1ae8a8c2dSTsang Whitney W.H //===- CodeMoverUtils.cpp - Unit tests for CodeMoverUtils ---------------===//
2ae8a8c2dSTsang Whitney W.H //
3ae8a8c2dSTsang Whitney W.H // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4ae8a8c2dSTsang Whitney W.H // See https://llvm.org/LICENSE.txt for license information.
5ae8a8c2dSTsang Whitney W.H // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6ae8a8c2dSTsang Whitney W.H //
7ae8a8c2dSTsang Whitney W.H //===----------------------------------------------------------------------===//
8ae8a8c2dSTsang Whitney W.H
9ae8a8c2dSTsang Whitney W.H #include "llvm/Transforms/Utils/CodeMoverUtils.h"
103642d388SSimon Pilgrim #include "llvm/Analysis/AliasAnalysis.h"
11ae8a8c2dSTsang Whitney W.H #include "llvm/Analysis/AssumptionCache.h"
12ae8a8c2dSTsang Whitney W.H #include "llvm/Analysis/DependenceAnalysis.h"
13ae8a8c2dSTsang Whitney W.H #include "llvm/Analysis/LoopInfo.h"
14ae8a8c2dSTsang Whitney W.H #include "llvm/Analysis/PostDominators.h"
152ce38b3fSdfukalov #include "llvm/Analysis/TargetLibraryInfo.h"
16ae8a8c2dSTsang Whitney W.H #include "llvm/AsmParser/Parser.h"
17ae8a8c2dSTsang Whitney W.H #include "llvm/IR/Dominators.h"
18ae8a8c2dSTsang Whitney W.H #include "llvm/IR/LLVMContext.h"
19ae8a8c2dSTsang Whitney W.H #include "llvm/Support/SourceMgr.h"
20bcbd26bfSFlorian Hahn #include "llvm/Transforms/Utils/ScalarEvolutionExpander.h"
21ae8a8c2dSTsang Whitney W.H #include "gtest/gtest.h"
22ae8a8c2dSTsang Whitney W.H
23ae8a8c2dSTsang Whitney W.H using namespace llvm;
24ae8a8c2dSTsang Whitney W.H
parseIR(LLVMContext & C,const char * IR)25ae8a8c2dSTsang Whitney W.H static std::unique_ptr<Module> parseIR(LLVMContext &C, const char *IR) {
26ae8a8c2dSTsang Whitney W.H SMDiagnostic Err;
27ae8a8c2dSTsang Whitney W.H std::unique_ptr<Module> Mod = parseAssemblyString(IR, Err, C);
28ae8a8c2dSTsang Whitney W.H if (!Mod)
29ae8a8c2dSTsang Whitney W.H Err.print("CodeMoverUtilsTests", errs());
30ae8a8c2dSTsang Whitney W.H return Mod;
31ae8a8c2dSTsang Whitney W.H }
32ae8a8c2dSTsang Whitney W.H
run(Module & M,StringRef FuncName,function_ref<void (Function & F,DominatorTree & DT,PostDominatorTree & PDT,DependenceInfo & DI)> Test)33ae8a8c2dSTsang Whitney W.H static void run(Module &M, StringRef FuncName,
34ae8a8c2dSTsang Whitney W.H function_ref<void(Function &F, DominatorTree &DT,
35ae8a8c2dSTsang Whitney W.H PostDominatorTree &PDT, DependenceInfo &DI)>
36ae8a8c2dSTsang Whitney W.H Test) {
37ae8a8c2dSTsang Whitney W.H auto *F = M.getFunction(FuncName);
38ae8a8c2dSTsang Whitney W.H DominatorTree DT(*F);
39ae8a8c2dSTsang Whitney W.H PostDominatorTree PDT(*F);
40ae8a8c2dSTsang Whitney W.H TargetLibraryInfoImpl TLII;
41ae8a8c2dSTsang Whitney W.H TargetLibraryInfo TLI(TLII);
42ae8a8c2dSTsang Whitney W.H AssumptionCache AC(*F);
43ae8a8c2dSTsang Whitney W.H AliasAnalysis AA(TLI);
44ae8a8c2dSTsang Whitney W.H LoopInfo LI(DT);
45ae8a8c2dSTsang Whitney W.H ScalarEvolution SE(*F, TLI, AC, DT, LI);
46ae8a8c2dSTsang Whitney W.H DependenceInfo DI(F, &AA, &SE, &LI);
47ae8a8c2dSTsang Whitney W.H Test(*F, DT, PDT, DI);
48ae8a8c2dSTsang Whitney W.H }
49ae8a8c2dSTsang Whitney W.H
getBasicBlockByName(Function & F,StringRef Name)5078dc6498SWhitney Tsang static BasicBlock *getBasicBlockByName(Function &F, StringRef Name) {
5178dc6498SWhitney Tsang for (BasicBlock &BB : F)
5278dc6498SWhitney Tsang if (BB.getName() == Name)
5378dc6498SWhitney Tsang return &BB;
5478dc6498SWhitney Tsang llvm_unreachable("Expected to find basic block!");
5578dc6498SWhitney Tsang }
5678dc6498SWhitney Tsang
getInstructionByName(Function & F,StringRef Name)5778dc6498SWhitney Tsang static Instruction *getInstructionByName(Function &F, StringRef Name) {
5878dc6498SWhitney Tsang for (BasicBlock &BB : F)
5978dc6498SWhitney Tsang for (Instruction &I : BB)
6078dc6498SWhitney Tsang if (I.getName() == Name)
6178dc6498SWhitney Tsang return &I;
6278dc6498SWhitney Tsang llvm_unreachable("Expected to find instruction!");
6378dc6498SWhitney Tsang }
6478dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsControlFlowEquivalentSimpleTest)6578dc6498SWhitney Tsang TEST(CodeMoverUtils, IsControlFlowEquivalentSimpleTest) {
6678dc6498SWhitney Tsang LLVMContext C;
6778dc6498SWhitney Tsang
6878dc6498SWhitney Tsang // void foo(int &i, bool cond1, bool cond2) {
6978dc6498SWhitney Tsang // if (cond1)
7078dc6498SWhitney Tsang // i = 1;
7178dc6498SWhitney Tsang // if (cond1)
7278dc6498SWhitney Tsang // i = 2;
7378dc6498SWhitney Tsang // if (cond2)
7478dc6498SWhitney Tsang // i = 3;
7578dc6498SWhitney Tsang // }
7678dc6498SWhitney Tsang std::unique_ptr<Module> M =
7778dc6498SWhitney Tsang parseIR(C, R"(define void @foo(i32* %i, i1 %cond1, i1 %cond2) {
7878dc6498SWhitney Tsang entry:
7978dc6498SWhitney Tsang br i1 %cond1, label %if.first, label %if.first.end
8078dc6498SWhitney Tsang if.first:
8178dc6498SWhitney Tsang store i32 1, i32* %i, align 4
8278dc6498SWhitney Tsang br label %if.first.end
8378dc6498SWhitney Tsang if.first.end:
8478dc6498SWhitney Tsang br i1 %cond1, label %if.second, label %if.second.end
8578dc6498SWhitney Tsang if.second:
8678dc6498SWhitney Tsang store i32 2, i32* %i, align 4
8778dc6498SWhitney Tsang br label %if.second.end
8878dc6498SWhitney Tsang if.second.end:
8978dc6498SWhitney Tsang br i1 %cond2, label %if.third, label %if.third.end
9078dc6498SWhitney Tsang if.third:
9178dc6498SWhitney Tsang store i32 3, i32* %i, align 4
9278dc6498SWhitney Tsang br label %if.third.end
9378dc6498SWhitney Tsang if.third.end:
9478dc6498SWhitney Tsang ret void
9578dc6498SWhitney Tsang })");
9678dc6498SWhitney Tsang run(*M, "foo",
9778dc6498SWhitney Tsang [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
9878dc6498SWhitney Tsang DependenceInfo &DI) {
9978dc6498SWhitney Tsang BasicBlock *FirstIfBody = getBasicBlockByName(F, "if.first");
10078dc6498SWhitney Tsang EXPECT_TRUE(
10178dc6498SWhitney Tsang isControlFlowEquivalent(*FirstIfBody, *FirstIfBody, DT, PDT));
10278dc6498SWhitney Tsang BasicBlock *SecondIfBody = getBasicBlockByName(F, "if.second");
10378dc6498SWhitney Tsang EXPECT_TRUE(
10478dc6498SWhitney Tsang isControlFlowEquivalent(*FirstIfBody, *SecondIfBody, DT, PDT));
10578dc6498SWhitney Tsang
10678dc6498SWhitney Tsang BasicBlock *ThirdIfBody = getBasicBlockByName(F, "if.third");
10778dc6498SWhitney Tsang EXPECT_FALSE(
10878dc6498SWhitney Tsang isControlFlowEquivalent(*FirstIfBody, *ThirdIfBody, DT, PDT));
10978dc6498SWhitney Tsang EXPECT_FALSE(
11078dc6498SWhitney Tsang isControlFlowEquivalent(*SecondIfBody, *ThirdIfBody, DT, PDT));
11178dc6498SWhitney Tsang });
11278dc6498SWhitney Tsang }
11378dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsControlFlowEquivalentOppositeCondTest)11478dc6498SWhitney Tsang TEST(CodeMoverUtils, IsControlFlowEquivalentOppositeCondTest) {
11578dc6498SWhitney Tsang LLVMContext C;
11678dc6498SWhitney Tsang
11778dc6498SWhitney Tsang // void foo(int &i, unsigned X, unsigned Y) {
11878dc6498SWhitney Tsang // if (X < Y)
11978dc6498SWhitney Tsang // i = 1;
12078dc6498SWhitney Tsang // if (Y > X)
12178dc6498SWhitney Tsang // i = 2;
12278dc6498SWhitney Tsang // if (X >= Y)
12378dc6498SWhitney Tsang // i = 3;
12478dc6498SWhitney Tsang // else
12578dc6498SWhitney Tsang // i = 4;
12678dc6498SWhitney Tsang // if (X == Y)
12778dc6498SWhitney Tsang // i = 5;
12878dc6498SWhitney Tsang // if (Y == X)
12978dc6498SWhitney Tsang // i = 6;
13078dc6498SWhitney Tsang // else
13178dc6498SWhitney Tsang // i = 7;
13278dc6498SWhitney Tsang // if (X != Y)
13378dc6498SWhitney Tsang // i = 8;
13478dc6498SWhitney Tsang // else
13578dc6498SWhitney Tsang // i = 9;
13678dc6498SWhitney Tsang // }
13778dc6498SWhitney Tsang std::unique_ptr<Module> M =
13878dc6498SWhitney Tsang parseIR(C, R"(define void @foo(i32* %i, i32 %X, i32 %Y) {
13978dc6498SWhitney Tsang entry:
14078dc6498SWhitney Tsang %cmp1 = icmp ult i32 %X, %Y
14178dc6498SWhitney Tsang br i1 %cmp1, label %if.first, label %if.first.end
14278dc6498SWhitney Tsang if.first:
14378dc6498SWhitney Tsang store i32 1, i32* %i, align 4
14478dc6498SWhitney Tsang br label %if.first.end
14578dc6498SWhitney Tsang if.first.end:
14678dc6498SWhitney Tsang %cmp2 = icmp ugt i32 %Y, %X
14778dc6498SWhitney Tsang br i1 %cmp2, label %if.second, label %if.second.end
14878dc6498SWhitney Tsang if.second:
14978dc6498SWhitney Tsang store i32 2, i32* %i, align 4
15078dc6498SWhitney Tsang br label %if.second.end
15178dc6498SWhitney Tsang if.second.end:
15278dc6498SWhitney Tsang %cmp3 = icmp uge i32 %X, %Y
15378dc6498SWhitney Tsang br i1 %cmp3, label %if.third, label %if.third.else
15478dc6498SWhitney Tsang if.third:
15578dc6498SWhitney Tsang store i32 3, i32* %i, align 4
15678dc6498SWhitney Tsang br label %if.third.end
15778dc6498SWhitney Tsang if.third.else:
15878dc6498SWhitney Tsang store i32 4, i32* %i, align 4
15978dc6498SWhitney Tsang br label %if.third.end
16078dc6498SWhitney Tsang if.third.end:
16178dc6498SWhitney Tsang %cmp4 = icmp eq i32 %X, %Y
16278dc6498SWhitney Tsang br i1 %cmp4, label %if.fourth, label %if.fourth.end
16378dc6498SWhitney Tsang if.fourth:
16478dc6498SWhitney Tsang store i32 5, i32* %i, align 4
16578dc6498SWhitney Tsang br label %if.fourth.end
16678dc6498SWhitney Tsang if.fourth.end:
16778dc6498SWhitney Tsang %cmp5 = icmp eq i32 %Y, %X
16878dc6498SWhitney Tsang br i1 %cmp5, label %if.fifth, label %if.fifth.else
16978dc6498SWhitney Tsang if.fifth:
17078dc6498SWhitney Tsang store i32 6, i32* %i, align 4
17178dc6498SWhitney Tsang br label %if.fifth.end
17278dc6498SWhitney Tsang if.fifth.else:
17378dc6498SWhitney Tsang store i32 7, i32* %i, align 4
17478dc6498SWhitney Tsang br label %if.fifth.end
17578dc6498SWhitney Tsang if.fifth.end:
17678dc6498SWhitney Tsang %cmp6 = icmp ne i32 %X, %Y
17778dc6498SWhitney Tsang br i1 %cmp6, label %if.sixth, label %if.sixth.else
17878dc6498SWhitney Tsang if.sixth:
17978dc6498SWhitney Tsang store i32 8, i32* %i, align 4
18078dc6498SWhitney Tsang br label %if.sixth.end
18178dc6498SWhitney Tsang if.sixth.else:
18278dc6498SWhitney Tsang store i32 9, i32* %i, align 4
18378dc6498SWhitney Tsang br label %if.sixth.end
18478dc6498SWhitney Tsang if.sixth.end:
18578dc6498SWhitney Tsang ret void
18678dc6498SWhitney Tsang })");
18778dc6498SWhitney Tsang run(*M, "foo",
18878dc6498SWhitney Tsang [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
18978dc6498SWhitney Tsang DependenceInfo &DI) {
19078dc6498SWhitney Tsang BasicBlock *FirstIfBody = getBasicBlockByName(F, "if.first");
19178dc6498SWhitney Tsang BasicBlock *SecondIfBody = getBasicBlockByName(F, "if.second");
19278dc6498SWhitney Tsang BasicBlock *ThirdIfBody = getBasicBlockByName(F, "if.third");
19378dc6498SWhitney Tsang BasicBlock *ThirdElseBody = getBasicBlockByName(F, "if.third.else");
19478dc6498SWhitney Tsang EXPECT_TRUE(
19578dc6498SWhitney Tsang isControlFlowEquivalent(*FirstIfBody, *ThirdElseBody, DT, PDT));
19678dc6498SWhitney Tsang EXPECT_TRUE(
19778dc6498SWhitney Tsang isControlFlowEquivalent(*SecondIfBody, *ThirdElseBody, DT, PDT));
19878dc6498SWhitney Tsang EXPECT_FALSE(
19978dc6498SWhitney Tsang isControlFlowEquivalent(*ThirdIfBody, *ThirdElseBody, DT, PDT));
20078dc6498SWhitney Tsang
20178dc6498SWhitney Tsang BasicBlock *FourthIfBody = getBasicBlockByName(F, "if.fourth");
20278dc6498SWhitney Tsang BasicBlock *FifthIfBody = getBasicBlockByName(F, "if.fifth");
20378dc6498SWhitney Tsang BasicBlock *FifthElseBody = getBasicBlockByName(F, "if.fifth.else");
20478dc6498SWhitney Tsang EXPECT_FALSE(
20578dc6498SWhitney Tsang isControlFlowEquivalent(*FifthIfBody, *FifthElseBody, DT, PDT));
20678dc6498SWhitney Tsang BasicBlock *SixthIfBody = getBasicBlockByName(F, "if.sixth");
20778dc6498SWhitney Tsang EXPECT_TRUE(
20878dc6498SWhitney Tsang isControlFlowEquivalent(*FifthElseBody, *SixthIfBody, DT, PDT));
20978dc6498SWhitney Tsang BasicBlock *SixthElseBody = getBasicBlockByName(F, "if.sixth.else");
21078dc6498SWhitney Tsang EXPECT_TRUE(
21178dc6498SWhitney Tsang isControlFlowEquivalent(*FourthIfBody, *SixthElseBody, DT, PDT));
21278dc6498SWhitney Tsang EXPECT_TRUE(
21378dc6498SWhitney Tsang isControlFlowEquivalent(*FifthIfBody, *SixthElseBody, DT, PDT));
21478dc6498SWhitney Tsang });
21578dc6498SWhitney Tsang }
21678dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsControlFlowEquivalentCondNestTest)21778dc6498SWhitney Tsang TEST(CodeMoverUtils, IsControlFlowEquivalentCondNestTest) {
21878dc6498SWhitney Tsang LLVMContext C;
21978dc6498SWhitney Tsang
22078dc6498SWhitney Tsang // void foo(int &i, bool cond1, bool cond2) {
22178dc6498SWhitney Tsang // if (cond1)
22278dc6498SWhitney Tsang // if (cond2)
22378dc6498SWhitney Tsang // i = 1;
22478dc6498SWhitney Tsang // if (cond2)
22578dc6498SWhitney Tsang // if (cond1)
22678dc6498SWhitney Tsang // i = 2;
22778dc6498SWhitney Tsang // }
22878dc6498SWhitney Tsang std::unique_ptr<Module> M =
22978dc6498SWhitney Tsang parseIR(C, R"(define void @foo(i32* %i, i1 %cond1, i1 %cond2) {
23078dc6498SWhitney Tsang entry:
23178dc6498SWhitney Tsang br i1 %cond1, label %if.outer.first, label %if.first.end
23278dc6498SWhitney Tsang if.outer.first:
23378dc6498SWhitney Tsang br i1 %cond2, label %if.inner.first, label %if.first.end
23478dc6498SWhitney Tsang if.inner.first:
23578dc6498SWhitney Tsang store i32 1, i32* %i, align 4
23678dc6498SWhitney Tsang br label %if.first.end
23778dc6498SWhitney Tsang if.first.end:
23878dc6498SWhitney Tsang br i1 %cond2, label %if.outer.second, label %if.second.end
23978dc6498SWhitney Tsang if.outer.second:
24078dc6498SWhitney Tsang br i1 %cond1, label %if.inner.second, label %if.second.end
24178dc6498SWhitney Tsang if.inner.second:
24278dc6498SWhitney Tsang store i32 2, i32* %i, align 4
24378dc6498SWhitney Tsang br label %if.second.end
24478dc6498SWhitney Tsang if.second.end:
24578dc6498SWhitney Tsang ret void
24678dc6498SWhitney Tsang })");
24778dc6498SWhitney Tsang run(*M, "foo",
24878dc6498SWhitney Tsang [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
24978dc6498SWhitney Tsang DependenceInfo &DI) {
25078dc6498SWhitney Tsang BasicBlock *FirstOuterIfBody = getBasicBlockByName(F, "if.outer.first");
25178dc6498SWhitney Tsang BasicBlock *FirstInnerIfBody = getBasicBlockByName(F, "if.inner.first");
25278dc6498SWhitney Tsang BasicBlock *SecondOuterIfBody =
25378dc6498SWhitney Tsang getBasicBlockByName(F, "if.outer.second");
25478dc6498SWhitney Tsang BasicBlock *SecondInnerIfBody =
25578dc6498SWhitney Tsang getBasicBlockByName(F, "if.inner.second");
25678dc6498SWhitney Tsang EXPECT_TRUE(isControlFlowEquivalent(*FirstInnerIfBody,
25778dc6498SWhitney Tsang *SecondInnerIfBody, DT, PDT));
25878dc6498SWhitney Tsang EXPECT_FALSE(isControlFlowEquivalent(*FirstOuterIfBody,
25978dc6498SWhitney Tsang *SecondOuterIfBody, DT, PDT));
26078dc6498SWhitney Tsang EXPECT_FALSE(isControlFlowEquivalent(*FirstOuterIfBody,
26178dc6498SWhitney Tsang *SecondInnerIfBody, DT, PDT));
26278dc6498SWhitney Tsang EXPECT_FALSE(isControlFlowEquivalent(*FirstInnerIfBody,
26378dc6498SWhitney Tsang *SecondOuterIfBody, DT, PDT));
26478dc6498SWhitney Tsang });
26578dc6498SWhitney Tsang }
26678dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsControlFlowEquivalentImbalanceTest)26778dc6498SWhitney Tsang TEST(CodeMoverUtils, IsControlFlowEquivalentImbalanceTest) {
26878dc6498SWhitney Tsang LLVMContext C;
26978dc6498SWhitney Tsang
27078dc6498SWhitney Tsang // void foo(int &i, bool cond1, bool cond2) {
27178dc6498SWhitney Tsang // if (cond1)
27278dc6498SWhitney Tsang // if (cond2)
27378dc6498SWhitney Tsang // if (cond3)
27478dc6498SWhitney Tsang // i = 1;
27578dc6498SWhitney Tsang // if (cond2)
27678dc6498SWhitney Tsang // if (cond3)
27778dc6498SWhitney Tsang // i = 2;
27878dc6498SWhitney Tsang // if (cond1)
27978dc6498SWhitney Tsang // if (cond1)
28078dc6498SWhitney Tsang // i = 3;
28178dc6498SWhitney Tsang // if (cond1)
28278dc6498SWhitney Tsang // i = 4;
28378dc6498SWhitney Tsang // }
28478dc6498SWhitney Tsang std::unique_ptr<Module> M = parseIR(
28578dc6498SWhitney Tsang C, R"(define void @foo(i32* %i, i1 %cond1, i1 %cond2, i1 %cond3) {
28678dc6498SWhitney Tsang entry:
28778dc6498SWhitney Tsang br i1 %cond1, label %if.outer.first, label %if.first.end
28878dc6498SWhitney Tsang if.outer.first:
28978dc6498SWhitney Tsang br i1 %cond2, label %if.middle.first, label %if.first.end
29078dc6498SWhitney Tsang if.middle.first:
29178dc6498SWhitney Tsang br i1 %cond3, label %if.inner.first, label %if.first.end
29278dc6498SWhitney Tsang if.inner.first:
29378dc6498SWhitney Tsang store i32 1, i32* %i, align 4
29478dc6498SWhitney Tsang br label %if.first.end
29578dc6498SWhitney Tsang if.first.end:
29678dc6498SWhitney Tsang br i1 %cond2, label %if.outer.second, label %if.second.end
29778dc6498SWhitney Tsang if.outer.second:
29878dc6498SWhitney Tsang br i1 %cond3, label %if.inner.second, label %if.second.end
29978dc6498SWhitney Tsang if.inner.second:
30078dc6498SWhitney Tsang store i32 2, i32* %i, align 4
30178dc6498SWhitney Tsang br label %if.second.end
30278dc6498SWhitney Tsang if.second.end:
30378dc6498SWhitney Tsang br i1 %cond1, label %if.outer.third, label %if.third.end
30478dc6498SWhitney Tsang if.outer.third:
30578dc6498SWhitney Tsang br i1 %cond1, label %if.inner.third, label %if.third.end
30678dc6498SWhitney Tsang if.inner.third:
30778dc6498SWhitney Tsang store i32 3, i32* %i, align 4
30878dc6498SWhitney Tsang br label %if.third.end
30978dc6498SWhitney Tsang if.third.end:
31078dc6498SWhitney Tsang br i1 %cond1, label %if.fourth, label %if.fourth.end
31178dc6498SWhitney Tsang if.fourth:
31278dc6498SWhitney Tsang store i32 4, i32* %i, align 4
31378dc6498SWhitney Tsang br label %if.fourth.end
31478dc6498SWhitney Tsang if.fourth.end:
31578dc6498SWhitney Tsang ret void
31678dc6498SWhitney Tsang })");
31778dc6498SWhitney Tsang run(*M, "foo",
31878dc6498SWhitney Tsang [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
31978dc6498SWhitney Tsang DependenceInfo &DI) {
32078dc6498SWhitney Tsang BasicBlock *FirstIfBody = getBasicBlockByName(F, "if.inner.first");
32178dc6498SWhitney Tsang BasicBlock *SecondIfBody = getBasicBlockByName(F, "if.inner.second");
32278dc6498SWhitney Tsang EXPECT_FALSE(
32378dc6498SWhitney Tsang isControlFlowEquivalent(*FirstIfBody, *SecondIfBody, DT, PDT));
32478dc6498SWhitney Tsang
32578dc6498SWhitney Tsang BasicBlock *ThirdIfBody = getBasicBlockByName(F, "if.inner.third");
32678dc6498SWhitney Tsang BasicBlock *FourthIfBody = getBasicBlockByName(F, "if.fourth");
32778dc6498SWhitney Tsang EXPECT_TRUE(
32878dc6498SWhitney Tsang isControlFlowEquivalent(*ThirdIfBody, *FourthIfBody, DT, PDT));
32978dc6498SWhitney Tsang });
33078dc6498SWhitney Tsang }
33178dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsControlFlowEquivalentPointerTest)33278dc6498SWhitney Tsang TEST(CodeMoverUtils, IsControlFlowEquivalentPointerTest) {
33378dc6498SWhitney Tsang LLVMContext C;
33478dc6498SWhitney Tsang
33578dc6498SWhitney Tsang // void foo(int &i, int *cond) {
33678dc6498SWhitney Tsang // if (*cond)
33778dc6498SWhitney Tsang // i = 1;
33878dc6498SWhitney Tsang // if (*cond)
33978dc6498SWhitney Tsang // i = 2;
34078dc6498SWhitney Tsang // *cond = 1;
34178dc6498SWhitney Tsang // if (*cond)
34278dc6498SWhitney Tsang // i = 3;
34378dc6498SWhitney Tsang // }
34478dc6498SWhitney Tsang std::unique_ptr<Module> M =
34578dc6498SWhitney Tsang parseIR(C, R"(define void @foo(i32* %i, i32* %cond) {
34678dc6498SWhitney Tsang entry:
34778dc6498SWhitney Tsang %0 = load i32, i32* %cond, align 4
34878dc6498SWhitney Tsang %tobool1 = icmp ne i32 %0, 0
34978dc6498SWhitney Tsang br i1 %tobool1, label %if.first, label %if.first.end
35078dc6498SWhitney Tsang if.first:
35178dc6498SWhitney Tsang store i32 1, i32* %i, align 4
35278dc6498SWhitney Tsang br label %if.first.end
35378dc6498SWhitney Tsang if.first.end:
35478dc6498SWhitney Tsang %1 = load i32, i32* %cond, align 4
35578dc6498SWhitney Tsang %tobool2 = icmp ne i32 %1, 0
35678dc6498SWhitney Tsang br i1 %tobool2, label %if.second, label %if.second.end
35778dc6498SWhitney Tsang if.second:
35878dc6498SWhitney Tsang store i32 2, i32* %i, align 4
35978dc6498SWhitney Tsang br label %if.second.end
36078dc6498SWhitney Tsang if.second.end:
36178dc6498SWhitney Tsang store i32 1, i32* %cond, align 4
36278dc6498SWhitney Tsang %2 = load i32, i32* %cond, align 4
36378dc6498SWhitney Tsang %tobool3 = icmp ne i32 %2, 0
36478dc6498SWhitney Tsang br i1 %tobool3, label %if.third, label %if.third.end
36578dc6498SWhitney Tsang if.third:
36678dc6498SWhitney Tsang store i32 3, i32* %i, align 4
36778dc6498SWhitney Tsang br label %if.third.end
36878dc6498SWhitney Tsang if.third.end:
36978dc6498SWhitney Tsang ret void
37078dc6498SWhitney Tsang })");
37178dc6498SWhitney Tsang run(*M, "foo",
37278dc6498SWhitney Tsang [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
37378dc6498SWhitney Tsang DependenceInfo &DI) {
37478dc6498SWhitney Tsang BasicBlock *FirstIfBody = getBasicBlockByName(F, "if.first");
37578dc6498SWhitney Tsang BasicBlock *SecondIfBody = getBasicBlockByName(F, "if.second");
37678dc6498SWhitney Tsang // Limitation: if we can prove cond haven't been modify between %0 and
37778dc6498SWhitney Tsang // %1, then we can prove FirstIfBody and SecondIfBody are control flow
37878dc6498SWhitney Tsang // equivalent.
37978dc6498SWhitney Tsang EXPECT_FALSE(
38078dc6498SWhitney Tsang isControlFlowEquivalent(*FirstIfBody, *SecondIfBody, DT, PDT));
38178dc6498SWhitney Tsang
38278dc6498SWhitney Tsang BasicBlock *ThirdIfBody = getBasicBlockByName(F, "if.third");
38378dc6498SWhitney Tsang EXPECT_FALSE(
38478dc6498SWhitney Tsang isControlFlowEquivalent(*FirstIfBody, *ThirdIfBody, DT, PDT));
38578dc6498SWhitney Tsang EXPECT_FALSE(
38678dc6498SWhitney Tsang isControlFlowEquivalent(*SecondIfBody, *ThirdIfBody, DT, PDT));
38778dc6498SWhitney Tsang });
38878dc6498SWhitney Tsang }
38978dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsControlFlowEquivalentNotPostdomTest)39078dc6498SWhitney Tsang TEST(CodeMoverUtils, IsControlFlowEquivalentNotPostdomTest) {
39178dc6498SWhitney Tsang LLVMContext C;
39278dc6498SWhitney Tsang
39378dc6498SWhitney Tsang // void foo(bool cond1, bool cond2) {
39478dc6498SWhitney Tsang // if (cond1) {
39578dc6498SWhitney Tsang // if (cond2)
39678dc6498SWhitney Tsang // return;
39778dc6498SWhitney Tsang // } else
39878dc6498SWhitney Tsang // if (cond2)
39978dc6498SWhitney Tsang // return;
40078dc6498SWhitney Tsang // return;
40178dc6498SWhitney Tsang // }
40278dc6498SWhitney Tsang std::unique_ptr<Module> M =
40378dc6498SWhitney Tsang parseIR(C, R"(define void @foo(i1 %cond1, i1 %cond2) {
40478dc6498SWhitney Tsang idom:
40578dc6498SWhitney Tsang br i1 %cond1, label %succ0, label %succ1
40678dc6498SWhitney Tsang succ0:
40778dc6498SWhitney Tsang br i1 %cond2, label %succ0ret, label %succ0succ1
40878dc6498SWhitney Tsang succ0ret:
40978dc6498SWhitney Tsang ret void
41078dc6498SWhitney Tsang succ0succ1:
41178dc6498SWhitney Tsang br label %bb
41278dc6498SWhitney Tsang succ1:
41378dc6498SWhitney Tsang br i1 %cond2, label %succ1ret, label %succ1succ1
41478dc6498SWhitney Tsang succ1ret:
41578dc6498SWhitney Tsang ret void
41678dc6498SWhitney Tsang succ1succ1:
41778dc6498SWhitney Tsang br label %bb
41878dc6498SWhitney Tsang bb:
41978dc6498SWhitney Tsang ret void
42078dc6498SWhitney Tsang })");
42178dc6498SWhitney Tsang run(*M, "foo",
42278dc6498SWhitney Tsang [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
42378dc6498SWhitney Tsang DependenceInfo &DI) {
42478dc6498SWhitney Tsang BasicBlock &Idom = F.front();
42578dc6498SWhitney Tsang assert(Idom.getName() == "idom" && "Expecting BasicBlock idom");
42678dc6498SWhitney Tsang BasicBlock &BB = F.back();
42778dc6498SWhitney Tsang assert(BB.getName() == "bb" && "Expecting BasicBlock bb");
42878dc6498SWhitney Tsang EXPECT_FALSE(isControlFlowEquivalent(Idom, BB, DT, PDT));
42978dc6498SWhitney Tsang });
43078dc6498SWhitney Tsang }
43178dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsSafeToMoveTest1)43278dc6498SWhitney Tsang TEST(CodeMoverUtils, IsSafeToMoveTest1) {
433ae8a8c2dSTsang Whitney W.H LLVMContext C;
434ae8a8c2dSTsang Whitney W.H
435ae8a8c2dSTsang Whitney W.H // void safecall() noexcept willreturn nosync;
436ae8a8c2dSTsang Whitney W.H // void unsafecall();
437ae8a8c2dSTsang Whitney W.H // void foo(int * __restrict__ A, int * __restrict__ B, int * __restrict__ C,
438ae8a8c2dSTsang Whitney W.H // long N) {
439ae8a8c2dSTsang Whitney W.H // X = N / 1;
440ae8a8c2dSTsang Whitney W.H // safecall();
441ae8a8c2dSTsang Whitney W.H // unsafecall1();
442ae8a8c2dSTsang Whitney W.H // unsafecall2();
443ae8a8c2dSTsang Whitney W.H // for (long i = 0; i < N; ++i) {
444ae8a8c2dSTsang Whitney W.H // A[5] = 5;
445ae8a8c2dSTsang Whitney W.H // A[i] = 0;
446ae8a8c2dSTsang Whitney W.H // B[i] = A[i];
447ae8a8c2dSTsang Whitney W.H // C[i] = A[i];
448ae8a8c2dSTsang Whitney W.H // A[6] = 6;
449ae8a8c2dSTsang Whitney W.H // }
450ae8a8c2dSTsang Whitney W.H // }
451ae8a8c2dSTsang Whitney W.H std::unique_ptr<Module> M = parseIR(
45278dc6498SWhitney Tsang C, R"(define void @foo(i32* noalias %A, i32* noalias %B, i32* noalias %C
45378dc6498SWhitney Tsang , i64 %N) {
45478dc6498SWhitney Tsang entry:
45578dc6498SWhitney Tsang %X = sdiv i64 1, %N
45678dc6498SWhitney Tsang call void @safecall()
45778dc6498SWhitney Tsang %cmp1 = icmp slt i64 0, %N
45878dc6498SWhitney Tsang call void @unsafecall1()
45978dc6498SWhitney Tsang call void @unsafecall2()
46078dc6498SWhitney Tsang br i1 %cmp1, label %for.body, label %for.end
46178dc6498SWhitney Tsang for.body:
46278dc6498SWhitney Tsang %i = phi i64 [ 0, %entry ], [ %inc, %for.body ]
46378dc6498SWhitney Tsang %arrayidx_A5 = getelementptr inbounds i32, i32* %A, i64 5
46478dc6498SWhitney Tsang store i32 5, i32* %arrayidx_A5, align 4
46578dc6498SWhitney Tsang %arrayidx_A = getelementptr inbounds i32, i32* %A, i64 %i
46678dc6498SWhitney Tsang store i32 0, i32* %arrayidx_A, align 4
46778dc6498SWhitney Tsang %load1 = load i32, i32* %arrayidx_A, align 4
46878dc6498SWhitney Tsang %arrayidx_B = getelementptr inbounds i32, i32* %B, i64 %i
46978dc6498SWhitney Tsang store i32 %load1, i32* %arrayidx_B, align 4
47078dc6498SWhitney Tsang %load2 = load i32, i32* %arrayidx_A, align 4
47178dc6498SWhitney Tsang %arrayidx_C = getelementptr inbounds i32, i32* %C, i64 %i
47278dc6498SWhitney Tsang store i32 %load2, i32* %arrayidx_C, align 4
47378dc6498SWhitney Tsang %arrayidx_A6 = getelementptr inbounds i32, i32* %A, i64 6
47478dc6498SWhitney Tsang store i32 6, i32* %arrayidx_A6, align 4
47578dc6498SWhitney Tsang %inc = add nsw i64 %i, 1
47678dc6498SWhitney Tsang %cmp = icmp slt i64 %inc, %N
47778dc6498SWhitney Tsang br i1 %cmp, label %for.body, label %for.end
47878dc6498SWhitney Tsang for.end:
47978dc6498SWhitney Tsang ret void
48078dc6498SWhitney Tsang }
48178dc6498SWhitney Tsang declare void @safecall() nounwind nosync willreturn
48278dc6498SWhitney Tsang declare void @unsafecall1()
48378dc6498SWhitney Tsang declare void @unsafecall2())");
484ae8a8c2dSTsang Whitney W.H
485ae8a8c2dSTsang Whitney W.H run(*M, "foo",
486ae8a8c2dSTsang Whitney W.H [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
487ae8a8c2dSTsang Whitney W.H DependenceInfo &DI) {
48878dc6498SWhitney Tsang BasicBlock *Entry = getBasicBlockByName(F, "entry");
489ae8a8c2dSTsang Whitney W.H Instruction *CI_safecall = Entry->front().getNextNode();
4905e40f2cfSVitaly Buka assert(isa<CallInst>(CI_safecall) &&
4915e40f2cfSVitaly Buka "Expecting CI_safecall to be a CallInst");
492ae8a8c2dSTsang Whitney W.H Instruction *CI_unsafecall = CI_safecall->getNextNode()->getNextNode();
4935e40f2cfSVitaly Buka assert(isa<CallInst>(CI_unsafecall) &&
4945e40f2cfSVitaly Buka "Expecting CI_unsafecall to be a CallInst");
49578dc6498SWhitney Tsang BasicBlock *ForBody = getBasicBlockByName(F, "for.body");
496ae8a8c2dSTsang Whitney W.H Instruction &PN = ForBody->front();
497ae8a8c2dSTsang Whitney W.H assert(isa<PHINode>(PN) && "Expecting PN to be a PHINode");
49878dc6498SWhitney Tsang Instruction *SI_A5 =
49978dc6498SWhitney Tsang getInstructionByName(F, "arrayidx_A5")->getNextNode();
50078dc6498SWhitney Tsang Instruction *SI = getInstructionByName(F, "arrayidx_A")->getNextNode();
50178dc6498SWhitney Tsang Instruction *LI1 = getInstructionByName(F, "load1");
50278dc6498SWhitney Tsang Instruction *LI2 = getInstructionByName(F, "load2");
5035e40f2cfSVitaly Buka Instruction *SI_A6 =
50478dc6498SWhitney Tsang getInstructionByName(F, "arrayidx_A6")->getNextNode();
505ae8a8c2dSTsang Whitney W.H
5065e40f2cfSVitaly Buka // Can move after CI_safecall, as it does not throw, not synchronize, or
5075e40f2cfSVitaly Buka // must return.
5085e40f2cfSVitaly Buka EXPECT_TRUE(isSafeToMoveBefore(*CI_safecall->getPrevNode(),
509082e3952SSharmaRithik *CI_safecall->getNextNode(), DT, &PDT,
510082e3952SSharmaRithik &DI));
511ae8a8c2dSTsang Whitney W.H
512ae8a8c2dSTsang Whitney W.H // Cannot move CI_unsafecall, as it may throw.
5135e40f2cfSVitaly Buka EXPECT_FALSE(isSafeToMoveBefore(*CI_unsafecall->getNextNode(),
514082e3952SSharmaRithik *CI_unsafecall, DT, &PDT, &DI));
515ae8a8c2dSTsang Whitney W.H
516ae8a8c2dSTsang Whitney W.H // Moving instruction to non control flow equivalent places are not
517ae8a8c2dSTsang Whitney W.H // supported.
518167cac31SSharmaRithik EXPECT_FALSE(
519167cac31SSharmaRithik isSafeToMoveBefore(*SI_A5, *Entry->getTerminator(), DT, &PDT, &DI));
520ae8a8c2dSTsang Whitney W.H
521ae8a8c2dSTsang Whitney W.H // Moving PHINode is not supported.
5225e40f2cfSVitaly Buka EXPECT_FALSE(isSafeToMoveBefore(PN, *PN.getNextNode()->getNextNode(),
523082e3952SSharmaRithik DT, &PDT, &DI));
524ae8a8c2dSTsang Whitney W.H
525ae8a8c2dSTsang Whitney W.H // Cannot move non-PHINode before PHINode.
526082e3952SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*PN.getNextNode(), PN, DT, &PDT, &DI));
527ae8a8c2dSTsang Whitney W.H
528ae8a8c2dSTsang Whitney W.H // Moving Terminator is not supported.
5295e40f2cfSVitaly Buka EXPECT_FALSE(isSafeToMoveBefore(*Entry->getTerminator(),
530082e3952SSharmaRithik *PN.getNextNode(), DT, &PDT, &DI));
531ae8a8c2dSTsang Whitney W.H
532ae8a8c2dSTsang Whitney W.H // Cannot move %arrayidx_A after SI, as SI is its user.
5335e40f2cfSVitaly Buka EXPECT_FALSE(isSafeToMoveBefore(*SI->getPrevNode(), *SI->getNextNode(),
534082e3952SSharmaRithik DT, &PDT, &DI));
535ae8a8c2dSTsang Whitney W.H
536ae8a8c2dSTsang Whitney W.H // Cannot move SI before %arrayidx_A, as %arrayidx_A is its operand.
537082e3952SSharmaRithik EXPECT_FALSE(
538082e3952SSharmaRithik isSafeToMoveBefore(*SI, *SI->getPrevNode(), DT, &PDT, &DI));
539ae8a8c2dSTsang Whitney W.H
540ae8a8c2dSTsang Whitney W.H // Cannot move LI2 after SI_A6, as there is a flow dependence.
5415e40f2cfSVitaly Buka EXPECT_FALSE(
542082e3952SSharmaRithik isSafeToMoveBefore(*LI2, *SI_A6->getNextNode(), DT, &PDT, &DI));
543ae8a8c2dSTsang Whitney W.H
544ae8a8c2dSTsang Whitney W.H // Cannot move SI after LI1, as there is a anti dependence.
545082e3952SSharmaRithik EXPECT_FALSE(
546082e3952SSharmaRithik isSafeToMoveBefore(*SI, *LI1->getNextNode(), DT, &PDT, &DI));
547ae8a8c2dSTsang Whitney W.H
548ae8a8c2dSTsang Whitney W.H // Cannot move SI_A5 after SI, as there is a output dependence.
549082e3952SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*SI_A5, *LI1, DT, &PDT, &DI));
550ae8a8c2dSTsang Whitney W.H
551ae8a8c2dSTsang Whitney W.H // Can move LI2 before LI1, as there is only an input dependence.
552082e3952SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LI2, *LI1, DT, &PDT, &DI));
553ae8a8c2dSTsang Whitney W.H });
554ae8a8c2dSTsang Whitney W.H }
55578dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsSafeToMoveTest2)55678dc6498SWhitney Tsang TEST(CodeMoverUtils, IsSafeToMoveTest2) {
55778dc6498SWhitney Tsang LLVMContext C;
55878dc6498SWhitney Tsang
55978dc6498SWhitney Tsang std::unique_ptr<Module> M =
56078dc6498SWhitney Tsang parseIR(C, R"(define void @foo(i1 %cond, i32 %op0, i32 %op1) {
56178dc6498SWhitney Tsang entry:
56278dc6498SWhitney Tsang br i1 %cond, label %if.then.first, label %if.end.first
56378dc6498SWhitney Tsang if.then.first:
56478dc6498SWhitney Tsang %add = add i32 %op0, %op1
56578dc6498SWhitney Tsang %user = add i32 %add, 1
56678dc6498SWhitney Tsang br label %if.end.first
56778dc6498SWhitney Tsang if.end.first:
56878dc6498SWhitney Tsang br i1 %cond, label %if.then.second, label %if.end.second
56978dc6498SWhitney Tsang if.then.second:
57078dc6498SWhitney Tsang %sub_op0 = add i32 %op0, 1
57178dc6498SWhitney Tsang %sub = sub i32 %sub_op0, %op1
57278dc6498SWhitney Tsang br label %if.end.second
57378dc6498SWhitney Tsang if.end.second:
57478dc6498SWhitney Tsang ret void
57578dc6498SWhitney Tsang })");
57678dc6498SWhitney Tsang
57778dc6498SWhitney Tsang run(*M, "foo",
57878dc6498SWhitney Tsang [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
57978dc6498SWhitney Tsang DependenceInfo &DI) {
58078dc6498SWhitney Tsang Instruction *AddInst = getInstructionByName(F, "add");
58178dc6498SWhitney Tsang Instruction *SubInst = getInstructionByName(F, "sub");
58278dc6498SWhitney Tsang
58378dc6498SWhitney Tsang // Cannot move as %user uses %add and %sub doesn't dominates %user.
584082e3952SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*AddInst, *SubInst, DT, &PDT, &DI));
58578dc6498SWhitney Tsang
58678dc6498SWhitney Tsang // Cannot move as %sub_op0 is an operand of %sub and %add doesn't
58778dc6498SWhitney Tsang // dominates %sub_op0.
588082e3952SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*SubInst, *AddInst, DT, &PDT, &DI));
58978dc6498SWhitney Tsang });
59078dc6498SWhitney Tsang }
59178dc6498SWhitney Tsang
TEST(CodeMoverUtils,IsSafeToMoveTest3)59278dc6498SWhitney Tsang TEST(CodeMoverUtils, IsSafeToMoveTest3) {
59378dc6498SWhitney Tsang LLVMContext C;
59478dc6498SWhitney Tsang
59578dc6498SWhitney Tsang std::unique_ptr<Module> M = parseIR(C, R"(define void @foo(i64 %N) {
59678dc6498SWhitney Tsang entry:
59778dc6498SWhitney Tsang br label %for.body
59878dc6498SWhitney Tsang for.body:
59978dc6498SWhitney Tsang %i = phi i64 [ 0, %entry ], [ %inc, %for.latch ]
60078dc6498SWhitney Tsang %inc = add nsw i64 %i, 1
60178dc6498SWhitney Tsang br label %for.latch
60278dc6498SWhitney Tsang for.latch:
60378dc6498SWhitney Tsang %cmp = icmp slt i64 %inc, %N
604751be2a0SCongzhe Cao %add = add i64 100, %N
605751be2a0SCongzhe Cao %add2 = add i64 %add, %N
60678dc6498SWhitney Tsang br i1 %cmp, label %for.body, label %for.end
60778dc6498SWhitney Tsang for.end:
60878dc6498SWhitney Tsang ret void
60978dc6498SWhitney Tsang })");
61078dc6498SWhitney Tsang
61178dc6498SWhitney Tsang run(*M, "foo",
61278dc6498SWhitney Tsang [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
61378dc6498SWhitney Tsang DependenceInfo &DI) {
61478dc6498SWhitney Tsang Instruction *IncInst = getInstructionByName(F, "inc");
61578dc6498SWhitney Tsang Instruction *CmpInst = getInstructionByName(F, "cmp");
616751be2a0SCongzhe Cao BasicBlock *BB0 = getBasicBlockByName(F, "for.body");
617751be2a0SCongzhe Cao BasicBlock *BB1 = getBasicBlockByName(F, "for.latch");
61878dc6498SWhitney Tsang
61978dc6498SWhitney Tsang // Can move as the incoming block of %inc for %i (%for.latch) dominated
62078dc6498SWhitney Tsang // by %cmp.
621082e3952SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*IncInst, *CmpInst, DT, &PDT, &DI));
622751be2a0SCongzhe Cao
623751be2a0SCongzhe Cao // Can move as the operands of instructions in BB1 either dominate
624751be2a0SCongzhe Cao // InsertPoint or appear before that instruction, e.g., %add appears
625751be2a0SCongzhe Cao // before %add2 although %add does not dominate InsertPoint.
626751be2a0SCongzhe Cao EXPECT_TRUE(
627751be2a0SCongzhe Cao isSafeToMoveBefore(*BB1, *BB0->getTerminator(), DT, &PDT, &DI));
62878dc6498SWhitney Tsang });
62978dc6498SWhitney Tsang }
630eadf2959SRithik Sharma
TEST(CodeMoverUtils,IsSafeToMoveTest4)631eadf2959SRithik Sharma TEST(CodeMoverUtils, IsSafeToMoveTest4) {
632eadf2959SRithik Sharma LLVMContext C;
633eadf2959SRithik Sharma
634eadf2959SRithik Sharma std::unique_ptr<Module> M =
635eadf2959SRithik Sharma parseIR(C, R"(define void @foo(i1 %cond, i32 %op0, i32 %op1) {
636eadf2959SRithik Sharma entry:
637eadf2959SRithik Sharma br i1 %cond, label %if.end.first, label %if.then.first
638eadf2959SRithik Sharma if.then.first:
639eadf2959SRithik Sharma %add = add i32 %op0, %op1
640eadf2959SRithik Sharma %user = add i32 %add, 1
641*c4277275SCongzhe Cao %add2 = add i32 %op0, 1
642eadf2959SRithik Sharma br label %if.end.first
643eadf2959SRithik Sharma if.end.first:
644eadf2959SRithik Sharma br i1 %cond, label %if.end.second, label %if.then.second
645eadf2959SRithik Sharma if.then.second:
646eadf2959SRithik Sharma %sub_op0 = add i32 %op0, 1
647eadf2959SRithik Sharma %sub = sub i32 %sub_op0, %op1
648*c4277275SCongzhe Cao %sub2 = sub i32 %op0, 1
649eadf2959SRithik Sharma br label %if.end.second
650eadf2959SRithik Sharma if.end.second:
651eadf2959SRithik Sharma ret void
652eadf2959SRithik Sharma })");
653eadf2959SRithik Sharma
654eadf2959SRithik Sharma run(*M, "foo",
655eadf2959SRithik Sharma [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
656eadf2959SRithik Sharma DependenceInfo &DI) {
657eadf2959SRithik Sharma Instruction *AddInst = getInstructionByName(F, "add");
658*c4277275SCongzhe Cao Instruction *AddInst2 = getInstructionByName(F, "add2");
659eadf2959SRithik Sharma Instruction *SubInst = getInstructionByName(F, "sub");
660*c4277275SCongzhe Cao Instruction *SubInst2 = getInstructionByName(F, "sub2");
661eadf2959SRithik Sharma
662eadf2959SRithik Sharma // Cannot move as %user uses %add and %sub doesn't dominates %user.
663082e3952SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*AddInst, *SubInst, DT, &PDT, &DI));
664eadf2959SRithik Sharma
665eadf2959SRithik Sharma // Cannot move as %sub_op0 is an operand of %sub and %add doesn't
666eadf2959SRithik Sharma // dominates %sub_op0.
667082e3952SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*SubInst, *AddInst, DT, &PDT, &DI));
668*c4277275SCongzhe Cao
669*c4277275SCongzhe Cao // Can move as %add2 and %sub2 are control flow equivalent,
670*c4277275SCongzhe Cao // although %add2 does not strictly dominate %sub2.
671*c4277275SCongzhe Cao EXPECT_TRUE(isSafeToMoveBefore(*AddInst2, *SubInst2, DT, &PDT, &DI));
672*c4277275SCongzhe Cao
673*c4277275SCongzhe Cao // Can move as %add2 and %sub2 are control flow equivalent,
674*c4277275SCongzhe Cao // although %add2 does not strictly dominate %sub2.
675*c4277275SCongzhe Cao EXPECT_TRUE(isSafeToMoveBefore(*SubInst2, *AddInst2, DT, &PDT, &DI));
676eadf2959SRithik Sharma });
677eadf2959SRithik Sharma }
678167cac31SSharmaRithik
TEST(CodeMoverUtils,IsSafeToMoveTest5)679167cac31SSharmaRithik TEST(CodeMoverUtils, IsSafeToMoveTest5) {
680167cac31SSharmaRithik LLVMContext C;
681167cac31SSharmaRithik
682167cac31SSharmaRithik std::unique_ptr<Module> M =
683167cac31SSharmaRithik parseIR(C, R"(define void @dependence(i32* noalias %A, i32* noalias %B){
684167cac31SSharmaRithik entry:
685167cac31SSharmaRithik store i32 0, i32* %A, align 4 ; storeA0
686167cac31SSharmaRithik store i32 2, i32* %A, align 4 ; storeA1
687167cac31SSharmaRithik %tmp0 = load i32, i32* %A, align 4 ; loadA0
688167cac31SSharmaRithik store i32 1, i32* %B, align 4 ; storeB0
689167cac31SSharmaRithik %tmp1 = load i32, i32* %A, align 4 ; loadA1
690167cac31SSharmaRithik store i32 2, i32* %A, align 4 ; storeA2
691167cac31SSharmaRithik store i32 4, i32* %B, align 4 ; StoreB1
692167cac31SSharmaRithik %tmp2 = load i32, i32* %A, align 4 ; loadA2
693167cac31SSharmaRithik %tmp3 = load i32, i32* %A, align 4 ; loadA3
694167cac31SSharmaRithik %tmp4 = load i32, i32* %B, align 4 ; loadB2
695167cac31SSharmaRithik %tmp5 = load i32, i32* %B, align 4 ; loadB3
696167cac31SSharmaRithik ret void
697167cac31SSharmaRithik })");
698167cac31SSharmaRithik
699167cac31SSharmaRithik run(*M, "dependence",
700167cac31SSharmaRithik [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
701167cac31SSharmaRithik DependenceInfo &DI) {
702167cac31SSharmaRithik Instruction *LoadA0 = getInstructionByName(F, "tmp0");
703167cac31SSharmaRithik Instruction *LoadA1 = getInstructionByName(F, "tmp1");
704167cac31SSharmaRithik Instruction *LoadA2 = getInstructionByName(F, "tmp2");
705167cac31SSharmaRithik Instruction *LoadA3 = getInstructionByName(F, "tmp3");
706167cac31SSharmaRithik Instruction *LoadB2 = getInstructionByName(F, "tmp4");
707167cac31SSharmaRithik Instruction *LoadB3 = getInstructionByName(F, "tmp5");
708167cac31SSharmaRithik Instruction *StoreA1 = LoadA0->getPrevNode();
709167cac31SSharmaRithik Instruction *StoreA0 = StoreA1->getPrevNode();
710167cac31SSharmaRithik Instruction *StoreB0 = LoadA0->getNextNode();
711167cac31SSharmaRithik Instruction *StoreB1 = LoadA2->getPrevNode();
712167cac31SSharmaRithik Instruction *StoreA2 = StoreB1->getPrevNode();
713167cac31SSharmaRithik
714167cac31SSharmaRithik // Input forward dependency
715167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA2, *LoadB2, DT, &PDT, &DI));
716167cac31SSharmaRithik // Input backward dependency
717167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA3, *LoadA2, DT, &PDT, &DI));
718167cac31SSharmaRithik
719167cac31SSharmaRithik // Output forward dependency
720167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*StoreA0, *LoadA0, DT, &PDT, &DI));
721167cac31SSharmaRithik // Output backward dependency
722167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*StoreA1, *StoreA0, DT, &PDT, &DI));
723167cac31SSharmaRithik
724167cac31SSharmaRithik // Flow forward dependency
725167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*StoreA1, *StoreB0, DT, &PDT, &DI));
726167cac31SSharmaRithik // Flow backward dependency
727167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*LoadA0, *StoreA1, DT, &PDT, &DI));
728167cac31SSharmaRithik
729167cac31SSharmaRithik // Anti forward dependency
730167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*LoadA1, *StoreB1, DT, &PDT, &DI));
731167cac31SSharmaRithik // Anti backward dependency
732167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*StoreA2, *LoadA1, DT, &PDT, &DI));
733167cac31SSharmaRithik
734167cac31SSharmaRithik // No input backward dependency
735167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadB2, *LoadA3, DT, &PDT, &DI));
736167cac31SSharmaRithik // No input forward dependency
737167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA3, *LoadB3, DT, &PDT, &DI));
738167cac31SSharmaRithik
739167cac31SSharmaRithik // No Output forward dependency
740167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*StoreA2, *LoadA2, DT, &PDT, &DI));
741167cac31SSharmaRithik // No Output backward dependency
742167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*StoreB1, *StoreA2, DT, &PDT, &DI));
743167cac31SSharmaRithik
744167cac31SSharmaRithik // No flow forward dependency
745167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*StoreB0, *StoreA2, DT, &PDT, &DI));
746167cac31SSharmaRithik // No flow backward dependency
747167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA1, *StoreB0, DT, &PDT, &DI));
748167cac31SSharmaRithik
749167cac31SSharmaRithik // No anti backward dependency
750167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*StoreB0, *LoadA0, DT, &PDT, &DI));
751167cac31SSharmaRithik // No anti forward dependency
752167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA0, *LoadA1, DT, &PDT, &DI));
753167cac31SSharmaRithik });
754167cac31SSharmaRithik }
755167cac31SSharmaRithik
TEST(CodeMoverUtils,IsSafeToMoveTest6)756167cac31SSharmaRithik TEST(CodeMoverUtils, IsSafeToMoveTest6) {
757167cac31SSharmaRithik LLVMContext C;
758167cac31SSharmaRithik
759167cac31SSharmaRithik std::unique_ptr<Module> M = parseIR(
760167cac31SSharmaRithik C, R"(define void @dependence(i1 %cond, i32* noalias %A, i32* noalias %B){
761167cac31SSharmaRithik entry:
762167cac31SSharmaRithik br i1 %cond, label %bb0, label %bb1
763167cac31SSharmaRithik bb0:
764167cac31SSharmaRithik br label %bb1
765167cac31SSharmaRithik bb1:
766167cac31SSharmaRithik store i32 0, i32* %A, align 4 ; storeA0
767167cac31SSharmaRithik br i1 %cond, label %bb2, label %bb3
768167cac31SSharmaRithik bb2:
769167cac31SSharmaRithik br label %bb3
770167cac31SSharmaRithik bb3:
771167cac31SSharmaRithik store i32 2, i32* %A, align 4 ; storeA1
772167cac31SSharmaRithik br i1 %cond, label %bb4, label %bb5
773167cac31SSharmaRithik bb4:
774167cac31SSharmaRithik br label %bb5
775167cac31SSharmaRithik bb5:
776167cac31SSharmaRithik %tmp0 = load i32, i32* %A, align 4 ; loadA0
777167cac31SSharmaRithik br i1 %cond, label %bb6, label %bb7
778167cac31SSharmaRithik bb6:
779167cac31SSharmaRithik br label %bb7
780167cac31SSharmaRithik bb7:
781167cac31SSharmaRithik store i32 1, i32* %B, align 4 ; storeB0
782167cac31SSharmaRithik br i1 %cond, label %bb8, label %bb9
783167cac31SSharmaRithik bb8:
784167cac31SSharmaRithik br label %bb9
785167cac31SSharmaRithik bb9:
786167cac31SSharmaRithik %tmp1 = load i32, i32* %A, align 4 ; loadA1
787167cac31SSharmaRithik br i1 %cond, label %bb10, label %bb11
788167cac31SSharmaRithik bb10:
789167cac31SSharmaRithik br label %bb11
790167cac31SSharmaRithik bb11:
791167cac31SSharmaRithik store i32 2, i32* %A, align 4 ; storeA2
792167cac31SSharmaRithik br i1 %cond, label %bb12, label %bb13
793167cac31SSharmaRithik bb12:
794167cac31SSharmaRithik br label %bb13
795167cac31SSharmaRithik bb13:
796167cac31SSharmaRithik store i32 4, i32* %B, align 4 ; StoreB1
797167cac31SSharmaRithik br i1 %cond, label %bb14, label %bb15
798167cac31SSharmaRithik bb14:
799167cac31SSharmaRithik br label %bb15
800167cac31SSharmaRithik bb15:
801167cac31SSharmaRithik %tmp2 = load i32, i32* %A, align 4 ; loadA2
802167cac31SSharmaRithik br i1 %cond, label %bb16, label %bb17
803167cac31SSharmaRithik bb16:
804167cac31SSharmaRithik br label %bb17
805167cac31SSharmaRithik bb17:
806167cac31SSharmaRithik %tmp3 = load i32, i32* %A, align 4 ; loadA3
807167cac31SSharmaRithik br i1 %cond, label %bb18, label %bb19
808167cac31SSharmaRithik bb18:
809167cac31SSharmaRithik br label %bb19
810167cac31SSharmaRithik bb19:
811167cac31SSharmaRithik %tmp4 = load i32, i32* %B, align 4 ; loadB2
812167cac31SSharmaRithik br i1 %cond, label %bb20, label %bb21
813167cac31SSharmaRithik bb20:
814167cac31SSharmaRithik br label %bb21
815167cac31SSharmaRithik bb21:
816167cac31SSharmaRithik %tmp5 = load i32, i32* %B, align 4 ; loadB3
817167cac31SSharmaRithik ret void
818167cac31SSharmaRithik })");
819167cac31SSharmaRithik run(*M, "dependence",
820167cac31SSharmaRithik [&](Function &F, DominatorTree &DT, PostDominatorTree &PDT,
821167cac31SSharmaRithik DependenceInfo &DI) {
822167cac31SSharmaRithik BasicBlock *BB1 = getBasicBlockByName(F, "bb1");
823167cac31SSharmaRithik BasicBlock *BB3 = getBasicBlockByName(F, "bb3");
824167cac31SSharmaRithik BasicBlock *BB7 = getBasicBlockByName(F, "bb7");
825167cac31SSharmaRithik BasicBlock *BB11 = getBasicBlockByName(F, "bb11");
826167cac31SSharmaRithik BasicBlock *BB13 = getBasicBlockByName(F, "bb13");
827167cac31SSharmaRithik Instruction *LoadA0 = getInstructionByName(F, "tmp0");
828167cac31SSharmaRithik Instruction *LoadA1 = getInstructionByName(F, "tmp1");
829167cac31SSharmaRithik Instruction *LoadA2 = getInstructionByName(F, "tmp2");
830167cac31SSharmaRithik Instruction *LoadA3 = getInstructionByName(F, "tmp3");
831167cac31SSharmaRithik Instruction *LoadB2 = getInstructionByName(F, "tmp4");
832167cac31SSharmaRithik Instruction *LoadB3 = getInstructionByName(F, "tmp5");
833167cac31SSharmaRithik Instruction &StoreA1 = BB3->front();
834167cac31SSharmaRithik Instruction &StoreA0 = BB1->front();
835167cac31SSharmaRithik Instruction &StoreB0 = BB7->front();
836167cac31SSharmaRithik Instruction &StoreB1 = BB13->front();
837167cac31SSharmaRithik Instruction &StoreA2 = BB11->front();
838167cac31SSharmaRithik
839167cac31SSharmaRithik // Input forward dependency
840167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA2, *LoadB2, DT, &PDT, &DI));
841167cac31SSharmaRithik // Input backward dependency
842167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA3, *LoadA2, DT, &PDT, &DI));
843167cac31SSharmaRithik
844167cac31SSharmaRithik // Output forward dependency
845167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(StoreA0, *LoadA0, DT, &PDT, &DI));
846167cac31SSharmaRithik // Output backward dependency
847167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(StoreA1, StoreA0, DT, &PDT, &DI));
848167cac31SSharmaRithik
849167cac31SSharmaRithik // Flow forward dependency
850167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(StoreA1, StoreB0, DT, &PDT, &DI));
851167cac31SSharmaRithik // Flow backward dependency
852167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*LoadA0, StoreA1, DT, &PDT, &DI));
853167cac31SSharmaRithik
854167cac31SSharmaRithik // Anti forward dependency
855167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(*LoadA1, StoreB1, DT, &PDT, &DI));
856167cac31SSharmaRithik // Anti backward dependency
857167cac31SSharmaRithik EXPECT_FALSE(isSafeToMoveBefore(StoreA2, *LoadA1, DT, &PDT, &DI));
858167cac31SSharmaRithik
859167cac31SSharmaRithik // No input backward dependency
860167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadB2, *LoadA3, DT, &PDT, &DI));
861167cac31SSharmaRithik // No input forward dependency
862167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA3, *LoadB3, DT, &PDT, &DI));
863167cac31SSharmaRithik
864167cac31SSharmaRithik // No Output forward dependency
865167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(StoreA2, *LoadA2, DT, &PDT, &DI));
866167cac31SSharmaRithik // No Output backward dependency
867167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(StoreB1, StoreA2, DT, &PDT, &DI));
868167cac31SSharmaRithik
869167cac31SSharmaRithik // No flow forward dependency
870167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(StoreB0, StoreA2, DT, &PDT, &DI));
871167cac31SSharmaRithik // No flow backward dependency
872167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA1, StoreB0, DT, &PDT, &DI));
873167cac31SSharmaRithik
874167cac31SSharmaRithik // No anti backward dependency
875167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(StoreB0, *LoadA0, DT, &PDT, &DI));
876167cac31SSharmaRithik // No anti forward dependency
877167cac31SSharmaRithik EXPECT_TRUE(isSafeToMoveBefore(*LoadA0, *LoadA1, DT, &PDT, &DI));
878167cac31SSharmaRithik });
879167cac31SSharmaRithik }
880