forked from OSchip/llvm-project
161 lines
6.8 KiB
C++
161 lines
6.8 KiB
C++
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//===- LoopAnalysisManager.cpp - Loop analysis management -----------------===//
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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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#include "llvm/Analysis/LoopAnalysisManager.h"
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#include "llvm/Analysis/BasicAliasAnalysis.h"
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#include "llvm/Analysis/GlobalsModRef.h"
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#include "llvm/Analysis/LoopInfo.h"
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#include "llvm/Analysis/ScalarEvolution.h"
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#include "llvm/Analysis/ScalarEvolutionAliasAnalysis.h"
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#include "llvm/IR/Dominators.h"
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using namespace llvm;
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// Explicit template instantiations and specialization defininitions for core
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// template typedefs.
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namespace llvm {
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template class AllAnalysesOn<Loop>;
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template class AnalysisManager<Loop, LoopStandardAnalysisResults &>;
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template class InnerAnalysisManagerProxy<LoopAnalysisManager, Function>;
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template class OuterAnalysisManagerProxy<FunctionAnalysisManager, Loop,
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LoopStandardAnalysisResults &>;
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bool LoopAnalysisManagerFunctionProxy::Result::invalidate(
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Function &F, const PreservedAnalyses &PA,
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FunctionAnalysisManager::Invalidator &Inv) {
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// First compute the sequence of IR units covered by this proxy. We will want
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// to visit this in postorder, but because this is a tree structure we can do
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// this by building a preorder sequence and walking it in reverse.
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SmallVector<Loop *, 4> PreOrderLoops, PreOrderWorklist;
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// Note that we want to walk the roots in reverse order because we will end
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// up reversing the preorder sequence. However, it happens that the loop nest
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// roots are in reverse order within the LoopInfo object. So we just walk
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// forward here.
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// FIXME: If we change the order of LoopInfo we will want to add a reverse
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// here.
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for (Loop *RootL : *LI) {
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assert(PreOrderWorklist.empty() &&
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"Must start with an empty preorder walk worklist.");
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PreOrderWorklist.push_back(RootL);
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do {
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Loop *L = PreOrderWorklist.pop_back_val();
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PreOrderWorklist.append(L->begin(), L->end());
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PreOrderLoops.push_back(L);
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} while (!PreOrderWorklist.empty());
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}
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// If this proxy or the loop info is going to be invalidated, we also need
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// to clear all the keys coming from that analysis. We also completely blow
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// away the loop analyses if any of the standard analyses provided by the
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// loop pass manager go away so that loop analyses can freely use these
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// without worrying about declaring dependencies on them etc.
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// FIXME: It isn't clear if this is the right tradeoff. We could instead make
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// loop analyses declare any dependencies on these and use the more general
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// invalidation logic below to act on that.
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auto PAC = PA.getChecker<LoopAnalysisManagerFunctionProxy>();
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if (!(PAC.preserved() || PAC.preservedSet<AllAnalysesOn<Function>>()) ||
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Inv.invalidate<AAManager>(F, PA) ||
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Inv.invalidate<AssumptionAnalysis>(F, PA) ||
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Inv.invalidate<DominatorTreeAnalysis>(F, PA) ||
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Inv.invalidate<LoopAnalysis>(F, PA) ||
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Inv.invalidate<ScalarEvolutionAnalysis>(F, PA)) {
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// Note that the LoopInfo may be stale at this point, however the loop
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// objects themselves remain the only viable keys that could be in the
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// analysis manager's cache. So we just walk the keys and forcibly clear
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// those results. Note that the order doesn't matter here as this will just
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// directly destroy the results without calling methods on them.
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for (Loop *L : PreOrderLoops)
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InnerAM->clear(*L);
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// We also need to null out the inner AM so that when the object gets
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// destroyed as invalid we don't try to clear the inner AM again. At that
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// point we won't be able to reliably walk the loops for this function and
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// only clear results associated with those loops the way we do here.
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// FIXME: Making InnerAM null at this point isn't very nice. Most analyses
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// try to remain valid during invalidation. Maybe we should add an
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// `IsClean` flag?
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InnerAM = nullptr;
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// Now return true to indicate this *is* invalid and a fresh proxy result
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// needs to be built. This is especially important given the null InnerAM.
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return true;
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}
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// Directly check if the relevant set is preserved so we can short circuit
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// invalidating loops.
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bool AreLoopAnalysesPreserved =
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PA.allAnalysesInSetPreserved<AllAnalysesOn<Loop>>();
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// Since we have a valid LoopInfo we can actually leave the cached results in
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// the analysis manager associated with the Loop keys, but we need to
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// propagate any necessary invalidation logic into them. We'd like to
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// invalidate things in roughly the same order as they were put into the
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// cache and so we walk the preorder list in reverse to form a valid
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// postorder.
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for (Loop *L : reverse(PreOrderLoops)) {
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Optional<PreservedAnalyses> InnerPA;
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// Check to see whether the preserved set needs to be adjusted based on
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// function-level analysis invalidation triggering deferred invalidation
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// for this loop.
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if (auto *OuterProxy =
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InnerAM->getCachedResult<FunctionAnalysisManagerLoopProxy>(*L))
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for (const auto &OuterInvalidationPair :
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OuterProxy->getOuterInvalidations()) {
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AnalysisKey *OuterAnalysisID = OuterInvalidationPair.first;
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const auto &InnerAnalysisIDs = OuterInvalidationPair.second;
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if (Inv.invalidate(OuterAnalysisID, F, PA)) {
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if (!InnerPA)
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InnerPA = PA;
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for (AnalysisKey *InnerAnalysisID : InnerAnalysisIDs)
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InnerPA->abandon(InnerAnalysisID);
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}
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}
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// Check if we needed a custom PA set. If so we'll need to run the inner
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// invalidation.
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if (InnerPA) {
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InnerAM->invalidate(*L, *InnerPA);
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continue;
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}
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// Otherwise we only need to do invalidation if the original PA set didn't
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// preserve all Loop analyses.
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if (!AreLoopAnalysesPreserved)
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InnerAM->invalidate(*L, PA);
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}
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// Return false to indicate that this result is still a valid proxy.
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return false;
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}
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template <>
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LoopAnalysisManagerFunctionProxy::Result
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LoopAnalysisManagerFunctionProxy::run(Function &F,
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FunctionAnalysisManager &AM) {
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return Result(*InnerAM, AM.getResult<LoopAnalysis>(F));
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}
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}
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PreservedAnalyses llvm::getLoopPassPreservedAnalyses() {
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PreservedAnalyses PA;
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PA.preserve<AssumptionAnalysis>();
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PA.preserve<DominatorTreeAnalysis>();
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PA.preserve<LoopAnalysis>();
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PA.preserve<LoopAnalysisManagerFunctionProxy>();
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PA.preserve<ScalarEvolutionAnalysis>();
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// TODO: What we really want to do here is preserve an AA category, but that
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// concept doesn't exist yet.
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PA.preserve<AAManager>();
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PA.preserve<BasicAA>();
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PA.preserve<GlobalsAA>();
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PA.preserve<SCEVAA>();
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return PA;
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}
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