forked from OSchip/llvm-project
parent
388769427d
commit
3ba90a1655
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@ -71,7 +71,9 @@ namespace {
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// LoopProcessWorklist - Used to check if second loop needs processing
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// after RewriteLoopBodyWithConditionConstant rewrites first loop.
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std::vector<Loop*> LoopProcessWorklist;
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SmallPtrSet<Value *,8> UnswitchedVals;
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// FIXME: Consider custom class for this.
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std::map<const SwitchInst*, SmallPtrSet<const Value *,8> > UnswitchedVals;
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bool OptimizeForSize;
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bool redoLoop;
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@ -117,7 +119,15 @@ namespace {
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private:
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virtual void releaseMemory() {
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UnswitchedVals.clear();
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// We need to forget about all switches in the current loop.
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// FIXME: Do it better than enumerating all blocks of code
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// and see if it is a switch instruction.
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for (Loop::block_iterator I = currentLoop->block_begin(),
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E = currentLoop->block_end(); I != E; ++I) {
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SwitchInst* SI = dyn_cast<SwitchInst>((*I)->getTerminator());
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if (SI)
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UnswitchedVals.erase(SI);
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}
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}
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/// RemoveLoopFromWorklist - If the specified loop is on the loop worklist,
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@ -128,6 +138,12 @@ namespace {
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if (I != LoopProcessWorklist.end())
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LoopProcessWorklist.erase(I);
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}
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/// For new loop switches we clone info about values that was
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/// already unswitched and has redundant successors.
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/// Note, that new loop data is stored inside the VMap.
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void CloneUnswitchedVals(const ValueToValueMapTy& VMap,
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const BasicBlock* SrcBB);
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void initLoopData() {
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loopHeader = currentLoop->getHeader();
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@ -255,13 +271,25 @@ bool LoopUnswitch::processCurrentLoop() {
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} else if (SwitchInst *SI = dyn_cast<SwitchInst>(TI)) {
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Value *LoopCond = FindLIVLoopCondition(SI->getCondition(),
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currentLoop, Changed);
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if (LoopCond && SI->getNumCases() > 1) {
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unsigned NumCases = SI->getNumCases();
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if (LoopCond && NumCases > 1) {
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// Find a value to unswitch on:
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// FIXME: this should chose the most expensive case!
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// FIXME: scan for a case with a non-critical edge?
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Constant *UnswitchVal = SI->getCaseValue(1);
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Constant *UnswitchVal = NULL;
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// Do not process same value again and again.
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if (!UnswitchedVals.insert(UnswitchVal))
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// At this point we have some cases already unswitched and
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// some not yet unswitched. Let's find the first not yet unswitched one.
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for (unsigned i = 1; i < NumCases; ++i) {
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Constant* UnswitchValCandidate = SI->getCaseValue(i);
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if (!UnswitchedVals[SI].count(UnswitchValCandidate)) {
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UnswitchVal = UnswitchValCandidate;
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break;
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}
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}
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if (!UnswitchVal)
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continue;
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if (UnswitchIfProfitable(LoopCond, UnswitchVal)) {
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@ -287,6 +315,23 @@ bool LoopUnswitch::processCurrentLoop() {
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return Changed;
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}
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/// For new loop switches we clone info about values that was
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/// already unswitched and has redundant successors.
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/// Not that new loop data is stored inside the VMap.
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void LoopUnswitch::CloneUnswitchedVals(const ValueToValueMapTy& VMap,
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const BasicBlock* SrcBB) {
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const SwitchInst* SI = dyn_cast<SwitchInst>(SrcBB->getTerminator());
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if (SI && UnswitchedVals.count(SI)) {
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// Don't clone a totally simplified switch.
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if (isa<Constant>(SI->getCondition()))
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return;
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Value* I = VMap.lookup(SI);
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assert(I && "All instructions that are in SrcBB must be in VMap.");
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UnswitchedVals[cast<SwitchInst>(I)] = UnswitchedVals[SI];
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}
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}
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/// isTrivialLoopExitBlock - Check to see if all paths from BB exit the
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/// loop with no side effects (including infinite loops).
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///
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@ -378,14 +423,25 @@ bool LoopUnswitch::IsTrivialUnswitchCondition(Value *Cond, Constant **Val,
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// Check to see if a successor of the switch is guaranteed to go to the
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// latch block or exit through a one exit block without having any
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// side-effects. If so, determine the value of Cond that causes it to do
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// this. Note that we can't trivially unswitch on the default case.
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for (unsigned i = 1, e = SI->getNumSuccessors(); i != e; ++i)
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if ((LoopExitBB = isTrivialLoopExitBlock(currentLoop,
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// this.
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// Note that we can't trivially unswitch on the default case or
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// on already unswitched cases.
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for (unsigned i = 1, e = SI->getNumSuccessors(); i != e; ++i) {
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BasicBlock* LoopExitCandidate;
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if ((LoopExitCandidate = isTrivialLoopExitBlock(currentLoop,
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SI->getSuccessor(i)))) {
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// Okay, we found a trivial case, remember the value that is trivial.
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if (Val) *Val = SI->getCaseValue(i);
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ConstantInt* CaseVal = SI->getCaseValue(i);
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// Check that it was not unswitched before, since already unswitched
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// trivial vals are looks trivial too.
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if (UnswitchedVals[SI].count(CaseVal))
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continue;
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LoopExitBB = LoopExitCandidate;
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if (Val) *Val = CaseVal;
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break;
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}
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}
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}
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// If we didn't find a single unique LoopExit block, or if the loop exit block
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@ -447,8 +503,14 @@ bool LoopUnswitch::UnswitchIfProfitable(Value *LoopCond, Constant *Val) {
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// expansion, and the number of basic blocks, to avoid loops with
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// large numbers of branches which cause loop unswitching to go crazy.
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// This is a very ad-hoc heuristic.
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if (Metrics.NumInsts > Threshold ||
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Metrics.NumBlocks * 5 > Threshold ||
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unsigned NumUnswitched =
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(NumSwitches + NumBranches) + 1 /*take in account current iteration*/;
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unsigned NumInsts = Metrics.NumInsts * NumUnswitched;
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unsigned NumBlocks = Metrics.NumBlocks * NumUnswitched;
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if (NumInsts > Threshold || NumBlocks * 5 > Threshold ||
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Metrics.containsIndirectBr || Metrics.isRecursive) {
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DEBUG(dbgs() << "NOT unswitching loop %"
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<< currentLoop->getHeader()->getName() << ", cost too high: "
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@ -620,6 +682,12 @@ void LoopUnswitch::UnswitchNontrivialCondition(Value *LIC, Constant *Val,
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ValueToValueMapTy VMap;
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for (unsigned i = 0, e = LoopBlocks.size(); i != e; ++i) {
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BasicBlock *NewBB = CloneBasicBlock(LoopBlocks[i], VMap, ".us", F);
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// Inherit simplified switches info for NewBB
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// We needn't pass NewBB since its instructions are already contained
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// inside the VMap.
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CloneUnswitchedVals(VMap, LoopBlocks[i]);
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NewBlocks.push_back(NewBB);
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VMap[LoopBlocks[i]] = NewBB; // Keep the BB mapping.
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LPM->cloneBasicBlockSimpleAnalysis(LoopBlocks[i], NewBB, L);
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@ -945,6 +1013,9 @@ void LoopUnswitch::RewriteLoopBodyWithConditionConstant(Loop *L, Value *LIC,
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BasicBlock *Switch = SI->getParent();
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BasicBlock *SISucc = SI->getSuccessor(DeadCase);
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BasicBlock *Latch = L->getLoopLatch();
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UnswitchedVals[SI].insert(Val);
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if (!SI->findCaseDest(SISucc)) continue; // Edge is critical.
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// If the DeadCase successor dominates the loop latch, then the
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// transformation isn't safe since it will delete the sole predecessor edge
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