forked from OSchip/llvm-project
197 lines
6.0 KiB
LLVM
197 lines
6.0 KiB
LLVM
; Test for a subtle bug when computing analyses during inlining and mutating
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; the SCC structure. Without care, this can fail to invalidate analyses.
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;
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; RUN: opt < %s -aa-pipeline= -passes='cgscc(inline,function(verify<domtree>))' -debug-pass-manager -S 2>&1 | FileCheck %s
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; First we check that the passes run in the way we expect. Otherwise this test
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; may stop testing anything.
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;
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; CHECK: Running pass: InlinerPass on (test1_f, test1_g, test1_h)
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; CHECK: Running analysis: DominatorTreeAnalysis on test1_f
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; CHECK: Running analysis: DominatorTreeAnalysis on test1_g
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; CHECK: Invalidating analysis: DominatorTreeAnalysis on test1_f
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; CHECK: Invalidating analysis: LoopAnalysis on test1_f
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; CHECK: Invalidating analysis: BranchProbabilityAnalysis on test1_f
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; CHECK: Invalidating analysis: BlockFrequencyAnalysis on test1_f
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; CHECK: Invalidating analysis: DominatorTreeAnalysis on test1_g
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; CHECK: Invalidating analysis: LoopAnalysis on test1_g
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; CHECK: Invalidating analysis: BranchProbabilityAnalysis on test1_g
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; CHECK: Invalidating analysis: BlockFrequencyAnalysis on test1_g
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; CHECK: Invalidating analysis: DominatorTreeAnalysis on test1_h
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; CHECK: Invalidating analysis: LoopAnalysis on test1_h
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; CHECK: Invalidating analysis: BranchProbabilityAnalysis on test1_h
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; CHECK: Invalidating analysis: BlockFrequencyAnalysis on test1_h
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; CHECK-NOT: Invalidating analysis:
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; CHECK: Running pass: DominatorTreeVerifierPass on test1_g
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; CHECK-NEXT: Running analysis: DominatorTreeAnalysis on test1_g
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; CHECK-NOT: Invalidating analysis:
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; CHECK: Running pass: DominatorTreeVerifierPass on test1_h
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; CHECK-NEXT: Running analysis: DominatorTreeAnalysis on test1_h
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; CHECK-NOT: Invalidating analysis:
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; CHECK: Running pass: DominatorTreeVerifierPass on test1_f
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; CHECK-NEXT: Running analysis: DominatorTreeAnalysis on test1_f
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; An external function used to control branches.
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declare i1 @flag()
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; CHECK-LABEL: declare i1 @flag()
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; The utility function with interesting control flow that gets inlined below to
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; perturb the dominator tree.
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define internal void @callee() {
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entry:
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%ptr = alloca i8
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%flag = call i1 @flag()
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br i1 %flag, label %then, label %else
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then:
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store volatile i8 42, i8* %ptr
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br label %return
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else:
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store volatile i8 -42, i8* %ptr
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br label %return
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return:
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ret void
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}
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; The 'test1_' prefixed functions work to carefully test that incrementally
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; reducing an SCC in the inliner cannot accidentially leave stale function
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; analysis results due to failing to invalidate them for all the functions.
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; We visit this function first in the inliner, and while we inline callee
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; perturbing the CFG, we don't inline anything else and the SCC structure
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; remains in tact.
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define void @test1_f() {
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; CHECK-LABEL: define void @test1_f()
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entry:
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; We force this edge to survive inlining.
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call void @test1_g() noinline
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; CHECK: call void @test1_g()
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; Pull interesting CFG into this function.
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call void @callee()
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; CHECK-NOT: call void @callee()
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ret void
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; CHECK: ret void
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}
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; We visit this function second and here we inline the edge to 'test1_f'
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; separating it into its own SCC. The current SCC is now just 'test1_g' and
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; 'test1_h'.
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define void @test1_g() {
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; CHECK-LABEL: define void @test1_g()
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entry:
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; This edge gets inlined away.
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call void @test1_f()
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; CHECK-NOT: call void @test1_f()
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; CHECK: call void @test1_g()
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; We force this edge to survive inlining.
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call void @test1_h() noinline
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; CHECK: call void @test1_h()
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; Pull interesting CFG into this function.
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call void @callee()
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; CHECK-NOT: call void @callee()
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ret void
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; CHECK: ret void
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}
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; The inliner visits this last function. It can't actually break any cycles
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; here, but because we visit this function we compute fresh analyses for it.
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; These analyses are then invalidated when we inline callee disrupting the
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; CFG, and it is important that they be freed.
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define void @test1_h() {
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; CHECK-LABEL: define void @test1_h()
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entry:
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call void @test1_g()
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; CHECK: call void @test1_g()
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; Pull interesting CFG into this function.
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call void @callee()
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; CHECK-NOT: call void @callee()
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ret void
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; CHECK: ret void
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}
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; The 'test2_' prefixed code works to carefully trigger forming an SCC with
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; a dominator tree for one of the functions but not the other and without even
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; a function analysis manager proxy for the SCC that things get merged into.
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; Without proper handling when updating the call graph this will find a stale
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; dominator tree.
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@test2_global = external global i32, align 4
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define void @test2_hoge(i1 (i32*)* %arg) {
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; CHECK-LABEL: define void @test2_hoge(
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bb:
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%tmp2 = call zeroext i1 %arg(i32* @test2_global)
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; CHECK: call zeroext i1 %arg(
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br label %bb3
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bb3:
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%tmp5 = call zeroext i1 %arg(i32* @test2_global)
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; CHECK: call zeroext i1 %arg(
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br i1 %tmp5, label %bb3, label %bb6
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bb6:
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ret void
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}
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define zeroext i1 @test2_widget(i32* %arg) {
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; CHECK-LABEL: define zeroext i1 @test2_widget(
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bb:
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%tmp1 = alloca i8, align 1
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%tmp2 = alloca i32, align 4
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call void @test2_quux()
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; CHECK-NOT: call
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;
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; CHECK: call zeroext i1 @test2_widget(i32* @test2_global)
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; CHECK-NEXT: br label %[[NEW_BB:.*]]
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;
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; CHECK: [[NEW_BB]]:
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; CHECK-NEXT: call zeroext i1 @test2_widget(i32* @test2_global)
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;
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; CHECK: {{.*}}:
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call void @test2_hoge.1(i32* %arg)
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; CHECK-NEXT: call void @test2_hoge.1(
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%tmp4 = call zeroext i1 @test2_barney(i32* %tmp2)
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%tmp5 = zext i1 %tmp4 to i32
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store i32 %tmp5, i32* %tmp2, align 4
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%tmp6 = call zeroext i1 @test2_barney(i32* null)
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call void @test2_ham(i8* %tmp1)
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; CHECK: call void @test2_ham(
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call void @test2_quux()
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; CHECK-NOT: call
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;
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; CHECK: call zeroext i1 @test2_widget(i32* @test2_global)
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; CHECK-NEXT: br label %[[NEW_BB:.*]]
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;
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; CHECK: [[NEW_BB]]:
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; CHECK-NEXT: call zeroext i1 @test2_widget(i32* @test2_global)
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;
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; CHECK: {{.*}}:
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ret i1 true
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; CHECK-NEXT: ret i1 true
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}
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define internal void @test2_quux() {
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; CHECK-NOT: @test2_quux
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bb:
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call void @test2_hoge(i1 (i32*)* @test2_widget)
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ret void
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}
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declare void @test2_hoge.1(i32*)
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declare zeroext i1 @test2_barney(i32*)
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declare void @test2_ham(i8*)
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