//===- llvm/Testing/Support/CFGBuilder.cpp --------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "CFGBuilder.h" #include "llvm/IR/IRBuilder.h" #include "llvm/IR/LLVMContext.h" #include "llvm/IR/TypeBuilder.h" #include "llvm/Support/Debug.h" #include "llvm/Support/raw_ostream.h" #include "gtest/gtest.h" #define DEBUG_TYPE "cfg-builder" using namespace llvm; CFGHolder::CFGHolder(StringRef ModuleName, StringRef FunctionName) : Context(llvm::make_unique()), M(llvm::make_unique(ModuleName, *Context)) { FunctionType *FTy = TypeBuilder::get(*Context); F = cast(M->getOrInsertFunction(FunctionName, FTy)); } CFGHolder::~CFGHolder() = default; CFGBuilder::CFGBuilder(Function *F, const std::vector &InitialArcs, std::vector Updates) : F(F), Updates(std::move(Updates)) { assert(F); buildCFG(InitialArcs); } static void ConnectBlocks(BasicBlock *From, BasicBlock *To) { LLVM_DEBUG(dbgs() << "Creating BB arc " << From->getName() << " -> " << To->getName() << "\n"; dbgs().flush()); auto *IntTy = IntegerType::get(From->getContext(), 32); if (isa(From->getTerminator())) From->getTerminator()->eraseFromParent(); if (!From->getTerminator()) { IRBuilder<> IRB(From); IRB.CreateSwitch(ConstantInt::get(IntTy, 0), To); return; } SwitchInst *SI = cast(From->getTerminator()); const auto Last = SI->getNumCases(); auto *IntVal = ConstantInt::get(IntTy, Last); SI->addCase(IntVal, To); } static void DisconnectBlocks(BasicBlock *From, BasicBlock *To) { LLVM_DEBUG(dbgs() << "Deleting BB arc " << From->getName() << " -> " << To->getName() << "\n"; dbgs().flush()); SwitchInst *SI = cast(From->getTerminator()); if (SI->getNumCases() == 0) { SI->eraseFromParent(); IRBuilder<> IRB(From); IRB.CreateUnreachable(); return; } if (SI->getDefaultDest() == To) { auto FirstC = SI->case_begin(); SI->setDefaultDest(FirstC->getCaseSuccessor()); SI->removeCase(FirstC); return; } for (auto CIt = SI->case_begin(); CIt != SI->case_end(); ++CIt) if (CIt->getCaseSuccessor() == To) { SI->removeCase(CIt); return; } } BasicBlock *CFGBuilder::getOrAddBlock(StringRef BlockName) { auto BIt = NameToBlock.find(BlockName); if (BIt != NameToBlock.end()) return BIt->second; auto *BB = BasicBlock::Create(F->getParent()->getContext(), BlockName, F); IRBuilder<> IRB(BB); IRB.CreateUnreachable(); NameToBlock[BlockName] = BB; return BB; } bool CFGBuilder::connect(const Arc &A) { BasicBlock *From = getOrAddBlock(A.From); BasicBlock *To = getOrAddBlock(A.To); if (Arcs.count(A) != 0) return false; Arcs.insert(A); ConnectBlocks(From, To); return true; } bool CFGBuilder::disconnect(const Arc &A) { assert(NameToBlock.count(A.From) != 0 && "No block to disconnect (From)"); assert(NameToBlock.count(A.To) != 0 && "No block to disconnect (To)"); if (Arcs.count(A) == 0) return false; BasicBlock *From = getOrAddBlock(A.From); BasicBlock *To = getOrAddBlock(A.To); Arcs.erase(A); DisconnectBlocks(From, To); return true; } void CFGBuilder::buildCFG(const std::vector &NewArcs) { for (const auto &A : NewArcs) { const bool Connected = connect(A); (void)Connected; assert(Connected); } } Optional CFGBuilder::getNextUpdate() const { if (UpdateIdx == Updates.size()) return None; return Updates[UpdateIdx]; } Optional CFGBuilder::applyUpdate() { if (UpdateIdx == Updates.size()) return None; Update NextUpdate = Updates[UpdateIdx++]; if (NextUpdate.Action == ActionKind::Insert) connect(NextUpdate.Edge); else disconnect(NextUpdate.Edge); return NextUpdate; } void CFGBuilder::dump(raw_ostream &OS) const { OS << "Arcs:\n"; size_t i = 0; for (const auto &A : Arcs) OS << " " << i++ << ":\t" << A.From << " -> " << A.To << "\n"; OS << "Updates:\n"; i = 0; for (const auto &U : Updates) { OS << (i + 1 == UpdateIdx ? "->" : " ") << i << ((U.Action == ActionKind::Insert) ? "\tIns " : "\tDel ") << U.Edge.From << " -> " << U.Edge.To << "\n"; ++i; } } //---- CFGBuilder tests ---------------------------------------------------===// TEST(CFGBuilder, Construction) { CFGHolder Holder; std::vector Arcs = {{"entry", "a"}, {"a", "b"}, {"a", "c"}, {"c", "d"}, {"d", "b"}, {"d", "e"}, {"d", "f"}, {"e", "f"}}; CFGBuilder B(Holder.F, Arcs, {}); EXPECT_TRUE(B.getOrAddBlock("entry") == &Holder.F->getEntryBlock()); EXPECT_TRUE(isa(B.getOrAddBlock("entry")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("a")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("b")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("d")->getTerminator())); auto *DSwitch = cast(B.getOrAddBlock("d")->getTerminator()); // d has 3 successors, but one of them if going to be a default case EXPECT_EQ(DSwitch->getNumCases(), 2U); EXPECT_FALSE(B.getNextUpdate()); // No updates to apply. } TEST(CFGBuilder, Insertions) { CFGHolder Holder; const auto Insert = CFGBuilder::ActionKind::Insert; std::vector Updates = { {Insert, {"entry", "a"}}, {Insert, {"a", "b"}}, {Insert, {"a", "c"}}, {Insert, {"c", "d"}}, {Insert, {"d", "b"}}, {Insert, {"d", "e"}}, {Insert, {"d", "f"}}, {Insert, {"e", "f"}}}; const size_t NumUpdates = Updates.size(); CFGBuilder B(Holder.F, {}, Updates); size_t i = 0; while (B.applyUpdate()) ++i; EXPECT_EQ(i, NumUpdates); EXPECT_TRUE(B.getOrAddBlock("entry") == &Holder.F->getEntryBlock()); EXPECT_TRUE(isa(B.getOrAddBlock("entry")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("a")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("b")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("d")->getTerminator())); auto *DSwitch = cast(B.getOrAddBlock("d")->getTerminator()); // d has 3 successors, but one of them if going to be a default case EXPECT_EQ(DSwitch->getNumCases(), 2U); EXPECT_FALSE(B.getNextUpdate()); // No updates to apply. } TEST(CFGBuilder, Deletions) { CFGHolder Holder; std::vector Arcs = { {"entry", "a"}, {"a", "b"}, {"a", "c"}, {"c", "d"}, {"d", "b"}}; const auto Delete = CFGBuilder::ActionKind::Delete; std::vector Updates = { {Delete, {"c", "d"}}, {Delete, {"a", "c"}}, {Delete, {"entry", "a"}}, }; const size_t NumUpdates = Updates.size(); CFGBuilder B(Holder.F, Arcs, Updates); EXPECT_TRUE(isa(B.getOrAddBlock("entry")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("a")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("c")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("d")->getTerminator())); auto UpdateC = B.applyUpdate(); EXPECT_TRUE(UpdateC); EXPECT_EQ(UpdateC->Action, CFGBuilder::ActionKind::Delete); EXPECT_EQ(UpdateC->Edge.From, "c"); EXPECT_EQ(UpdateC->Edge.To, "d"); EXPECT_TRUE(isa(B.getOrAddBlock("c")->getTerminator())); size_t i = 1; while (B.applyUpdate()) ++i; EXPECT_EQ(i, NumUpdates); EXPECT_TRUE(isa(B.getOrAddBlock("a")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("entry")->getTerminator())); } TEST(CFGBuilder, Rebuild) { CFGHolder Holder; std::vector Arcs = { {"entry", "a"}, {"a", "b"}, {"a", "c"}, {"c", "d"}, {"d", "b"}}; const auto Insert = CFGBuilder::ActionKind::Insert; const auto Delete = CFGBuilder::ActionKind::Delete; std::vector Updates = { {Delete, {"c", "d"}}, {Delete, {"a", "c"}}, {Delete, {"entry", "a"}}, {Insert, {"c", "d"}}, {Insert, {"a", "c"}}, {Insert, {"entry", "a"}}, }; const size_t NumUpdates = Updates.size(); CFGBuilder B(Holder.F, Arcs, Updates); size_t i = 0; while (B.applyUpdate()) ++i; EXPECT_EQ(i, NumUpdates); EXPECT_TRUE(isa(B.getOrAddBlock("entry")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("a")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("c")->getTerminator())); EXPECT_TRUE(isa(B.getOrAddBlock("d")->getTerminator())); }