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Add dead loop elimination, which removes dead loops for which we can compute
the trip count. llvm-svn: 50382
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8696eb18c1
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@ -114,6 +114,7 @@ namespace {
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(void) llvm::createCodeGenPreparePass();
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(void) llvm::createGVNPass();
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(void) llvm::createMemCpyOptPass();
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(void) llvm::createDeadLoopEliminationPass();
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(void)new llvm::IntervalPartition();
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(void)new llvm::FindUsedTypes();
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@ -317,6 +317,13 @@ FunctionPass *createGVNPass();
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//
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FunctionPass *createMemCpyOptPass();
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//===----------------------------------------------------------------------===//
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//
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// DeadLoopElimination - This pass performs DCE of non-infinite loops that it
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// can prove are dead.
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//
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LoopPass *createDeadLoopEliminationPass();
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//===----------------------------------------------------------------------===//
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//
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// CodeGenPrepare - This pass prepares a function for instruction selection.
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239
lib/Transforms/Scalar/DeadLoopElimination.cpp
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239
lib/Transforms/Scalar/DeadLoopElimination.cpp
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@ -0,0 +1,239 @@
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//===- DeadLoopElimination.cpp - Dead Loop Elimination Pass ---------------===//
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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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//
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// This file implements the Dead Loop Elimination Pass.
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//
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "dead-loop"
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#include "llvm/Transforms/Scalar.h"
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#include "llvm/Instruction.h"
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#include "llvm/Analysis/LoopInfo.h"
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#include "llvm/Analysis/LoopPass.h"
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#include "llvm/ADT/Statistic.h"
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#include "llvm/ADT/SmallVector.h"
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using namespace llvm;
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STATISTIC(NumDeleted, "Number of loops deleted");
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namespace {
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class VISIBILITY_HIDDEN DeadLoopElimination : public LoopPass {
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public:
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static char ID; // Pass ID, replacement for typeid
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DeadLoopElimination() : LoopPass((intptr_t)&ID) { }
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// Possibly eliminate loop L if it is dead.
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bool runOnLoop(Loop* L, LPPassManager& LPM);
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bool SingleDominatingExit(Loop* L);
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bool IsLoopDead(Loop* L);
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bool IsLoopInvariantInst(Instruction *I, Loop* L);
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virtual void getAnalysisUsage(AnalysisUsage& AU) const {
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AU.addRequired<DominatorTree>();
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AU.addRequired<LoopInfo>();
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AU.addRequiredID(LoopSimplifyID);
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AU.addRequiredID(LCSSAID);
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AU.addPreserved<DominatorTree>();
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AU.addPreserved<LoopInfo>();
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AU.addPreservedID(LoopSimplifyID);
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AU.addPreservedID(LCSSAID);
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}
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};
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char DeadLoopElimination::ID = 0;
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RegisterPass<DeadLoopElimination> X ("dead-loop", "Eliminate dead loops");
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}
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LoopPass* llvm::createDeadLoopEliminationPass() {
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return new DeadLoopElimination();
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}
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bool DeadLoopElimination::SingleDominatingExit(Loop* L) {
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SmallVector<BasicBlock*, 4> exitingBlocks;
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L->getExitingBlocks(exitingBlocks);
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if (exitingBlocks.size() != 1)
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return 0;
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BasicBlock* latch = L->getLoopLatch();
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if (!latch)
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return 0;
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DominatorTree& DT = getAnalysis<DominatorTree>();
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if (DT.dominates(exitingBlocks[0], latch))
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return exitingBlocks[0];
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else
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return 0;
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}
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bool DeadLoopElimination::IsLoopInvariantInst(Instruction *I, Loop* L) {
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// PHI nodes are not loop invariant if defined in the loop.
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if (isa<PHINode>(I) && L->contains(I->getParent()))
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return false;
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// The instruction is loop invariant if all of its operands are loop-invariant
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for (unsigned i = 0, e = I->getNumOperands(); i != e; ++i)
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if (!L->isLoopInvariant(I->getOperand(i)))
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return false;
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// If we got this far, the instruction is loop invariant!
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return true;
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}
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bool DeadLoopElimination::IsLoopDead(Loop* L) {
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SmallVector<BasicBlock*, 1> exitingBlocks;
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L->getExitingBlocks(exitingBlocks);
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BasicBlock* exitingBlock = exitingBlocks[0];
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// Get the set of out-of-loop blocks that the exiting block branches to.
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SmallVector<BasicBlock*, 8> exitBlocks;
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L->getUniqueExitBlocks(exitBlocks);
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if (exitBlocks.size() > 1)
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return false;
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BasicBlock* exitBlock = exitBlocks[0];
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// Make sure that all PHI entries coming from the loop are loop invariant.
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BasicBlock::iterator BI = exitBlock->begin();
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while (PHINode* P = dyn_cast<PHINode>(BI)) {
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Value* incoming = P->getIncomingValueForBlock(exitingBlock);
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if (Instruction* I = dyn_cast<Instruction>(incoming))
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if (!IsLoopInvariantInst(I, L))
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return false;
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BI++;
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}
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// Make sure that no instructions in the block have potential side-effects.
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for (Loop::block_iterator LI = L->block_begin(), LE = L->block_end();
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LI != LE; ++LI) {
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for (BasicBlock::iterator BI = (*LI)->begin(), BE = (*LI)->end();
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BI != BE; ++BI) {
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if (BI->mayWriteToMemory())
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return false;
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}
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}
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return true;
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}
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bool DeadLoopElimination::runOnLoop(Loop* L, LPPassManager& LPM) {
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// Don't remove loops for which we can't solve the trip count.
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// They could be infinite, in which case we'd be changing program behavior.
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if (L->getTripCount())
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return false;
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// We can only remove the loop if there is a preheader that we can
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// branch from after removing it.
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BasicBlock* preheader = L->getLoopPreheader();
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if (!preheader)
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return false;
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// We can't remove loops that contain subloops. If the subloops were dead,
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// they would already have been removed in earlier executions of this pass.
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if (L->begin() != L->end())
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return false;
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// Loops with multiple exits or exits that don't dominate the latch
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// are too complicated to handle correctly.
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if (!SingleDominatingExit(L))
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return false;
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// Finally, we have to check that the loop really is dead.
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if (!IsLoopDead(L))
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return false;
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// Now that we know the removal is safe, change the branch from the preheader
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// to go to the single exiting block.
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SmallVector<BasicBlock*, 1> exitingBlocks;
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L->getExitingBlocks(exitingBlocks);
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BasicBlock* exitingBlock = exitingBlocks[0];
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SmallVector<BasicBlock*, 1> exitBlocks;
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L->getUniqueExitBlocks(exitBlocks);
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BasicBlock* exitBlock = exitBlocks[0];
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Function* F = L->getLoopLatch()->getParent();
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for (Loop::block_iterator LI = L->block_begin(), LE = L->block_end();
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LI != LE; ++LI)
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for (BasicBlock::iterator BI = (*LI)->begin(), BE = (*LI)->end();
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BI != BE; ) {
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Instruction* I = BI++;
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if (I->getNumUses() > 0 && IsLoopInvariantInst(I, L))
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I->moveBefore(preheader->getTerminator());
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}
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TerminatorInst* TI = preheader->getTerminator();
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if (BranchInst* BI = dyn_cast<BranchInst>(TI)) {
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if (BI->isUnconditional())
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BI->setSuccessor(0, exitBlock);
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else if (L->contains(BI->getSuccessor(0)))
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BI->setSuccessor(0, exitBlock);
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else
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BI->setSuccessor(1, exitBlock);
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} else {
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return false;
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}
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BasicBlock::iterator BI = exitBlock->begin();
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while (PHINode* P = dyn_cast<PHINode>(BI)) {
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unsigned i = P->getBasicBlockIndex(exitingBlock);
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P->setIncomingBlock(i, preheader);
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BI++;
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}
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DominatorTree& DT = getAnalysis<DominatorTree>();
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for (Loop::block_iterator LI = L->block_begin(), LE = L->block_end();
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LI != LE; ++LI) {
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SmallPtrSet<DomTreeNode*, 8> childNodes;
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childNodes.insert(DT[*LI]->begin(), DT[*LI]->end());
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for (SmallPtrSet<DomTreeNode*, 8>::iterator DI = childNodes.begin(),
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DE = childNodes.end(); DI != DE; ++DI)
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DT.changeImmediateDominator(*DI, DT[preheader]);
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DT.eraseNode(*LI);
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for (BasicBlock::iterator BI = (*LI)->begin(), BE = (*LI)->end();
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BI != BE; ++BI) {
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BI->dropAllReferences();
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}
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(*LI)->dropAllReferences();
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}
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unsigned bar = 0;
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for (Loop::block_iterator LI = L->block_begin(), LE = L->block_end();
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LI != LE; ++LI) {
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for (BasicBlock::iterator BI = (*LI)->begin(), BE = (*LI)->end();
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BI != BE; ) {
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Instruction* I = BI++;
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I->eraseFromParent();
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}
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(*LI)->eraseFromParent();
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}
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LoopInfo& loopInfo = getAnalysis<LoopInfo>();
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SmallPtrSet<BasicBlock*, 8> blocks;
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blocks.insert(L->block_begin(), L->block_end());
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for (SmallPtrSet<BasicBlock*,8>::iterator I = blocks.begin(),
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E = blocks.end(); I != E; ++I)
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loopInfo.removeBlock(*I);
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LPM.deleteLoopFromQueue(L);
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NumDeleted++;
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return true;
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}
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