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040ca449b2
manager. This starts to allow us to test analyses more easily, but it's really only the beginning. Some of the code here is still untestable without manual changes to create analysis passes, but I wanted to factor it into a small of chunks as possible. Next up in order to be able to test things are, in no particular order: - No-op analyses passes so we don't have to use real ones to exercise the pass maneger itself. - Automatic way of generating dummy passes that require an analysis be run, including a variant that calls a 'print' method on a pass to make it even easier to print out the results of an analysis. - Dummy passes that invalidate all analyses for their IR unit so we can test invalidation and re-runs. - Automatic way to print each analysis pass as it is re-run. - Automatic but optional verification of analysis passes everywhere possible. I'm not claiming I'll get to all of these immediately, but that's what is in the pipeline at some stage. I'm fleshing out exactly what I need and what to prioritize by working on converting analyses and then trying to test the conversion. =] git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@225162 91177308-0d34-0410-b5e6-96231b3b80d8
350 lines
11 KiB
C++
350 lines
11 KiB
C++
//===- llvm/unittest/IR/PassManager.cpp - PassManager tests ---------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/AsmParser/Parser.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/Module.h"
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#include "llvm/IR/PassManager.h"
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#include "llvm/Support/SourceMgr.h"
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#include "gtest/gtest.h"
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using namespace llvm;
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namespace {
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class TestFunctionAnalysis {
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public:
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struct Result {
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Result(int Count) : InstructionCount(Count) {}
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int InstructionCount;
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};
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/// \brief Returns an opaque, unique ID for this pass type.
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static void *ID() { return (void *)&PassID; }
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/// \brief Returns the name of the analysis.
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static StringRef name() { return "TestFunctionAnalysis"; }
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TestFunctionAnalysis(int &Runs) : Runs(Runs) {}
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/// \brief Run the analysis pass over the function and return a result.
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Result run(Function &F, FunctionAnalysisManager *AM) {
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++Runs;
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int Count = 0;
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for (Function::iterator BBI = F.begin(), BBE = F.end(); BBI != BBE; ++BBI)
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for (BasicBlock::iterator II = BBI->begin(), IE = BBI->end(); II != IE;
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++II)
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++Count;
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return Result(Count);
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}
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private:
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/// \brief Private static data to provide unique ID.
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static char PassID;
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int &Runs;
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};
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char TestFunctionAnalysis::PassID;
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class TestModuleAnalysis {
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public:
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struct Result {
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Result(int Count) : FunctionCount(Count) {}
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int FunctionCount;
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};
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static void *ID() { return (void *)&PassID; }
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static StringRef name() { return "TestModuleAnalysis"; }
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TestModuleAnalysis(int &Runs) : Runs(Runs) {}
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Result run(Module &M, ModuleAnalysisManager *AM) {
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++Runs;
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int Count = 0;
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for (Module::iterator I = M.begin(), E = M.end(); I != E; ++I)
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++Count;
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return Result(Count);
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}
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private:
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static char PassID;
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int &Runs;
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};
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char TestModuleAnalysis::PassID;
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struct TestModulePass {
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TestModulePass(int &RunCount) : RunCount(RunCount) {}
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PreservedAnalyses run(Module &M) {
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++RunCount;
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return PreservedAnalyses::none();
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}
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static StringRef name() { return "TestModulePass"; }
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int &RunCount;
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};
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struct TestPreservingModulePass {
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PreservedAnalyses run(Module &M) { return PreservedAnalyses::all(); }
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static StringRef name() { return "TestPreservingModulePass"; }
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};
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struct TestMinPreservingModulePass {
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PreservedAnalyses run(Module &M, ModuleAnalysisManager *AM) {
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PreservedAnalyses PA;
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// Force running an analysis.
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(void)AM->getResult<TestModuleAnalysis>(M);
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PA.preserve<FunctionAnalysisManagerModuleProxy>();
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return PA;
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}
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static StringRef name() { return "TestMinPreservingModulePass"; }
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};
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struct TestFunctionPass {
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TestFunctionPass(int &RunCount, int &AnalyzedInstrCount,
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int &AnalyzedFunctionCount,
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bool OnlyUseCachedResults = false)
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: RunCount(RunCount), AnalyzedInstrCount(AnalyzedInstrCount),
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AnalyzedFunctionCount(AnalyzedFunctionCount),
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OnlyUseCachedResults(OnlyUseCachedResults) {}
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PreservedAnalyses run(Function &F, FunctionAnalysisManager *AM) {
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++RunCount;
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const ModuleAnalysisManager &MAM =
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AM->getResult<ModuleAnalysisManagerFunctionProxy>(F).getManager();
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if (TestModuleAnalysis::Result *TMA =
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MAM.getCachedResult<TestModuleAnalysis>(*F.getParent()))
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AnalyzedFunctionCount += TMA->FunctionCount;
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if (OnlyUseCachedResults) {
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// Hack to force the use of the cached interface.
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if (TestFunctionAnalysis::Result *AR =
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AM->getCachedResult<TestFunctionAnalysis>(F))
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AnalyzedInstrCount += AR->InstructionCount;
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} else {
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// Typical path just runs the analysis as needed.
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TestFunctionAnalysis::Result &AR = AM->getResult<TestFunctionAnalysis>(F);
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AnalyzedInstrCount += AR.InstructionCount;
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}
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return PreservedAnalyses::all();
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}
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static StringRef name() { return "TestFunctionPass"; }
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int &RunCount;
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int &AnalyzedInstrCount;
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int &AnalyzedFunctionCount;
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bool OnlyUseCachedResults;
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};
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// A test function pass that invalidates all function analyses for a function
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// with a specific name.
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struct TestInvalidationFunctionPass {
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TestInvalidationFunctionPass(StringRef FunctionName) : Name(FunctionName) {}
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PreservedAnalyses run(Function &F) {
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return F.getName() == Name ? PreservedAnalyses::none()
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: PreservedAnalyses::all();
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}
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static StringRef name() { return "TestInvalidationFunctionPass"; }
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StringRef Name;
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};
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std::unique_ptr<Module> parseIR(const char *IR) {
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LLVMContext &C = getGlobalContext();
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SMDiagnostic Err;
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return parseAssemblyString(IR, Err, C);
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}
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class PassManagerTest : public ::testing::Test {
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protected:
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std::unique_ptr<Module> M;
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public:
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PassManagerTest()
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: M(parseIR("define void @f() {\n"
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"entry:\n"
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" call void @g()\n"
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" call void @h()\n"
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" ret void\n"
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"}\n"
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"define void @g() {\n"
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" ret void\n"
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"}\n"
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"define void @h() {\n"
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" ret void\n"
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"}\n")) {}
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};
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TEST_F(PassManagerTest, BasicPreservedAnalyses) {
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PreservedAnalyses PA1 = PreservedAnalyses();
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EXPECT_FALSE(PA1.preserved<TestFunctionAnalysis>());
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EXPECT_FALSE(PA1.preserved<TestModuleAnalysis>());
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PreservedAnalyses PA2 = PreservedAnalyses::none();
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EXPECT_FALSE(PA2.preserved<TestFunctionAnalysis>());
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EXPECT_FALSE(PA2.preserved<TestModuleAnalysis>());
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PreservedAnalyses PA3 = PreservedAnalyses::all();
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EXPECT_TRUE(PA3.preserved<TestFunctionAnalysis>());
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EXPECT_TRUE(PA3.preserved<TestModuleAnalysis>());
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PreservedAnalyses PA4 = PA1;
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EXPECT_FALSE(PA4.preserved<TestFunctionAnalysis>());
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EXPECT_FALSE(PA4.preserved<TestModuleAnalysis>());
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PA4 = PA3;
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EXPECT_TRUE(PA4.preserved<TestFunctionAnalysis>());
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EXPECT_TRUE(PA4.preserved<TestModuleAnalysis>());
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PA4 = std::move(PA2);
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EXPECT_FALSE(PA4.preserved<TestFunctionAnalysis>());
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EXPECT_FALSE(PA4.preserved<TestModuleAnalysis>());
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PA4.preserve<TestFunctionAnalysis>();
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EXPECT_TRUE(PA4.preserved<TestFunctionAnalysis>());
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EXPECT_FALSE(PA4.preserved<TestModuleAnalysis>());
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PA1.preserve<TestModuleAnalysis>();
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EXPECT_FALSE(PA1.preserved<TestFunctionAnalysis>());
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EXPECT_TRUE(PA1.preserved<TestModuleAnalysis>());
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PA1.preserve<TestFunctionAnalysis>();
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EXPECT_TRUE(PA1.preserved<TestFunctionAnalysis>());
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EXPECT_TRUE(PA1.preserved<TestModuleAnalysis>());
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PA1.intersect(PA4);
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EXPECT_TRUE(PA1.preserved<TestFunctionAnalysis>());
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EXPECT_FALSE(PA1.preserved<TestModuleAnalysis>());
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}
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TEST_F(PassManagerTest, Basic) {
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FunctionAnalysisManager FAM;
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int FunctionAnalysisRuns = 0;
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FAM.registerPass(TestFunctionAnalysis(FunctionAnalysisRuns));
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ModuleAnalysisManager MAM;
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int ModuleAnalysisRuns = 0;
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MAM.registerPass(TestModuleAnalysis(ModuleAnalysisRuns));
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MAM.registerPass(FunctionAnalysisManagerModuleProxy(FAM));
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FAM.registerPass(ModuleAnalysisManagerFunctionProxy(MAM));
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ModulePassManager MPM;
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// Count the runs over a Function.
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int FunctionPassRunCount1 = 0;
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int AnalyzedInstrCount1 = 0;
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int AnalyzedFunctionCount1 = 0;
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{
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// Pointless scoped copy to test move assignment.
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ModulePassManager NestedMPM;
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FunctionPassManager FPM;
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{
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// Pointless scope to test move assignment.
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FunctionPassManager NestedFPM;
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NestedFPM.addPass(TestFunctionPass(FunctionPassRunCount1, AnalyzedInstrCount1,
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AnalyzedFunctionCount1));
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FPM = std::move(NestedFPM);
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}
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NestedMPM.addPass(createModuleToFunctionPassAdaptor(std::move(FPM)));
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MPM = std::move(NestedMPM);
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}
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// Count the runs over a module.
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int ModulePassRunCount = 0;
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MPM.addPass(TestModulePass(ModulePassRunCount));
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// Count the runs over a Function in a separate manager.
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int FunctionPassRunCount2 = 0;
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int AnalyzedInstrCount2 = 0;
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int AnalyzedFunctionCount2 = 0;
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{
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FunctionPassManager FPM;
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FPM.addPass(TestFunctionPass(FunctionPassRunCount2, AnalyzedInstrCount2,
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AnalyzedFunctionCount2));
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MPM.addPass(createModuleToFunctionPassAdaptor(std::move(FPM)));
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}
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// A third function pass manager but with only preserving intervening passes
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// and with a function pass that invalidates exactly one analysis.
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MPM.addPass(TestPreservingModulePass());
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int FunctionPassRunCount3 = 0;
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int AnalyzedInstrCount3 = 0;
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int AnalyzedFunctionCount3 = 0;
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{
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FunctionPassManager FPM;
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FPM.addPass(TestFunctionPass(FunctionPassRunCount3, AnalyzedInstrCount3,
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AnalyzedFunctionCount3));
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FPM.addPass(TestInvalidationFunctionPass("f"));
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MPM.addPass(createModuleToFunctionPassAdaptor(std::move(FPM)));
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}
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// A fourth function pass manager but with a minimal intervening passes.
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MPM.addPass(TestMinPreservingModulePass());
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int FunctionPassRunCount4 = 0;
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int AnalyzedInstrCount4 = 0;
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int AnalyzedFunctionCount4 = 0;
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{
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FunctionPassManager FPM;
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FPM.addPass(TestFunctionPass(FunctionPassRunCount4, AnalyzedInstrCount4,
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AnalyzedFunctionCount4));
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MPM.addPass(createModuleToFunctionPassAdaptor(std::move(FPM)));
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}
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// A fifth function pass manager but which uses only cached results.
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int FunctionPassRunCount5 = 0;
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int AnalyzedInstrCount5 = 0;
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int AnalyzedFunctionCount5 = 0;
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{
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FunctionPassManager FPM;
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FPM.addPass(TestInvalidationFunctionPass("f"));
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FPM.addPass(TestFunctionPass(FunctionPassRunCount5, AnalyzedInstrCount5,
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AnalyzedFunctionCount5,
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/*OnlyUseCachedResults=*/true));
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MPM.addPass(createModuleToFunctionPassAdaptor(std::move(FPM)));
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}
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MPM.run(*M, &MAM);
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// Validate module pass counters.
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EXPECT_EQ(1, ModulePassRunCount);
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// Validate all function pass counter sets are the same.
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EXPECT_EQ(3, FunctionPassRunCount1);
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EXPECT_EQ(5, AnalyzedInstrCount1);
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EXPECT_EQ(0, AnalyzedFunctionCount1);
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EXPECT_EQ(3, FunctionPassRunCount2);
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EXPECT_EQ(5, AnalyzedInstrCount2);
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EXPECT_EQ(0, AnalyzedFunctionCount2);
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EXPECT_EQ(3, FunctionPassRunCount3);
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EXPECT_EQ(5, AnalyzedInstrCount3);
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EXPECT_EQ(0, AnalyzedFunctionCount3);
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EXPECT_EQ(3, FunctionPassRunCount4);
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EXPECT_EQ(5, AnalyzedInstrCount4);
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EXPECT_EQ(0, AnalyzedFunctionCount4);
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EXPECT_EQ(3, FunctionPassRunCount5);
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EXPECT_EQ(2, AnalyzedInstrCount5); // Only 'g' and 'h' were cached.
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EXPECT_EQ(0, AnalyzedFunctionCount5);
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// Validate the analysis counters:
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// first run over 3 functions, then module pass invalidates
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// second run over 3 functions, nothing invalidates
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// third run over 0 functions, but 1 function invalidated
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// fourth run over 1 function
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EXPECT_EQ(7, FunctionAnalysisRuns);
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EXPECT_EQ(1, ModuleAnalysisRuns);
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}
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}
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