, 0
	; jne .LtestPhi3$body
	; .LtestPhi3$exit:
	; mov DWORD PTR [ecx+1000], eax
	; ret
	;
	; This is bad because the final store address is supposed to be the
	; same as the load address in the loop, but it has clearly been
	; over-optimized into a null pointer dereference.

	; CHECK-LABEL: testPhi3
	; CHECK: push [[EBX:.*]]
	; CHECK: mov [[EAX:.*]],DWORD PTR [esp
	; CHECK: mov [[ECX:.*]],[[EAX]]
	;;; start of loop body
	; CHECK: mov [[EDX:.*]],[[ECX]]
	; CHECK: mov {{.}},DWORD PTR [{{.}}+0x3e8]
	; CHECK: cmp {{.*}},0x0
	; CHECK: jne
	;;; start of epilog
	; CHECK: mov DWORD PTR {{.}}[[EDX]]+0x3e8],
	; CHECK: pop [[EBX]]

	; Test of "advanced phi lowering" with undef phi arg (integer vector).
	define internal <4 x i32> @test_split_undef_int_vec(<4 x i32> %arg, i32 %cond) {
	entry:
	%cmp = icmp eq i32 %cond, 0
	br i1 %cmp, label %eq, label %exit
	eq:
	br label %exit
	exit:
	%merge = phi <4 x i32> [ %arg, %entry ], [ undef, %eq ]
	ret <4 x i32> %merge
	}
	; SPLIT-LABEL: test_split_undef_int_vec
	; SPLIT: pxor

	; Test of "advanced phi lowering" with undef phi arg (float vector).
	define internal <4 x float> @test_split_undef_float_vec(<4 x float> %arg, i32 %cond) {
	entry:
	%cmp = icmp eq i32 %cond, 0
	br i1 %cmp, label %eq, label %exit
	eq:
	br label %exit
	exit:
	%merge = phi <4 x float> [ %arg, %entry ], [ undef, %eq ]
	ret <4 x float> %merge
	}
	; SPLIT-LABEL: test_split_undef_float_vec
	; SPLIT: pxor

	; Test of "advanced phi lowering" with undef phi arg (integer scalar).
	define internal i32 @test_split_undef_int_scalar(i32 %arg, i32 %cond) {
	entry:
	%cmp = icmp eq i32 %cond, 0
	br i1 %cmp, label %eq, label %exit
	eq:
	br label %exit
	exit:
	%merge = phi i32 [ %arg, %entry ], [ undef, %eq ]
	ret i32 %merge
	}
	; SPLIT-LABEL: test_split_undef_int_scalar
	; SPLIT: mov {{.*}},0x0

	; Test of "advanced phi lowering" with undef phi arg (float scalar).
	define internal float @test_split_undef_float_scalar(float %arg, i32 %cond) {
	entry:
	%cmp = icmp eq i32 %cond, 0
	br i1 %cmp, label %eq, label %exit
	eq:
	br label %exit
	exit:
	%merge = phi float [ %arg, %entry ], [ undef, %eq ]
	ret float %merge
	}
	; SPLIT-LABEL: test_split_undef_float_scalar
	; SPLIT: movss {{.*}},DWORD PTR