test/Transforms/LoopUnroll/revisit.ll - llvm-project/llvm - Git at Google

 ; This test checks that nested loops are revisited in various scenarios when
 ; unrolling. Note that if we ever start doing outer loop peeling a test case
 ; for that should be added here that will look essentially like a hybrid of the
 ; current two cases.
 ;
 ; RUN: opt < %s -disable-output -debug-pass-manager 2>&1 \
 ; RUN:     -passes='require<opt-remark-emit>,loop(loop-unroll-full)' \
 ; RUN:     | FileCheck %s
 ;
 ; Also run in a special mode that visits children.
 ; RUN: opt < %s -disable-output -debug-pass-manager -unroll-revisit-child-loops 2>&1 \
 ; RUN:     -passes='require<opt-remark-emit>,loop(loop-unroll-full)' \
 ; RUN:     | FileCheck %s --check-prefixes=CHECK,CHECK-CHILDREN

 ; Basic test is fully unrolled and we revisit the post-unroll new sibling
 ; loops, including the ones that used to be child loops.
 define void @full_unroll(i1* %ptr) {
 ; CHECK-LABEL: OptimizationRemarkEmitterAnalysis on full_unroll
 ; CHECK-NOT: LoopFullUnrollPass

 entry:
   br label %l0

 l0:
   %cond.0 = load volatile i1, i1* %ptr
   br i1 %cond.0, label %l0.0.ph, label %exit

 l0.0.ph:
   br label %l0.0

 l0.0:
   %iv = phi i32 [ %iv.next, %l0.0.latch ], [ 0, %l0.0.ph ]
   %iv.next = add i32 %iv, 1
   br label %l0.0.0.ph

 l0.0.0.ph:
   br label %l0.0.0

 l0.0.0:
   %cond.0.0.0 = load volatile i1, i1* %ptr
   br i1 %cond.0.0.0, label %l0.0.0, label %l0.0.1.ph
 ; CHECK: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.0<header>
 ; CHECK-NOT: LoopFullUnrollPass

 l0.0.1.ph:
   br label %l0.0.1

 l0.0.1:
   %cond.0.0.1 = load volatile i1, i1* %ptr
   br i1 %cond.0.0.1, label %l0.0.1, label %l0.0.latch
 ; CHECK: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.1<header>
 ; CHECK-NOT: LoopFullUnrollPass

 l0.0.latch:
   %cmp = icmp slt i32 %iv.next, 2
   br i1 %cmp, label %l0.0, label %l0.latch
 ; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0
 ; CHECK-NOT: LoopFullUnrollPass
 ;
 ; Unrolling occurs, so we visit what were the inner loops twice over. First we
 ; visit their clones, and then we visit the original loops re-parented.
 ; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.1.1<header>
 ; CHECK-NOT: LoopFullUnrollPass
 ; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.0.1<header>
 ; CHECK-NOT: LoopFullUnrollPass
 ; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.1<header>
 ; CHECK-NOT: LoopFullUnrollPass
 ; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.0<header>
 ; CHECK-NOT: LoopFullUnrollPass

 l0.latch:
   br label %l0
 ; CHECK: LoopFullUnrollPass on Loop at depth 1 containing: %l0<header>
 ; CHECK-NOT: LoopFullUnrollPass

 exit:
   ret void
 }

 ; Now we test forced runtime partial unrolling with metadata. Here we end up
 ; duplicating child loops without changing their structure and so they aren't by
 ; default visited, but will be visited with a special parameter.
 define void @partial_unroll(i32 %count, i1* %ptr) {
 ; CHECK-LABEL: OptimizationRemarkEmitterAnalysis on partial_unroll
 ; CHECK-NOT: LoopFullUnrollPass

 entry:
   br label %l0

 l0:
   %cond.0 = load volatile i1, i1* %ptr
   br i1 %cond.0, label %l0.0.ph, label %exit

 l0.0.ph:
   br label %l0.0

 l0.0:
   %iv = phi i32 [ %iv.next, %l0.0.latch ], [ 0, %l0.0.ph ]
   %iv.next = add i32 %iv, 1
   br label %l0.0.0.ph

 l0.0.0.ph:
   br label %l0.0.0

 l0.0.0:
   %cond.0.0.0 = load volatile i1, i1* %ptr
   br i1 %cond.0.0.0, label %l0.0.0, label %l0.0.1.ph
 ; CHECK: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.0<header>
 ; CHECK-NOT: LoopFullUnrollPass

 l0.0.1.ph:
   br label %l0.0.1

 l0.0.1:
   %cond.0.0.1 = load volatile i1, i1* %ptr
   br i1 %cond.0.0.1, label %l0.0.1, label %l0.0.latch
 ; CHECK: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.1<header>
 ; CHECK-NOT: LoopFullUnrollPass

 l0.0.latch:
   %cmp = icmp slt i32 %iv.next, %count
   br i1 %cmp, label %l0.0, label %l0.latch, !llvm.loop !1
 ; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0
 ; CHECK-NOT: LoopFullUnrollPass
 ;
 ; Partial unrolling occurs which introduces both new child loops and new sibling
 ; loops. We only visit the child loops in a special mode, not by default.
 ; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.0<header>
 ; CHECK-CHILDREN-NOT: LoopFullUnrollPass
 ; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.1<header>
 ; CHECK-CHILDREN-NOT: LoopFullUnrollPass
 ; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.0.1<header>
 ; CHECK-CHILDREN-NOT: LoopFullUnrollPass
 ; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.1.1<header>
 ; CHECK-CHILDREN-NOT: LoopFullUnrollPass
 ;
 ; When we revisit children, we also revisit the current loop.
 ; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0<header>
 ; CHECK-CHILDREN-NOT: LoopFullUnrollPass
 ;
 ; Revisit the children of the outer loop that are part of the epilogue.
 ;
 ; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.0.epil<header>
 ; CHECK-NOT: LoopFullUnrollPass
 ; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.1.epil<header>
 ; CHECK-NOT: LoopFullUnrollPass
 l0.latch:
   br label %l0
 ; CHECK: LoopFullUnrollPass on Loop at depth 1 containing: %l0<header>
 ; CHECK-NOT: LoopFullUnrollPass

 exit:
   ret void
 }
 !1 = !{!1, !2}
 !2 = !{!"llvm.loop.unroll.count", i32 2}
	; This test checks that nested loops are revisited in various scenarios when
	; unrolling. Note that if we ever start doing outer loop peeling a test case
	; for that should be added here that will look essentially like a hybrid of the
	; current two cases.
	;
	; RUN: opt < %s -disable-output -debug-pass-manager 2>&1 \
	; RUN: -passes='require<opt-remark-emit>,loop(loop-unroll-full)' \
	; RUN: \| FileCheck %s
	;
	; Also run in a special mode that visits children.
	; RUN: opt < %s -disable-output -debug-pass-manager -unroll-revisit-child-loops 2>&1 \
	; RUN: -passes='require<opt-remark-emit>,loop(loop-unroll-full)' \
	; RUN: \| FileCheck %s --check-prefixes=CHECK,CHECK-CHILDREN

	; Basic test is fully unrolled and we revisit the post-unroll new sibling
	; loops, including the ones that used to be child loops.
	define void @full_unroll(i1* %ptr) {
	; CHECK-LABEL: OptimizationRemarkEmitterAnalysis on full_unroll
	; CHECK-NOT: LoopFullUnrollPass

	entry:
	br label %l0

	l0:
	%cond.0 = load volatile i1, i1* %ptr
	br i1 %cond.0, label %l0.0.ph, label %exit

	l0.0.ph:
	br label %l0.0

	l0.0:
	%iv = phi i32 [ %iv.next, %l0.0.latch ], [ 0, %l0.0.ph ]
	%iv.next = add i32 %iv, 1
	br label %l0.0.0.ph

	l0.0.0.ph:
	br label %l0.0.0

	l0.0.0:
	%cond.0.0.0 = load volatile i1, i1* %ptr
	br i1 %cond.0.0.0, label %l0.0.0, label %l0.0.1.ph
	; CHECK: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.0<header>
	; CHECK-NOT: LoopFullUnrollPass

	l0.0.1.ph:
	br label %l0.0.1

	l0.0.1:
	%cond.0.0.1 = load volatile i1, i1* %ptr
	br i1 %cond.0.0.1, label %l0.0.1, label %l0.0.latch
	; CHECK: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.1<header>
	; CHECK-NOT: LoopFullUnrollPass

	l0.0.latch:
	%cmp = icmp slt i32 %iv.next, 2
	br i1 %cmp, label %l0.0, label %l0.latch
	; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0
	; CHECK-NOT: LoopFullUnrollPass
	;
	; Unrolling occurs, so we visit what were the inner loops twice over. First we
	; visit their clones, and then we visit the original loops re-parented.
	; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.1.1<header>
	; CHECK-NOT: LoopFullUnrollPass
	; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.0.1<header>
	; CHECK-NOT: LoopFullUnrollPass
	; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.1<header>
	; CHECK-NOT: LoopFullUnrollPass
	; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.0<header>
	; CHECK-NOT: LoopFullUnrollPass

	l0.latch:
	br label %l0
	; CHECK: LoopFullUnrollPass on Loop at depth 1 containing: %l0<header>
	; CHECK-NOT: LoopFullUnrollPass

	exit:
	ret void
	}

	; Now we test forced runtime partial unrolling with metadata. Here we end up
	; duplicating child loops without changing their structure and so they aren't by
	; default visited, but will be visited with a special parameter.
	define void @partial_unroll(i32 %count, i1* %ptr) {
	; CHECK-LABEL: OptimizationRemarkEmitterAnalysis on partial_unroll
	; CHECK-NOT: LoopFullUnrollPass

	entry:
	br label %l0

	l0:
	%cond.0 = load volatile i1, i1* %ptr
	br i1 %cond.0, label %l0.0.ph, label %exit

	l0.0.ph:
	br label %l0.0

	l0.0:
	%iv = phi i32 [ %iv.next, %l0.0.latch ], [ 0, %l0.0.ph ]
	%iv.next = add i32 %iv, 1
	br label %l0.0.0.ph

	l0.0.0.ph:
	br label %l0.0.0

	l0.0.0:
	%cond.0.0.0 = load volatile i1, i1* %ptr
	br i1 %cond.0.0.0, label %l0.0.0, label %l0.0.1.ph
	; CHECK: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.0<header>
	; CHECK-NOT: LoopFullUnrollPass

	l0.0.1.ph:
	br label %l0.0.1

	l0.0.1:
	%cond.0.0.1 = load volatile i1, i1* %ptr
	br i1 %cond.0.0.1, label %l0.0.1, label %l0.0.latch
	; CHECK: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.1<header>
	; CHECK-NOT: LoopFullUnrollPass

	l0.0.latch:
	%cmp = icmp slt i32 %iv.next, %count
	br i1 %cmp, label %l0.0, label %l0.latch, !llvm.loop !1
	; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0
	; CHECK-NOT: LoopFullUnrollPass
	;
	; Partial unrolling occurs which introduces both new child loops and new sibling
	; loops. We only visit the child loops in a special mode, not by default.
	; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.0<header>
	; CHECK-CHILDREN-NOT: LoopFullUnrollPass
	; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.1<header>
	; CHECK-CHILDREN-NOT: LoopFullUnrollPass
	; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.0.1<header>
	; CHECK-CHILDREN-NOT: LoopFullUnrollPass
	; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 3 containing: %l0.0.1.1<header>
	; CHECK-CHILDREN-NOT: LoopFullUnrollPass
	;
	; When we revisit children, we also revisit the current loop.
	; CHECK-CHILDREN: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0<header>
	; CHECK-CHILDREN-NOT: LoopFullUnrollPass
	;
	; Revisit the children of the outer loop that are part of the epilogue.
	;
	; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.0.epil<header>
	; CHECK-NOT: LoopFullUnrollPass
	; CHECK: LoopFullUnrollPass on Loop at depth 2 containing: %l0.0.1.epil<header>
	; CHECK-NOT: LoopFullUnrollPass
	l0.latch:
	br label %l0
	; CHECK: LoopFullUnrollPass on Loop at depth 1 containing: %l0<header>
	; CHECK-NOT: LoopFullUnrollPass

	exit:
	ret void
	}
	!1 = !{!1, !2}
	!2 = !{!"llvm.loop.unroll.count", i32 2}