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2684ddd72e
Ideally only those transform passes that run at -O0 remain enabled, in reality we get as close as we reasonably can. Passes are responsible for disabling themselves, it's not the job of the pass manager to do it for them. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@200892 91177308-0d34-0410-b5e6-96231b3b80d8
382 lines
12 KiB
C++
382 lines
12 KiB
C++
//===- LoopPass.cpp - Loop Pass and Loop Pass Manager ---------------------===//
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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 LoopPass and LPPassManager. All loop optimization
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// and transformation passes are derived from LoopPass. LPPassManager is
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// responsible for managing LoopPasses.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/LoopPass.h"
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#include "llvm/IR/IRPrintingPasses.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/Timer.h"
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using namespace llvm;
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namespace {
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/// PrintLoopPass - Print a Function corresponding to a Loop.
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///
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class PrintLoopPass : public LoopPass {
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private:
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std::string Banner;
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raw_ostream &Out; // raw_ostream to print on.
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public:
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static char ID;
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PrintLoopPass(const std::string &B, raw_ostream &o)
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: LoopPass(ID), Banner(B), Out(o) {}
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virtual void getAnalysisUsage(AnalysisUsage &AU) const {
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AU.setPreservesAll();
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}
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bool runOnLoop(Loop *L, LPPassManager &) {
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Out << Banner;
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for (Loop::block_iterator b = L->block_begin(), be = L->block_end();
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b != be;
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++b) {
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(*b)->print(Out);
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}
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return false;
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}
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};
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char PrintLoopPass::ID = 0;
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}
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//===----------------------------------------------------------------------===//
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// LPPassManager
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//
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char LPPassManager::ID = 0;
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LPPassManager::LPPassManager()
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: FunctionPass(ID), PMDataManager() {
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skipThisLoop = false;
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redoThisLoop = false;
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LI = NULL;
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CurrentLoop = NULL;
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}
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/// Delete loop from the loop queue and loop hierarchy (LoopInfo).
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void LPPassManager::deleteLoopFromQueue(Loop *L) {
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LI->updateUnloop(L);
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// If L is current loop then skip rest of the passes and let
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// runOnFunction remove L from LQ. Otherwise, remove L from LQ now
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// and continue applying other passes on CurrentLoop.
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if (CurrentLoop == L)
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skipThisLoop = true;
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delete L;
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if (skipThisLoop)
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return;
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for (std::deque<Loop *>::iterator I = LQ.begin(),
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E = LQ.end(); I != E; ++I) {
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if (*I == L) {
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LQ.erase(I);
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break;
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}
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}
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}
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// Inset loop into loop nest (LoopInfo) and loop queue (LQ).
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void LPPassManager::insertLoop(Loop *L, Loop *ParentLoop) {
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assert (CurrentLoop != L && "Cannot insert CurrentLoop");
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// Insert into loop nest
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if (ParentLoop)
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ParentLoop->addChildLoop(L);
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else
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LI->addTopLevelLoop(L);
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insertLoopIntoQueue(L);
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}
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void LPPassManager::insertLoopIntoQueue(Loop *L) {
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// Insert L into loop queue
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if (L == CurrentLoop)
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redoLoop(L);
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else if (!L->getParentLoop())
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// This is top level loop.
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LQ.push_front(L);
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else {
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// Insert L after the parent loop.
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for (std::deque<Loop *>::iterator I = LQ.begin(),
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E = LQ.end(); I != E; ++I) {
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if (*I == L->getParentLoop()) {
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// deque does not support insert after.
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++I;
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LQ.insert(I, 1, L);
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break;
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}
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}
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}
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}
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// Reoptimize this loop. LPPassManager will re-insert this loop into the
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// queue. This allows LoopPass to change loop nest for the loop. This
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// utility may send LPPassManager into infinite loops so use caution.
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void LPPassManager::redoLoop(Loop *L) {
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assert (CurrentLoop == L && "Can redo only CurrentLoop");
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redoThisLoop = true;
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}
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/// cloneBasicBlockSimpleAnalysis - Invoke cloneBasicBlockAnalysis hook for
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/// all loop passes.
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void LPPassManager::cloneBasicBlockSimpleAnalysis(BasicBlock *From,
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BasicBlock *To, Loop *L) {
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for (unsigned Index = 0; Index < getNumContainedPasses(); ++Index) {
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LoopPass *LP = getContainedPass(Index);
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LP->cloneBasicBlockAnalysis(From, To, L);
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}
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}
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/// deleteSimpleAnalysisValue - Invoke deleteAnalysisValue hook for all passes.
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void LPPassManager::deleteSimpleAnalysisValue(Value *V, Loop *L) {
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if (BasicBlock *BB = dyn_cast<BasicBlock>(V)) {
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for (BasicBlock::iterator BI = BB->begin(), BE = BB->end(); BI != BE;
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++BI) {
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Instruction &I = *BI;
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deleteSimpleAnalysisValue(&I, L);
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}
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}
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for (unsigned Index = 0; Index < getNumContainedPasses(); ++Index) {
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LoopPass *LP = getContainedPass(Index);
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LP->deleteAnalysisValue(V, L);
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}
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}
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// Recurse through all subloops and all loops into LQ.
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static void addLoopIntoQueue(Loop *L, std::deque<Loop *> &LQ) {
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LQ.push_back(L);
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for (Loop::reverse_iterator I = L->rbegin(), E = L->rend(); I != E; ++I)
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addLoopIntoQueue(*I, LQ);
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}
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/// Pass Manager itself does not invalidate any analysis info.
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void LPPassManager::getAnalysisUsage(AnalysisUsage &Info) const {
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// LPPassManager needs LoopInfo. In the long term LoopInfo class will
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// become part of LPPassManager.
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Info.addRequired<LoopInfo>();
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Info.setPreservesAll();
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}
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/// run - Execute all of the passes scheduled for execution. Keep track of
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/// whether any of the passes modifies the function, and if so, return true.
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bool LPPassManager::runOnFunction(Function &F) {
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LI = &getAnalysis<LoopInfo>();
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bool Changed = false;
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// Collect inherited analysis from Module level pass manager.
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populateInheritedAnalysis(TPM->activeStack);
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// Populate the loop queue in reverse program order. There is no clear need to
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// process sibling loops in either forward or reverse order. There may be some
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// advantage in deleting uses in a later loop before optimizing the
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// definitions in an earlier loop. If we find a clear reason to process in
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// forward order, then a forward variant of LoopPassManager should be created.
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//
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// Note that LoopInfo::iterator visits loops in reverse program
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// order. Here, reverse_iterator gives us a forward order, and the LoopQueue
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// reverses the order a third time by popping from the back.
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for (LoopInfo::reverse_iterator I = LI->rbegin(), E = LI->rend(); I != E; ++I)
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addLoopIntoQueue(*I, LQ);
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if (LQ.empty()) // No loops, skip calling finalizers
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return false;
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// Initialization
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for (std::deque<Loop *>::const_iterator I = LQ.begin(), E = LQ.end();
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I != E; ++I) {
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Loop *L = *I;
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for (unsigned Index = 0; Index < getNumContainedPasses(); ++Index) {
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LoopPass *P = getContainedPass(Index);
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Changed |= P->doInitialization(L, *this);
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}
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}
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// Walk Loops
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while (!LQ.empty()) {
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CurrentLoop = LQ.back();
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skipThisLoop = false;
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redoThisLoop = false;
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// Run all passes on the current Loop.
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for (unsigned Index = 0; Index < getNumContainedPasses(); ++Index) {
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LoopPass *P = getContainedPass(Index);
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dumpPassInfo(P, EXECUTION_MSG, ON_LOOP_MSG,
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CurrentLoop->getHeader()->getName());
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dumpRequiredSet(P);
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initializeAnalysisImpl(P);
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{
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PassManagerPrettyStackEntry X(P, *CurrentLoop->getHeader());
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TimeRegion PassTimer(getPassTimer(P));
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Changed |= P->runOnLoop(CurrentLoop, *this);
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}
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if (Changed)
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dumpPassInfo(P, MODIFICATION_MSG, ON_LOOP_MSG,
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skipThisLoop ? "<deleted>" :
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CurrentLoop->getHeader()->getName());
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dumpPreservedSet(P);
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if (!skipThisLoop) {
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// Manually check that this loop is still healthy. This is done
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// instead of relying on LoopInfo::verifyLoop since LoopInfo
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// is a function pass and it's really expensive to verify every
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// loop in the function every time. That level of checking can be
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// enabled with the -verify-loop-info option.
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{
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TimeRegion PassTimer(getPassTimer(LI));
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CurrentLoop->verifyLoop();
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}
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// Then call the regular verifyAnalysis functions.
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verifyPreservedAnalysis(P);
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}
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removeNotPreservedAnalysis(P);
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recordAvailableAnalysis(P);
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removeDeadPasses(P,
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skipThisLoop ? "<deleted>" :
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CurrentLoop->getHeader()->getName(),
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ON_LOOP_MSG);
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if (skipThisLoop)
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// Do not run other passes on this loop.
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break;
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}
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// If the loop was deleted, release all the loop passes. This frees up
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// some memory, and avoids trouble with the pass manager trying to call
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// verifyAnalysis on them.
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if (skipThisLoop)
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for (unsigned Index = 0; Index < getNumContainedPasses(); ++Index) {
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Pass *P = getContainedPass(Index);
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freePass(P, "<deleted>", ON_LOOP_MSG);
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}
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// Pop the loop from queue after running all passes.
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LQ.pop_back();
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if (redoThisLoop)
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LQ.push_back(CurrentLoop);
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}
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// Finalization
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for (unsigned Index = 0; Index < getNumContainedPasses(); ++Index) {
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LoopPass *P = getContainedPass(Index);
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Changed |= P->doFinalization();
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}
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return Changed;
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}
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/// Print passes managed by this manager
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void LPPassManager::dumpPassStructure(unsigned Offset) {
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errs().indent(Offset*2) << "Loop Pass Manager\n";
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for (unsigned Index = 0; Index < getNumContainedPasses(); ++Index) {
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Pass *P = getContainedPass(Index);
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P->dumpPassStructure(Offset + 1);
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dumpLastUses(P, Offset+1);
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}
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}
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//===----------------------------------------------------------------------===//
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// LoopPass
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Pass *LoopPass::createPrinterPass(raw_ostream &O,
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const std::string &Banner) const {
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return new PrintLoopPass(Banner, O);
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}
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// Check if this pass is suitable for the current LPPassManager, if
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// available. This pass P is not suitable for a LPPassManager if P
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// is not preserving higher level analysis info used by other
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// LPPassManager passes. In such case, pop LPPassManager from the
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// stack. This will force assignPassManager() to create new
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// LPPassManger as expected.
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void LoopPass::preparePassManager(PMStack &PMS) {
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// Find LPPassManager
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while (!PMS.empty() &&
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PMS.top()->getPassManagerType() > PMT_LoopPassManager)
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PMS.pop();
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// If this pass is destroying high level information that is used
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// by other passes that are managed by LPM then do not insert
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// this pass in current LPM. Use new LPPassManager.
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if (PMS.top()->getPassManagerType() == PMT_LoopPassManager &&
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!PMS.top()->preserveHigherLevelAnalysis(this))
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PMS.pop();
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}
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/// Assign pass manager to manage this pass.
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void LoopPass::assignPassManager(PMStack &PMS,
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PassManagerType PreferredType) {
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// Find LPPassManager
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while (!PMS.empty() &&
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PMS.top()->getPassManagerType() > PMT_LoopPassManager)
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PMS.pop();
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LPPassManager *LPPM;
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if (PMS.top()->getPassManagerType() == PMT_LoopPassManager)
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LPPM = (LPPassManager*)PMS.top();
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else {
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// Create new Loop Pass Manager if it does not exist.
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assert (!PMS.empty() && "Unable to create Loop Pass Manager");
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PMDataManager *PMD = PMS.top();
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// [1] Create new Loop Pass Manager
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LPPM = new LPPassManager();
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LPPM->populateInheritedAnalysis(PMS);
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// [2] Set up new manager's top level manager
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PMTopLevelManager *TPM = PMD->getTopLevelManager();
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TPM->addIndirectPassManager(LPPM);
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// [3] Assign manager to manage this new manager. This may create
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// and push new managers into PMS
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Pass *P = LPPM->getAsPass();
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TPM->schedulePass(P);
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// [4] Push new manager into PMS
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PMS.push(LPPM);
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}
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LPPM->add(this);
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}
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// Containing function has Attribute::OptimizeNone and transformation
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// passes should skip it.
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bool LoopPass::skipOptnoneFunction(Loop *L) const {
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Function *F = L->getHeader()->getParent();
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if (F && F->hasFnAttribute(Attribute::OptimizeNone)) {
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// FIXME: Report this to dbgs() only once per function.
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DEBUG(dbgs() << "Skipping pass '" << getPassName()
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<< "' in function " << F->getName() << "\n");
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// FIXME: Delete loop from pass manager's queue?
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return true;
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}
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return false;
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}
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