diff options
Diffstat (limited to 'lib/Transforms/Utils/SimplifyCFG.cpp')
| -rw-r--r-- | lib/Transforms/Utils/SimplifyCFG.cpp | 443 |
1 files changed, 432 insertions, 11 deletions
diff --git a/lib/Transforms/Utils/SimplifyCFG.cpp b/lib/Transforms/Utils/SimplifyCFG.cpp index eaeb19f..084b74c 100644 --- a/lib/Transforms/Utils/SimplifyCFG.cpp +++ b/lib/Transforms/Utils/SimplifyCFG.cpp @@ -19,6 +19,7 @@ #include "llvm/ADT/SmallPtrSet.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/Statistic.h" +#include "llvm/Analysis/AliasAnalysis.h" #include "llvm/Analysis/InstructionSimplify.h" #include "llvm/Analysis/TargetTransformInfo.h" #include "llvm/Analysis/ValueTracking.h" @@ -65,6 +66,10 @@ static cl::opt<bool> HoistCondStores("simplifycfg-hoist-cond-stores", cl::Hidden, cl::init(true), cl::desc("Hoist conditional stores if an unconditional store preceeds")); +static cl::opt<bool> +ParallelAndOr("simplifycfg-parallel-and-or", cl::Hidden, cl::init(true), + cl::desc("Use parallel-and-or mode for branch conditions")); + STATISTIC(NumBitMaps, "Number of switch instructions turned into bitmaps"); STATISTIC(NumLookupTables, "Number of switch instructions turned into lookup tables"); STATISTIC(NumSinkCommons, "Number of common instructions sunk down to the end block"); @@ -90,6 +95,7 @@ namespace { class SimplifyCFGOpt { const TargetTransformInfo &TTI; const DataLayout *const TD; + AliasAnalysis *AA; Value *isValueEqualityComparison(TerminatorInst *TI); BasicBlock *GetValueEqualityComparisonCases(TerminatorInst *TI, @@ -107,10 +113,25 @@ class SimplifyCFGOpt { bool SimplifyIndirectBr(IndirectBrInst *IBI); bool SimplifyUncondBranch(BranchInst *BI, IRBuilder <> &Builder); bool SimplifyCondBranch(BranchInst *BI, IRBuilder <>&Builder); + /// \brief Use parallel-and or parallel-or to generate conditions for + /// conditional branches. + bool SimplifyParallelAndOr(BasicBlock *BB, IRBuilder<> &Builder, Pass *P = 0); + /// \brief If \param BB is the merge block of an if-region, attempt to merge + /// the if-region with an adjacent if-region upstream if two if-regions + /// contain identical instructions. + bool MergeIfRegion(BasicBlock *BB, IRBuilder<> &Builder, Pass *P = 0); + /// \brief Compare a pair of blocks: \param Block1 and \param Block2, which + /// are from two if-regions whose entry blocks are \param Head1 and \param + /// Head2. \returns true if \param Block1 and \param Block2 contain identical + /// instructions, and have no memory reference alias with \param Head2. + /// This is used as a legality check for merging if-regions. + bool CompareIfRegionBlock(BasicBlock *Head1, BasicBlock *Head2, + BasicBlock *Block1, BasicBlock *Block2); public: - SimplifyCFGOpt(const TargetTransformInfo &TTI, const DataLayout *TD) - : TTI(TTI), TD(TD) {} + SimplifyCFGOpt(const TargetTransformInfo &TTI, const DataLayout *TD, + AliasAnalysis *AA) + : TTI(TTI), TD(TD), AA(AA) {} bool run(BasicBlock *BB); }; } @@ -197,8 +218,8 @@ static void AddPredecessorToBlock(BasicBlock *Succ, BasicBlock *NewPred, } -/// GetIfCondition - Given a basic block (BB) with two predecessors (and at -/// least one PHI node in it), check to see if the merge at this block is due +/// GetIfCondition - Given a basic block (BB) with two predecessors, +/// check to see if the merge at this block is due /// to an "if condition". If so, return the boolean condition that determines /// which entry into BB will be taken. Also, return by references the block /// that will be entered from if the condition is true, and the block that will @@ -208,11 +229,26 @@ static void AddPredecessorToBlock(BasicBlock *Succ, BasicBlock *NewPred, /// instructions in them. static Value *GetIfCondition(BasicBlock *BB, BasicBlock *&IfTrue, BasicBlock *&IfFalse) { - PHINode *SomePHI = cast<PHINode>(BB->begin()); - assert(SomePHI->getNumIncomingValues() == 2 && - "Function can only handle blocks with 2 predecessors!"); - BasicBlock *Pred1 = SomePHI->getIncomingBlock(0); - BasicBlock *Pred2 = SomePHI->getIncomingBlock(1); + PHINode *SomePHI = dyn_cast<PHINode>(BB->begin()); + BasicBlock *Pred1 = NULL; + BasicBlock *Pred2 = NULL; + + if (SomePHI) { + if (SomePHI->getNumIncomingValues() != 2) + return NULL; + Pred1 = SomePHI->getIncomingBlock(0); + Pred2 = SomePHI->getIncomingBlock(1); + } else { + pred_iterator PI = pred_begin(BB), PE = pred_end(BB); + if (PI == PE) // No predecessor + return NULL; + Pred1 = *PI++; + if (PI == PE) // Only one predecessor + return NULL; + Pred2 = *PI++; + if (PI != PE) // More than two predecessors + return NULL; + } // We can only handle branches. Other control flow will be lowered to // branches if possible anyway. @@ -4066,6 +4102,383 @@ bool SimplifyCFGOpt::SimplifyCondBranch(BranchInst *BI, IRBuilder<> &Builder) { return false; } +/// If \param [in] BB has more than one predecessor that is a conditional +/// branch, attempt to use parallel and/or for the branch condition. \returns +/// true on success. +/// +/// Before: +/// ...... +/// %cmp10 = fcmp une float %tmp1, %tmp2 +/// br i1 %cmp1, label %if.then, label %lor.rhs +/// +/// lor.rhs: +/// ...... +/// %cmp11 = fcmp une float %tmp3, %tmp4 +/// br i1 %cmp11, label %if.then, label %ifend +/// +/// if.end: // the merge block +/// ...... +/// +/// if.then: // has two predecessors, both of them contains conditional branch. +/// ...... +/// br label %if.end; +/// +/// After: +/// ...... +/// %cmp10 = fcmp une float %tmp1, %tmp2 +/// ...... +/// %cmp11 = fcmp une float %tmp3, %tmp4 +/// %cmp12 = or i1 %cmp10, %cmp11 // parallel-or mode. +/// br i1 %cmp12, label %if.then, label %ifend +/// +/// if.end: +/// ...... +/// +/// if.then: +/// ...... +/// br label %if.end; +/// +/// Current implementation handles two cases. +/// Case 1: \param BB is on the else-path. +/// +/// BB1 +/// / | +/// BB2 | +/// / \ | +/// BB3 \ | where, BB1, BB2 contain conditional branches. +/// \ | / BB3 contains unconditional branch. +/// \ | / BB4 corresponds to \param BB which is also the merge. +/// BB => BB4 +/// +/// +/// Corresponding source code: +/// +/// if (a == b && c == d) +/// statement; // BB3 +/// +/// Case 2: \param BB BB is on the then-path. +/// +/// BB1 +/// / | +/// | BB2 +/// \ / | where BB1, BB2 contain conditional branches. +/// BB => BB3 | BB3 contains unconditiona branch and corresponds +/// \ / to \param BB. BB4 is the merge. +/// BB4 +/// +/// Corresponding source code: +/// +/// if (a == b || c == d) +/// statement; // BB3 +/// +/// In both cases, \param BB is the common successor of conditional branches. +/// In Case 1, \param BB (BB4) has an unconditional branch (BB3) as +/// its predecessor. In Case 2, \param BB (BB3) only has conditional branches +/// as its predecessors. +/// +bool SimplifyCFGOpt::SimplifyParallelAndOr(BasicBlock *BB, IRBuilder<> &Builder, + Pass *P) { + PHINode *PHI = dyn_cast<PHINode>(BB->begin()); + if (PHI) + return false; // For simplicity, avoid cases containing PHI nodes. + + BasicBlock *LastCondBlock = NULL; + BasicBlock *FirstCondBlock = NULL; + BasicBlock *UnCondBlock = NULL; + int Idx = -1; + + // Check predecessors of \param BB. + SmallPtrSet<BasicBlock*, 16> Preds(pred_begin(BB), pred_end(BB)); + for (SmallPtrSetIterator<BasicBlock*> PI = Preds.begin(), PE = Preds.end(); + PI != PE; ++PI) { + BasicBlock *Pred = *PI; + BranchInst *PBI = dyn_cast<BranchInst>(Pred->getTerminator()); + + // All predecessors should terminate with a branch. + if (!PBI) + return false; + + BasicBlock *PP = Pred->getSinglePredecessor(); + + if (PBI->isUnconditional()) { + // Case 1: Pred (BB3) is an unconditional block, it should + // have a single predecessor (BB2) that is also a predecessor + // of \param BB (BB4) and should not have address-taken. + // There should exist only one such unconditional + // branch among the predecessors. + if (UnCondBlock || !PP || (Preds.count(PP) == 0) || + Pred->hasAddressTaken()) + return false; + + UnCondBlock = Pred; + continue; + } + + // Only conditional branches are allowed beyond this point. + assert(PBI->isConditional()); + + // Condition's unique use should be the branch instruction. + Value *PC = PBI->getCondition(); + if (!PC || !PC->hasOneUse()) + return false; + + if (PP && Preds.count(PP)) { + // These are internal condition blocks to be merged from, e.g., + // BB2 in both cases. + // Should not be address-taken. + if (Pred->hasAddressTaken()) + return false; + + // Instructions in the internal condition blocks should be safe + // to hoist up. + for (BasicBlock::iterator BI = Pred->begin(), BE = PBI; BI != BE;) { + Instruction *CI = BI++; + if (isa<PHINode>(CI) || + !isSafeToSpeculativelyExecute(CI)) + return false; + } + } else { + // This is the condition block to be merged into, e.g. BB1 in + // both cases. + if (FirstCondBlock) + return false; + FirstCondBlock = Pred; + } + + // Find whether BB is uniformly on the true (or false) path + // for all of its predecessors. + BasicBlock *PS1 = PBI->getSuccessor(0); + BasicBlock *PS2 = PBI->getSuccessor(1); + BasicBlock *PS = (PS1 == BB) ? PS2 : PS1; + int CIdx = (PS1 == BB) ? 0 : 1; + + if (Idx == -1) + Idx = CIdx; + else if (CIdx != Idx) + return false; + + // PS is the successor which is not BB. Check successors to identify + // the last conditional branch. + if (Preds.count(PS) == 0) { + // Case 2. + // BB must have an unique successor. + TerminatorInst *TBB = BB->getTerminator(); + if (TBB->getNumSuccessors() != 1) + return false; + + BasicBlock *SBB = TBB->getSuccessor(0); + PHI = dyn_cast<PHINode>(SBB->begin()); + if (PHI) + return false; + + // PS (BB4) should be BB's successor. + if (SBB != PS) + return false; + LastCondBlock = Pred; + } else { + BranchInst *BPS = dyn_cast<BranchInst>(PS->getTerminator()); + if (BPS && BPS->isUnconditional()) { + // Case 1: PS(BB3) should be an unconditional branch. + LastCondBlock = Pred; + } + } + } + + if (!FirstCondBlock || !LastCondBlock || (FirstCondBlock == LastCondBlock)) + return false; + + // Do the transformation. + BasicBlock *CB; + bool Iteration = true; + BasicBlock::iterator ItOld = Builder.GetInsertPoint(); + BranchInst *PBI = dyn_cast<BranchInst>(FirstCondBlock->getTerminator()); + Value *PC = PBI->getCondition(); + do { + CB = PBI->getSuccessor(1 - Idx); + // Delete the conditional branch. + FirstCondBlock->getInstList().pop_back(); + FirstCondBlock->getInstList().splice(FirstCondBlock->end(), CB->getInstList()); + PBI = cast<BranchInst>(FirstCondBlock->getTerminator()); + Value *CC = PBI->getCondition(); + // Merge conditions. + Builder.SetInsertPoint(PBI); + Value *NC; + if (Idx == 0) + // Case 2, use parallel or. + NC = Builder.CreateOr(PC, CC); + else + // Case 1, use parallel and. + NC = Builder.CreateAnd(PC, CC); + + PBI->replaceUsesOfWith(CC, NC); + PC = NC; + if (CB == LastCondBlock) + Iteration = false; + // Remove internal conditional branches. + CB->dropAllReferences(); + // make CB unreachable and let downstream to delete the block. + new UnreachableInst(CB->getContext(), CB); + } while (Iteration); + + Builder.SetInsertPoint(ItOld); + DEBUG(dbgs() << "Use parallel and/or in:\n" << *FirstCondBlock); + return true; +} + +/// Compare blocks from two if-regions, where \param Head1 is the entry of the +/// 1st if-region. \param Head2 is the entry of the 2nd if-region. \param +/// Block1 is a block in the 1st if-region to compare. \param Block2 is a block +// in the 2nd if-region to compare. \returns true if \param Block1 and \param +/// Block2 have identical instructions and do not have memory reference alias +/// with \param Head2. +/// +bool SimplifyCFGOpt::CompareIfRegionBlock(BasicBlock *Head1, BasicBlock *Head2, + BasicBlock *Block1, BasicBlock *Block2) { + TerminatorInst *PTI2 = Head2->getTerminator(); + Instruction *PBI2 = Head2->begin(); + + bool eq1 = (Block1 == Head1); + bool eq2 = (Block2 == Head2); + if (eq1 || eq2) { + // An empty then-path or else-path. + return (eq1 == eq2); + } + + // Check whether instructions in Block1 and Block2 are identical + // and do not alias with instructions in Head2. + BasicBlock::iterator iter1 = Block1->begin(); + BasicBlock::iterator end1 = Block1->getTerminator(); + BasicBlock::iterator iter2 = Block2->begin(); + BasicBlock::iterator end2 = Block2->getTerminator(); + + while (1) { + if (iter1 == end1) { + if (iter2 != end2) + return false; + break; + } + + if (!iter1->isIdenticalTo(iter2)) + return false; + + // Illegal to remove instructions with side effects except + // non-volatile stores. + if (iter1->mayHaveSideEffects()) { + Instruction *CurI = &*iter1; + StoreInst *SI = dyn_cast<StoreInst>(CurI); + if (!SI || SI->isVolatile()) + return false; + } + + // For simplicity and speed, data dependency check can be + // avoided if read from memory doesn't exist. + if (iter1->mayReadFromMemory()) + return false; + + if (iter1->mayWriteToMemory()) { + for (BasicBlock::iterator BI = PBI2, BE = PTI2; BI != BE; ++BI) { + if (BI->mayReadFromMemory() || BI->mayWriteToMemory()) { + // Check alias with Head2. + if (!AA || AA->alias(iter1, BI)) + return false; + } + } + } + ++iter1; + ++iter2; + } + + return true; +} + +/// Check whether \param BB is the merge block of a if-region. If yes, check +/// whether there exists an adjacent if-region upstream, the two if-regions +/// contain identical instuctions and can be legally merged. \returns true if +/// the two if-regions are merged. +/// +/// From: +/// if (a) +/// statement; +/// if (b) +/// statement; +/// +/// To: +/// if (a || b) +/// statement; +/// +bool SimplifyCFGOpt::MergeIfRegion(BasicBlock *BB, IRBuilder<> &Builder, + Pass *P) { + BasicBlock *IfTrue2, *IfFalse2; + Value *IfCond2 = GetIfCondition(BB, IfTrue2, IfFalse2); + Instruction *CInst2 = dyn_cast_or_null<Instruction>(IfCond2); + if (!CInst2) + return false; + + BasicBlock *SecondEntryBlock = CInst2->getParent(); + if (SecondEntryBlock->hasAddressTaken()) + return false; + + BasicBlock *IfTrue1, *IfFalse1; + Value *IfCond1 = GetIfCondition(SecondEntryBlock, IfTrue1, IfFalse1); + Instruction *CInst1 = dyn_cast_or_null<Instruction>(IfCond1); + if (!CInst1) + return false; + + BasicBlock *FirstEntryBlock = CInst1->getParent(); + + // Either then-path or else-path should be empty. + if ((IfTrue1 != FirstEntryBlock) && (IfFalse1 != FirstEntryBlock)) + return false; + if ((IfTrue2 != SecondEntryBlock) && (IfFalse2 != SecondEntryBlock)) + return false; + + TerminatorInst *PTI2 = SecondEntryBlock->getTerminator(); + Instruction *PBI2 = SecondEntryBlock->begin(); + + if (!CompareIfRegionBlock(FirstEntryBlock, SecondEntryBlock, IfTrue1, IfTrue2)) + return false; + + if (!CompareIfRegionBlock(FirstEntryBlock, SecondEntryBlock, IfFalse1, IfFalse2)) + return false; + + // Check whether \param SecondEntryBlock has side-effect and is safe to speculate. + for (BasicBlock::iterator BI = PBI2, BE = PTI2; BI != BE; ++BI) { + Instruction *CI = BI; + if (isa<PHINode>(CI) || CI->mayHaveSideEffects() || + !isSafeToSpeculativelyExecute(CI)) + return false; + } + + // Merge \param SecondEntryBlock into \param FirstEntryBlock. + FirstEntryBlock->getInstList().pop_back(); + FirstEntryBlock->getInstList().splice(FirstEntryBlock->end(), SecondEntryBlock->getInstList()); + BranchInst *PBI = dyn_cast<BranchInst>(FirstEntryBlock->getTerminator()); + Value *CC = PBI->getCondition(); + BasicBlock::iterator ItOld = Builder.GetInsertPoint(); + Builder.SetInsertPoint(PBI); + Value *NC = Builder.CreateOr(CInst1, CC); + PBI->replaceUsesOfWith(CC, NC); + Builder.SetInsertPoint(ItOld); + + // Remove IfTrue1 + if (IfTrue1 != FirstEntryBlock) { + IfTrue1->dropAllReferences(); + IfTrue1->eraseFromParent(); + } + + // Remove IfFalse1 + if (IfFalse1 != FirstEntryBlock) { + IfFalse1->dropAllReferences(); + IfFalse1->eraseFromParent(); + } + + // Remove \param SecondEntryBlock + SecondEntryBlock->dropAllReferences(); + SecondEntryBlock->eraseFromParent(); + DEBUG(dbgs() << "If conditions merged into:\n" << *FirstEntryBlock); + return true; +} + /// Check if passing a value to an instruction will cause undefined behavior. static bool passingValueIsAlwaysUndefined(Value *V, Instruction *I) { Constant *C = dyn_cast<Constant>(V); @@ -4168,6 +4581,11 @@ bool SimplifyCFGOpt::run(BasicBlock *BB) { return true; IRBuilder<> Builder(BB); + // Whether to optimize conditional branches. + bool OptCB = (ParallelAndOr && AA && TTI.hasBranchDivergence()); + + if (OptCB && SimplifyParallelAndOr(BB, Builder)) + return true; // If there is a trivial two-entry PHI node in this basic block, and we can // eliminate it, do so now. @@ -4196,6 +4614,9 @@ bool SimplifyCFGOpt::run(BasicBlock *BB) { if (SimplifyIndirectBr(IBI)) return true; } + if (OptCB && MergeIfRegion(BB, Builder)) + return true; + return Changed; } @@ -4205,6 +4626,6 @@ bool SimplifyCFGOpt::run(BasicBlock *BB) { /// of the CFG. It returns true if a modification was made. /// bool llvm::SimplifyCFG(BasicBlock *BB, const TargetTransformInfo &TTI, - const DataLayout *TD) { - return SimplifyCFGOpt(TTI, TD).run(BB); + const DataLayout *TD, AliasAnalysis *AA) { + return SimplifyCFGOpt(TTI, TD, AA).run(BB); } |