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c137120bb0
Change various bits of code to make better use of the existing PHINode API, to insulate them from forthcoming changes in how PHINodes store their operands. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@133434 91177308-0d34-0410-b5e6-96231b3b80d8
354 lines
14 KiB
C++
354 lines
14 KiB
C++
//===- LoopRotation.cpp - Loop Rotation 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 Loop Rotation Pass.
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//
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "loop-rotate"
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#include "llvm/Transforms/Scalar.h"
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#include "llvm/Function.h"
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#include "llvm/IntrinsicInst.h"
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#include "llvm/Analysis/CodeMetrics.h"
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#include "llvm/Analysis/LoopPass.h"
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#include "llvm/Analysis/InstructionSimplify.h"
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#include "llvm/Analysis/ScalarEvolution.h"
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#include "llvm/Transforms/Utils/Local.h"
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#include "llvm/Transforms/Utils/BasicBlockUtils.h"
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#include "llvm/Transforms/Utils/SSAUpdater.h"
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#include "llvm/Transforms/Utils/ValueMapper.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/ADT/Statistic.h"
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using namespace llvm;
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#define MAX_HEADER_SIZE 16
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STATISTIC(NumRotated, "Number of loops rotated");
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namespace {
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class LoopRotate : public LoopPass {
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public:
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static char ID; // Pass ID, replacement for typeid
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LoopRotate() : LoopPass(ID) {
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initializeLoopRotatePass(*PassRegistry::getPassRegistry());
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}
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// LCSSA form makes instruction renaming easier.
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virtual void getAnalysisUsage(AnalysisUsage &AU) const {
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AU.addPreserved<DominatorTree>();
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AU.addRequired<LoopInfo>();
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AU.addPreserved<LoopInfo>();
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AU.addRequiredID(LoopSimplifyID);
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AU.addPreservedID(LoopSimplifyID);
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AU.addRequiredID(LCSSAID);
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AU.addPreservedID(LCSSAID);
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AU.addPreserved<ScalarEvolution>();
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}
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bool runOnLoop(Loop *L, LPPassManager &LPM);
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bool rotateLoop(Loop *L);
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private:
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LoopInfo *LI;
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};
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}
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char LoopRotate::ID = 0;
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INITIALIZE_PASS_BEGIN(LoopRotate, "loop-rotate", "Rotate Loops", false, false)
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INITIALIZE_PASS_DEPENDENCY(LoopInfo)
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INITIALIZE_PASS_DEPENDENCY(LoopSimplify)
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INITIALIZE_PASS_DEPENDENCY(LCSSA)
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INITIALIZE_PASS_END(LoopRotate, "loop-rotate", "Rotate Loops", false, false)
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Pass *llvm::createLoopRotatePass() { return new LoopRotate(); }
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/// Rotate Loop L as many times as possible. Return true if
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/// the loop is rotated at least once.
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bool LoopRotate::runOnLoop(Loop *L, LPPassManager &LPM) {
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LI = &getAnalysis<LoopInfo>();
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// One loop can be rotated multiple times.
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bool MadeChange = false;
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while (rotateLoop(L))
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MadeChange = true;
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return MadeChange;
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}
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/// RewriteUsesOfClonedInstructions - We just cloned the instructions from the
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/// old header into the preheader. If there were uses of the values produced by
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/// these instruction that were outside of the loop, we have to insert PHI nodes
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/// to merge the two values. Do this now.
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static void RewriteUsesOfClonedInstructions(BasicBlock *OrigHeader,
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BasicBlock *OrigPreheader,
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ValueToValueMapTy &ValueMap) {
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// Remove PHI node entries that are no longer live.
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BasicBlock::iterator I, E = OrigHeader->end();
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for (I = OrigHeader->begin(); PHINode *PN = dyn_cast<PHINode>(I); ++I)
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PN->removeIncomingValue(PN->getBasicBlockIndex(OrigPreheader));
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// Now fix up users of the instructions in OrigHeader, inserting PHI nodes
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// as necessary.
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SSAUpdater SSA;
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for (I = OrigHeader->begin(); I != E; ++I) {
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Value *OrigHeaderVal = I;
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// If there are no uses of the value (e.g. because it returns void), there
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// is nothing to rewrite.
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if (OrigHeaderVal->use_empty())
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continue;
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Value *OrigPreHeaderVal = ValueMap[OrigHeaderVal];
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// The value now exits in two versions: the initial value in the preheader
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// and the loop "next" value in the original header.
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SSA.Initialize(OrigHeaderVal->getType(), OrigHeaderVal->getName());
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SSA.AddAvailableValue(OrigHeader, OrigHeaderVal);
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SSA.AddAvailableValue(OrigPreheader, OrigPreHeaderVal);
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// Visit each use of the OrigHeader instruction.
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for (Value::use_iterator UI = OrigHeaderVal->use_begin(),
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UE = OrigHeaderVal->use_end(); UI != UE; ) {
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// Grab the use before incrementing the iterator.
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Use &U = UI.getUse();
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// Increment the iterator before removing the use from the list.
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++UI;
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// SSAUpdater can't handle a non-PHI use in the same block as an
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// earlier def. We can easily handle those cases manually.
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Instruction *UserInst = cast<Instruction>(U.getUser());
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if (!isa<PHINode>(UserInst)) {
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BasicBlock *UserBB = UserInst->getParent();
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// The original users in the OrigHeader are already using the
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// original definitions.
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if (UserBB == OrigHeader)
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continue;
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// Users in the OrigPreHeader need to use the value to which the
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// original definitions are mapped.
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if (UserBB == OrigPreheader) {
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U = OrigPreHeaderVal;
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continue;
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}
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}
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// Anything else can be handled by SSAUpdater.
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SSA.RewriteUse(U);
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}
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}
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}
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/// Rotate loop LP. Return true if the loop is rotated.
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bool LoopRotate::rotateLoop(Loop *L) {
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// If the loop has only one block then there is not much to rotate.
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if (L->getBlocks().size() == 1)
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return false;
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BasicBlock *OrigHeader = L->getHeader();
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BranchInst *BI = dyn_cast<BranchInst>(OrigHeader->getTerminator());
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if (BI == 0 || BI->isUnconditional())
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return false;
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// If the loop header is not one of the loop exiting blocks then
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// either this loop is already rotated or it is not
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// suitable for loop rotation transformations.
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if (!L->isLoopExiting(OrigHeader))
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return false;
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// Updating PHInodes in loops with multiple exits adds complexity.
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// Keep it simple, and restrict loop rotation to loops with one exit only.
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// In future, lift this restriction and support for multiple exits if
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// required.
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SmallVector<BasicBlock*, 8> ExitBlocks;
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L->getExitBlocks(ExitBlocks);
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if (ExitBlocks.size() > 1)
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return false;
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// Check size of original header and reject loop if it is very big.
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{
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CodeMetrics Metrics;
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Metrics.analyzeBasicBlock(OrigHeader);
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if (Metrics.NumInsts > MAX_HEADER_SIZE)
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return false;
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}
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// Now, this loop is suitable for rotation.
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BasicBlock *OrigPreheader = L->getLoopPreheader();
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BasicBlock *OrigLatch = L->getLoopLatch();
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// If the loop could not be converted to canonical form, it must have an
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// indirectbr in it, just give up.
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if (OrigPreheader == 0 || OrigLatch == 0)
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return false;
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// Anything ScalarEvolution may know about this loop or the PHI nodes
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// in its header will soon be invalidated.
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if (ScalarEvolution *SE = getAnalysisIfAvailable<ScalarEvolution>())
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SE->forgetLoop(L);
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// Find new Loop header. NewHeader is a Header's one and only successor
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// that is inside loop. Header's other successor is outside the
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// loop. Otherwise loop is not suitable for rotation.
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BasicBlock *Exit = BI->getSuccessor(0);
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BasicBlock *NewHeader = BI->getSuccessor(1);
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if (L->contains(Exit))
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std::swap(Exit, NewHeader);
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assert(NewHeader && "Unable to determine new loop header");
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assert(L->contains(NewHeader) && !L->contains(Exit) &&
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"Unable to determine loop header and exit blocks");
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// This code assumes that the new header has exactly one predecessor.
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// Remove any single-entry PHI nodes in it.
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assert(NewHeader->getSinglePredecessor() &&
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"New header doesn't have one pred!");
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FoldSingleEntryPHINodes(NewHeader);
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// Begin by walking OrigHeader and populating ValueMap with an entry for
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// each Instruction.
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BasicBlock::iterator I = OrigHeader->begin(), E = OrigHeader->end();
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ValueToValueMapTy ValueMap;
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// For PHI nodes, the value available in OldPreHeader is just the
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// incoming value from OldPreHeader.
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for (; PHINode *PN = dyn_cast<PHINode>(I); ++I)
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ValueMap[PN] = PN->getIncomingValueForBlock(OrigPreheader);
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// For the rest of the instructions, either hoist to the OrigPreheader if
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// possible or create a clone in the OldPreHeader if not.
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TerminatorInst *LoopEntryBranch = OrigPreheader->getTerminator();
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while (I != E) {
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Instruction *Inst = I++;
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// If the instruction's operands are invariant and it doesn't read or write
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// memory, then it is safe to hoist. Doing this doesn't change the order of
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// execution in the preheader, but does prevent the instruction from
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// executing in each iteration of the loop. This means it is safe to hoist
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// something that might trap, but isn't safe to hoist something that reads
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// memory (without proving that the loop doesn't write).
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if (L->hasLoopInvariantOperands(Inst) &&
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!Inst->mayReadFromMemory() && !Inst->mayWriteToMemory() &&
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!isa<TerminatorInst>(Inst) && !isa<DbgInfoIntrinsic>(Inst)) {
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Inst->moveBefore(LoopEntryBranch);
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continue;
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}
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// Otherwise, create a duplicate of the instruction.
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Instruction *C = Inst->clone();
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// Eagerly remap the operands of the instruction.
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RemapInstruction(C, ValueMap,
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RF_NoModuleLevelChanges|RF_IgnoreMissingEntries);
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// With the operands remapped, see if the instruction constant folds or is
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// otherwise simplifyable. This commonly occurs because the entry from PHI
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// nodes allows icmps and other instructions to fold.
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Value *V = SimplifyInstruction(C);
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if (V && LI->replacementPreservesLCSSAForm(C, V)) {
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// If so, then delete the temporary instruction and stick the folded value
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// in the map.
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delete C;
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ValueMap[Inst] = V;
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} else {
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// Otherwise, stick the new instruction into the new block!
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C->setName(Inst->getName());
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C->insertBefore(LoopEntryBranch);
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ValueMap[Inst] = C;
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}
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}
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// Along with all the other instructions, we just cloned OrigHeader's
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// terminator into OrigPreHeader. Fix up the PHI nodes in each of OrigHeader's
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// successors by duplicating their incoming values for OrigHeader.
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TerminatorInst *TI = OrigHeader->getTerminator();
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for (unsigned i = 0, e = TI->getNumSuccessors(); i != e; ++i)
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for (BasicBlock::iterator BI = TI->getSuccessor(i)->begin();
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PHINode *PN = dyn_cast<PHINode>(BI); ++BI)
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PN->addIncoming(PN->getIncomingValueForBlock(OrigHeader), OrigPreheader);
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// Now that OrigPreHeader has a clone of OrigHeader's terminator, remove
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// OrigPreHeader's old terminator (the original branch into the loop), and
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// remove the corresponding incoming values from the PHI nodes in OrigHeader.
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LoopEntryBranch->eraseFromParent();
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// If there were any uses of instructions in the duplicated block outside the
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// loop, update them, inserting PHI nodes as required
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RewriteUsesOfClonedInstructions(OrigHeader, OrigPreheader, ValueMap);
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// NewHeader is now the header of the loop.
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L->moveToHeader(NewHeader);
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assert(L->getHeader() == NewHeader && "Latch block is our new header");
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// At this point, we've finished our major CFG changes. As part of cloning
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// the loop into the preheader we've simplified instructions and the
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// duplicated conditional branch may now be branching on a constant. If it is
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// branching on a constant and if that constant means that we enter the loop,
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// then we fold away the cond branch to an uncond branch. This simplifies the
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// loop in cases important for nested loops, and it also means we don't have
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// to split as many edges.
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BranchInst *PHBI = cast<BranchInst>(OrigPreheader->getTerminator());
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assert(PHBI->isConditional() && "Should be clone of BI condbr!");
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if (!isa<ConstantInt>(PHBI->getCondition()) ||
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PHBI->getSuccessor(cast<ConstantInt>(PHBI->getCondition())->isZero())
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!= NewHeader) {
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// The conditional branch can't be folded, handle the general case.
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// Update DominatorTree to reflect the CFG change we just made. Then split
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// edges as necessary to preserve LoopSimplify form.
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if (DominatorTree *DT = getAnalysisIfAvailable<DominatorTree>()) {
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// Since OrigPreheader now has the conditional branch to Exit block, it is
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// the dominator of Exit.
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DT->changeImmediateDominator(Exit, OrigPreheader);
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DT->changeImmediateDominator(NewHeader, OrigPreheader);
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// Update OrigHeader to be dominated by the new header block.
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DT->changeImmediateDominator(OrigHeader, OrigLatch);
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}
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// Right now OrigPreHeader has two successors, NewHeader and ExitBlock, and
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// thus is not a preheader anymore. Split the edge to form a real preheader.
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BasicBlock *NewPH = SplitCriticalEdge(OrigPreheader, NewHeader, this);
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NewPH->setName(NewHeader->getName() + ".lr.ph");
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// Preserve canonical loop form, which means that 'Exit' should have only one
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// predecessor.
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BasicBlock *ExitSplit = SplitCriticalEdge(L->getLoopLatch(), Exit, this);
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ExitSplit->moveBefore(Exit);
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} else {
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// We can fold the conditional branch in the preheader, this makes things
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// simpler. The first step is to remove the extra edge to the Exit block.
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Exit->removePredecessor(OrigPreheader, true /*preserve LCSSA*/);
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BranchInst *NewBI = BranchInst::Create(NewHeader, PHBI);
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NewBI->setDebugLoc(PHBI->getDebugLoc());
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PHBI->eraseFromParent();
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// With our CFG finalized, update DomTree if it is available.
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if (DominatorTree *DT = getAnalysisIfAvailable<DominatorTree>()) {
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// Update OrigHeader to be dominated by the new header block.
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DT->changeImmediateDominator(NewHeader, OrigPreheader);
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DT->changeImmediateDominator(OrigHeader, OrigLatch);
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}
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}
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assert(L->getLoopPreheader() && "Invalid loop preheader after loop rotation");
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assert(L->getLoopLatch() && "Invalid loop latch after loop rotation");
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// Now that the CFG and DomTree are in a consistent state again, try to merge
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// the OrigHeader block into OrigLatch. This will succeed if they are
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// connected by an unconditional branch. This is just a cleanup so the
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// emitted code isn't too gross in this common case.
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MergeBlockIntoPredecessor(OrigHeader, this);
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++NumRotated;
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return true;
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}
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