//===--- Utils.cpp - Utility functions for the code generation --*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file contains utility functions for the code generation. // //===----------------------------------------------------------------------===// #include "polly/CodeGen/Utils.h" #include "polly/CodeGen/IRBuilder.h" #include "polly/ScopInfo.h" #include "llvm/Analysis/LoopInfo.h" #include "llvm/Analysis/RegionInfo.h" #include "llvm/Support/Debug.h" #include "llvm/Transforms/Utils/BasicBlockUtils.h" using namespace llvm; // Alternative to llvm::SplitCriticalEdge. // // Creates a new block which branches to Succ. The edge to split is redirected // to the new block. // // The issue with llvm::SplitCriticalEdge is that it does nothing if the edge is // not critical. // The issue with llvm::SplitEdge is that it does not always create the middle // block, but reuses Prev/Succ if it can. We always want a new middle block. static BasicBlock *splitEdge(BasicBlock *Prev, BasicBlock *Succ, const char *Suffix, DominatorTree *DT, LoopInfo *LI, RegionInfo *RI) { assert(Prev && Succ); // Before: // \ / / // // Prev / // // | \___/ // // | ___ // // | / \ // // Succ \ // // / \ \ // // The algorithm to update DominatorTree and LoopInfo of // llvm::SplitCriticalEdge is more efficient than // llvm::SplitBlockPredecessors, which is more general. In the future we might // either modify llvm::SplitCriticalEdge to allow skipping the critical edge // check; or Copy&Pase it here. BasicBlock *MiddleBlock = SplitBlockPredecessors( Succ, ArrayRef(Prev), Suffix, DT, LI); if (RI) { Region *PrevRegion = RI->getRegionFor(Prev); Region *SuccRegion = RI->getRegionFor(Succ); if (PrevRegion->contains(MiddleBlock)) { RI->setRegionFor(MiddleBlock, PrevRegion); } else { RI->setRegionFor(MiddleBlock, SuccRegion); } } // After: // \ / / // // Prev / // // | \___/ // // | // // MiddleBlock // // | ___ // // | / \ // // Succ \ // // / \ \ // return MiddleBlock; } std::pair polly::executeScopConditionally(Scop &S, Value *RTC, DominatorTree &DT, RegionInfo &RI, LoopInfo &LI) { Region &R = S.getRegion(); PollyIRBuilder Builder(S.getEntry()); // Before: // // \ / // // EnteringBB // // _____|_____ // // / EntryBB \ // // | (region) | // // \_ExitingBB_/ // // | // // ExitBB // // / \ // // Create a fork block. BasicBlock *EnteringBB = S.getEnteringBlock(); BasicBlock *EntryBB = S.getEntry(); assert(EnteringBB && "Must be a simple region"); BasicBlock *SplitBlock = splitEdge(EnteringBB, EntryBB, ".split_new_and_old", &DT, &LI, &RI); SplitBlock->setName("polly.split_new_and_old"); // If EntryBB is the exit block of the region that includes Prev, exclude // SplitBlock from that region by making it itself the exit block. This is // trivially possible because there is just one edge to EnteringBB. // This is necessary because we will add an outgoing edge from SplitBlock, // which would violate the single exit block requirement of PrevRegion. Region *PrevRegion = RI.getRegionFor(EnteringBB); while (PrevRegion->getExit() == EntryBB) { PrevRegion->replaceExit(SplitBlock); PrevRegion = PrevRegion->getParent(); } RI.setRegionFor(SplitBlock, PrevRegion); // Create a join block BasicBlock *ExitingBB = S.getExitingBlock(); BasicBlock *ExitBB = S.getExit(); assert(ExitingBB && "Must be a simple region"); BasicBlock *MergeBlock = splitEdge(ExitingBB, ExitBB, ".merge_new_and_old", &DT, &LI, &RI); MergeBlock->setName("polly.merge_new_and_old"); // Exclude the join block from the region. R.replaceExitRecursive(MergeBlock); RI.setRegionFor(MergeBlock, R.getParent()); // \ / // // EnteringBB // // | // // SplitBlock // // _____|_____ // // / EntryBB \ // // | (region) | // // \_ExitingBB_/ // // | // // MergeBlock // // | // // ExitBB // // / \ // // Create the start and exiting block. Function *F = SplitBlock->getParent(); BasicBlock *StartBlock = BasicBlock::Create(F->getContext(), "polly.start", F); BasicBlock *ExitingBlock = BasicBlock::Create(F->getContext(), "polly.exiting", F); SplitBlock->getTerminator()->eraseFromParent(); Builder.SetInsertPoint(SplitBlock); BranchInst *CondBr = Builder.CreateCondBr(RTC, StartBlock, S.getEntry()); if (Loop *L = LI.getLoopFor(SplitBlock)) { L->addBasicBlockToLoop(StartBlock, LI); L->addBasicBlockToLoop(ExitingBlock, LI); } DT.addNewBlock(StartBlock, SplitBlock); DT.addNewBlock(ExitingBlock, StartBlock); RI.setRegionFor(StartBlock, RI.getRegionFor(SplitBlock)); RI.setRegionFor(ExitingBlock, RI.getRegionFor(SplitBlock)); // \ / // // EnteringBB // // | // // SplitBlock---------\ // // _____|_____ | // // / EntryBB \ StartBlock // // | (region) | | // // \_ExitingBB_/ ExitingBlock // // | // // MergeBlock // // | // // ExitBB // // / \ // // Connect start block to exiting block. Builder.SetInsertPoint(StartBlock); Builder.CreateBr(ExitingBlock); DT.changeImmediateDominator(ExitingBlock, StartBlock); // Connect exiting block to join block. Builder.SetInsertPoint(ExitingBlock); Builder.CreateBr(MergeBlock); DT.changeImmediateDominator(MergeBlock, SplitBlock); // \ / // // EnteringBB // // | // // SplitBlock---------\ // // _____|_____ | // // / EntryBB \ StartBlock // // | (region) | | // // \_ExitingBB_/ ExitingBlock // // | | // // MergeBlock---------/ // // | // // ExitBB // // / \ // // // Split the edge between SplitBlock and EntryBB, to avoid a critical edge. splitEdge(SplitBlock, EntryBB, ".pre_entry_bb", &DT, &LI, &RI); // \ / // // EnteringBB // // | // // SplitBlock---------\ // // | | // // PreEntryBB | // // _____|_____ | // // / EntryBB \ StartBlock // // | (region) | | // // \_ExitingBB_/ ExitingBlock // // | | // // MergeBlock---------/ // // | // // ExitBB // // / \ // return std::make_pair(std::make_pair(StartBlock, ExitingBlock), CondBr); }