forked from OSchip/llvm-project
612 lines
19 KiB
C++
612 lines
19 KiB
C++
//=- LiveVariables.cpp - Live Variable Analysis for Source CFGs ----------*-==//
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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 Live Variables analysis for source-level CFGs.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Analysis/Analyses/LiveVariables.h"
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#include "clang/AST/Stmt.h"
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#include "clang/AST/StmtVisitor.h"
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#include "clang/Analysis/Analyses/PostOrderCFGView.h"
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#include "clang/Analysis/AnalysisContext.h"
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#include "clang/Analysis/CFG.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/PostOrderIterator.h"
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#include "llvm/Support/raw_ostream.h"
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#include <algorithm>
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#include <vector>
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using namespace clang;
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namespace {
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class DataflowWorklist {
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SmallVector<const CFGBlock *, 20> worklist;
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llvm::BitVector enqueuedBlocks;
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PostOrderCFGView *POV;
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public:
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DataflowWorklist(const CFG &cfg, AnalysisDeclContext &Ctx)
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: enqueuedBlocks(cfg.getNumBlockIDs()),
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POV(Ctx.getAnalysis<PostOrderCFGView>()) {}
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void enqueueBlock(const CFGBlock *block);
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void enqueuePredecessors(const CFGBlock *block);
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const CFGBlock *dequeue();
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void sortWorklist();
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};
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}
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void DataflowWorklist::enqueueBlock(const clang::CFGBlock *block) {
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if (block && !enqueuedBlocks[block->getBlockID()]) {
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enqueuedBlocks[block->getBlockID()] = true;
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worklist.push_back(block);
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}
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}
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void DataflowWorklist::enqueuePredecessors(const clang::CFGBlock *block) {
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const unsigned OldWorklistSize = worklist.size();
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for (CFGBlock::const_pred_iterator I = block->pred_begin(),
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E = block->pred_end(); I != E; ++I) {
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enqueueBlock(*I);
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}
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if (OldWorklistSize == 0 || OldWorklistSize == worklist.size())
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return;
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sortWorklist();
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}
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void DataflowWorklist::sortWorklist() {
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std::sort(worklist.begin(), worklist.end(), POV->getComparator());
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}
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const CFGBlock *DataflowWorklist::dequeue() {
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if (worklist.empty())
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return nullptr;
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const CFGBlock *b = worklist.pop_back_val();
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enqueuedBlocks[b->getBlockID()] = false;
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return b;
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}
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namespace {
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class LiveVariablesImpl {
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public:
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AnalysisDeclContext &analysisContext;
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llvm::ImmutableSet<const Stmt *>::Factory SSetFact;
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llvm::ImmutableSet<const VarDecl *>::Factory DSetFact;
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llvm::DenseMap<const CFGBlock *, LiveVariables::LivenessValues> blocksEndToLiveness;
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llvm::DenseMap<const CFGBlock *, LiveVariables::LivenessValues> blocksBeginToLiveness;
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llvm::DenseMap<const Stmt *, LiveVariables::LivenessValues> stmtsToLiveness;
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llvm::DenseMap<const DeclRefExpr *, unsigned> inAssignment;
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const bool killAtAssign;
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LiveVariables::LivenessValues
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merge(LiveVariables::LivenessValues valsA,
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LiveVariables::LivenessValues valsB);
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LiveVariables::LivenessValues
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runOnBlock(const CFGBlock *block, LiveVariables::LivenessValues val,
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LiveVariables::Observer *obs = nullptr);
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void dumpBlockLiveness(const SourceManager& M);
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LiveVariablesImpl(AnalysisDeclContext &ac, bool KillAtAssign)
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: analysisContext(ac),
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SSetFact(false), // Do not canonicalize ImmutableSets by default.
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DSetFact(false), // This is a *major* performance win.
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killAtAssign(KillAtAssign) {}
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};
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}
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static LiveVariablesImpl &getImpl(void *x) {
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return *((LiveVariablesImpl *) x);
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}
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//===----------------------------------------------------------------------===//
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// Operations and queries on LivenessValues.
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//===----------------------------------------------------------------------===//
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bool LiveVariables::LivenessValues::isLive(const Stmt *S) const {
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return liveStmts.contains(S);
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}
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bool LiveVariables::LivenessValues::isLive(const VarDecl *D) const {
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return liveDecls.contains(D);
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}
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namespace {
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template <typename SET>
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SET mergeSets(SET A, SET B) {
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if (A.isEmpty())
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return B;
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for (typename SET::iterator it = B.begin(), ei = B.end(); it != ei; ++it) {
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A = A.add(*it);
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}
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return A;
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}
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}
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void LiveVariables::Observer::anchor() { }
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LiveVariables::LivenessValues
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LiveVariablesImpl::merge(LiveVariables::LivenessValues valsA,
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LiveVariables::LivenessValues valsB) {
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llvm::ImmutableSetRef<const Stmt *>
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SSetRefA(valsA.liveStmts.getRootWithoutRetain(), SSetFact.getTreeFactory()),
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SSetRefB(valsB.liveStmts.getRootWithoutRetain(), SSetFact.getTreeFactory());
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llvm::ImmutableSetRef<const VarDecl *>
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DSetRefA(valsA.liveDecls.getRootWithoutRetain(), DSetFact.getTreeFactory()),
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DSetRefB(valsB.liveDecls.getRootWithoutRetain(), DSetFact.getTreeFactory());
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SSetRefA = mergeSets(SSetRefA, SSetRefB);
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DSetRefA = mergeSets(DSetRefA, DSetRefB);
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// asImmutableSet() canonicalizes the tree, allowing us to do an easy
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// comparison afterwards.
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return LiveVariables::LivenessValues(SSetRefA.asImmutableSet(),
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DSetRefA.asImmutableSet());
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}
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bool LiveVariables::LivenessValues::equals(const LivenessValues &V) const {
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return liveStmts == V.liveStmts && liveDecls == V.liveDecls;
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}
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//===----------------------------------------------------------------------===//
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// Query methods.
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//===----------------------------------------------------------------------===//
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static bool isAlwaysAlive(const VarDecl *D) {
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return D->hasGlobalStorage();
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}
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bool LiveVariables::isLive(const CFGBlock *B, const VarDecl *D) {
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return isAlwaysAlive(D) || getImpl(impl).blocksEndToLiveness[B].isLive(D);
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}
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bool LiveVariables::isLive(const Stmt *S, const VarDecl *D) {
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return isAlwaysAlive(D) || getImpl(impl).stmtsToLiveness[S].isLive(D);
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}
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bool LiveVariables::isLive(const Stmt *Loc, const Stmt *S) {
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return getImpl(impl).stmtsToLiveness[Loc].isLive(S);
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}
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//===----------------------------------------------------------------------===//
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// Dataflow computation.
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//===----------------------------------------------------------------------===//
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namespace {
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class TransferFunctions : public StmtVisitor<TransferFunctions> {
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LiveVariablesImpl &LV;
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LiveVariables::LivenessValues &val;
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LiveVariables::Observer *observer;
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const CFGBlock *currentBlock;
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public:
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TransferFunctions(LiveVariablesImpl &im,
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LiveVariables::LivenessValues &Val,
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LiveVariables::Observer *Observer,
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const CFGBlock *CurrentBlock)
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: LV(im), val(Val), observer(Observer), currentBlock(CurrentBlock) {}
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void VisitBinaryOperator(BinaryOperator *BO);
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void VisitBlockExpr(BlockExpr *BE);
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void VisitDeclRefExpr(DeclRefExpr *DR);
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void VisitDeclStmt(DeclStmt *DS);
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void VisitObjCForCollectionStmt(ObjCForCollectionStmt *OS);
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void VisitUnaryExprOrTypeTraitExpr(UnaryExprOrTypeTraitExpr *UE);
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void VisitUnaryOperator(UnaryOperator *UO);
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void Visit(Stmt *S);
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};
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}
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static const VariableArrayType *FindVA(QualType Ty) {
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const Type *ty = Ty.getTypePtr();
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while (const ArrayType *VT = dyn_cast<ArrayType>(ty)) {
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if (const VariableArrayType *VAT = dyn_cast<VariableArrayType>(VT))
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if (VAT->getSizeExpr())
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return VAT;
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ty = VT->getElementType().getTypePtr();
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}
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return nullptr;
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}
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static const Stmt *LookThroughStmt(const Stmt *S) {
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while (S) {
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if (const Expr *Ex = dyn_cast<Expr>(S))
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S = Ex->IgnoreParens();
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if (const ExprWithCleanups *EWC = dyn_cast<ExprWithCleanups>(S)) {
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S = EWC->getSubExpr();
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continue;
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}
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if (const OpaqueValueExpr *OVE = dyn_cast<OpaqueValueExpr>(S)) {
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S = OVE->getSourceExpr();
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continue;
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}
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break;
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}
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return S;
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}
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static void AddLiveStmt(llvm::ImmutableSet<const Stmt *> &Set,
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llvm::ImmutableSet<const Stmt *>::Factory &F,
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const Stmt *S) {
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Set = F.add(Set, LookThroughStmt(S));
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}
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void TransferFunctions::Visit(Stmt *S) {
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if (observer)
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observer->observeStmt(S, currentBlock, val);
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StmtVisitor<TransferFunctions>::Visit(S);
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if (isa<Expr>(S)) {
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val.liveStmts = LV.SSetFact.remove(val.liveStmts, S);
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}
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// Mark all children expressions live.
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switch (S->getStmtClass()) {
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default:
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break;
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case Stmt::StmtExprClass: {
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// For statement expressions, look through the compound statement.
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S = cast<StmtExpr>(S)->getSubStmt();
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break;
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}
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case Stmt::CXXMemberCallExprClass: {
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// Include the implicit "this" pointer as being live.
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CXXMemberCallExpr *CE = cast<CXXMemberCallExpr>(S);
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if (Expr *ImplicitObj = CE->getImplicitObjectArgument()) {
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AddLiveStmt(val.liveStmts, LV.SSetFact, ImplicitObj);
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}
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break;
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}
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case Stmt::ObjCMessageExprClass: {
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// In calls to super, include the implicit "self" pointer as being live.
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ObjCMessageExpr *CE = cast<ObjCMessageExpr>(S);
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if (CE->getReceiverKind() == ObjCMessageExpr::SuperInstance)
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val.liveDecls = LV.DSetFact.add(val.liveDecls,
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LV.analysisContext.getSelfDecl());
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break;
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}
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case Stmt::DeclStmtClass: {
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const DeclStmt *DS = cast<DeclStmt>(S);
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if (const VarDecl *VD = dyn_cast<VarDecl>(DS->getSingleDecl())) {
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for (const VariableArrayType* VA = FindVA(VD->getType());
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VA != nullptr; VA = FindVA(VA->getElementType())) {
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AddLiveStmt(val.liveStmts, LV.SSetFact, VA->getSizeExpr());
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}
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}
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break;
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}
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case Stmt::PseudoObjectExprClass: {
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// A pseudo-object operation only directly consumes its result
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// expression.
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Expr *child = cast<PseudoObjectExpr>(S)->getResultExpr();
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if (!child) return;
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if (OpaqueValueExpr *OV = dyn_cast<OpaqueValueExpr>(child))
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child = OV->getSourceExpr();
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child = child->IgnoreParens();
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val.liveStmts = LV.SSetFact.add(val.liveStmts, child);
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return;
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}
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// FIXME: These cases eventually shouldn't be needed.
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case Stmt::ExprWithCleanupsClass: {
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S = cast<ExprWithCleanups>(S)->getSubExpr();
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break;
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}
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case Stmt::CXXBindTemporaryExprClass: {
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S = cast<CXXBindTemporaryExpr>(S)->getSubExpr();
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break;
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}
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case Stmt::UnaryExprOrTypeTraitExprClass: {
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// No need to unconditionally visit subexpressions.
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return;
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}
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}
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for (Stmt *Child : S->children()) {
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if (Child)
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AddLiveStmt(val.liveStmts, LV.SSetFact, Child);
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}
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}
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void TransferFunctions::VisitBinaryOperator(BinaryOperator *B) {
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if (B->isAssignmentOp()) {
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if (!LV.killAtAssign)
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return;
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// Assigning to a variable?
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Expr *LHS = B->getLHS()->IgnoreParens();
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if (DeclRefExpr *DR = dyn_cast<DeclRefExpr>(LHS))
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if (const VarDecl *VD = dyn_cast<VarDecl>(DR->getDecl())) {
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// Assignments to references don't kill the ref's address
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if (VD->getType()->isReferenceType())
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return;
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if (!isAlwaysAlive(VD)) {
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// The variable is now dead.
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val.liveDecls = LV.DSetFact.remove(val.liveDecls, VD);
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}
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if (observer)
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observer->observerKill(DR);
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}
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}
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}
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void TransferFunctions::VisitBlockExpr(BlockExpr *BE) {
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for (const VarDecl *VD :
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LV.analysisContext.getReferencedBlockVars(BE->getBlockDecl())) {
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if (isAlwaysAlive(VD))
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continue;
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val.liveDecls = LV.DSetFact.add(val.liveDecls, VD);
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}
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}
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void TransferFunctions::VisitDeclRefExpr(DeclRefExpr *DR) {
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if (const VarDecl *D = dyn_cast<VarDecl>(DR->getDecl()))
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if (!isAlwaysAlive(D) && LV.inAssignment.find(DR) == LV.inAssignment.end())
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val.liveDecls = LV.DSetFact.add(val.liveDecls, D);
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}
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void TransferFunctions::VisitDeclStmt(DeclStmt *DS) {
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for (const auto *DI : DS->decls())
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if (const auto *VD = dyn_cast<VarDecl>(DI)) {
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if (!isAlwaysAlive(VD))
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val.liveDecls = LV.DSetFact.remove(val.liveDecls, VD);
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}
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}
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void TransferFunctions::VisitObjCForCollectionStmt(ObjCForCollectionStmt *OS) {
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// Kill the iteration variable.
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DeclRefExpr *DR = nullptr;
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const VarDecl *VD = nullptr;
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Stmt *element = OS->getElement();
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if (DeclStmt *DS = dyn_cast<DeclStmt>(element)) {
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VD = cast<VarDecl>(DS->getSingleDecl());
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}
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else if ((DR = dyn_cast<DeclRefExpr>(cast<Expr>(element)->IgnoreParens()))) {
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VD = cast<VarDecl>(DR->getDecl());
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}
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if (VD) {
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val.liveDecls = LV.DSetFact.remove(val.liveDecls, VD);
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if (observer && DR)
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observer->observerKill(DR);
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}
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}
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void TransferFunctions::
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VisitUnaryExprOrTypeTraitExpr(UnaryExprOrTypeTraitExpr *UE)
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{
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// While sizeof(var) doesn't technically extend the liveness of 'var', it
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// does extent the liveness of metadata if 'var' is a VariableArrayType.
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// We handle that special case here.
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if (UE->getKind() != UETT_SizeOf || UE->isArgumentType())
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return;
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const Expr *subEx = UE->getArgumentExpr();
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if (subEx->getType()->isVariableArrayType()) {
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assert(subEx->isLValue());
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val.liveStmts = LV.SSetFact.add(val.liveStmts, subEx->IgnoreParens());
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}
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}
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void TransferFunctions::VisitUnaryOperator(UnaryOperator *UO) {
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// Treat ++/-- as a kill.
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// Note we don't actually have to do anything if we don't have an observer,
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// since a ++/-- acts as both a kill and a "use".
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if (!observer)
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return;
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switch (UO->getOpcode()) {
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default:
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return;
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case UO_PostInc:
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case UO_PostDec:
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case UO_PreInc:
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case UO_PreDec:
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break;
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}
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if (DeclRefExpr *DR = dyn_cast<DeclRefExpr>(UO->getSubExpr()->IgnoreParens()))
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if (isa<VarDecl>(DR->getDecl())) {
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// Treat ++/-- as a kill.
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observer->observerKill(DR);
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}
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}
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LiveVariables::LivenessValues
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LiveVariablesImpl::runOnBlock(const CFGBlock *block,
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LiveVariables::LivenessValues val,
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LiveVariables::Observer *obs) {
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TransferFunctions TF(*this, val, obs, block);
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// Visit the terminator (if any).
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if (const Stmt *term = block->getTerminator())
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TF.Visit(const_cast<Stmt*>(term));
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// Apply the transfer function for all Stmts in the block.
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for (CFGBlock::const_reverse_iterator it = block->rbegin(),
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ei = block->rend(); it != ei; ++it) {
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const CFGElement &elem = *it;
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if (Optional<CFGAutomaticObjDtor> Dtor =
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elem.getAs<CFGAutomaticObjDtor>()) {
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val.liveDecls = DSetFact.add(val.liveDecls, Dtor->getVarDecl());
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continue;
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}
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if (!elem.getAs<CFGStmt>())
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continue;
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const Stmt *S = elem.castAs<CFGStmt>().getStmt();
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TF.Visit(const_cast<Stmt*>(S));
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stmtsToLiveness[S] = val;
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}
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return val;
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}
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void LiveVariables::runOnAllBlocks(LiveVariables::Observer &obs) {
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const CFG *cfg = getImpl(impl).analysisContext.getCFG();
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for (CFG::const_iterator it = cfg->begin(), ei = cfg->end(); it != ei; ++it)
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getImpl(impl).runOnBlock(*it, getImpl(impl).blocksEndToLiveness[*it], &obs);
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}
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LiveVariables::LiveVariables(void *im) : impl(im) {}
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LiveVariables::~LiveVariables() {
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delete (LiveVariablesImpl*) impl;
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}
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LiveVariables *
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LiveVariables::computeLiveness(AnalysisDeclContext &AC,
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bool killAtAssign) {
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// No CFG? Bail out.
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CFG *cfg = AC.getCFG();
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if (!cfg)
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return nullptr;
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// The analysis currently has scalability issues for very large CFGs.
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// Bail out if it looks too large.
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if (cfg->getNumBlockIDs() > 300000)
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return nullptr;
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LiveVariablesImpl *LV = new LiveVariablesImpl(AC, killAtAssign);
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// Construct the dataflow worklist. Enqueue the exit block as the
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// start of the analysis.
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DataflowWorklist worklist(*cfg, AC);
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llvm::BitVector everAnalyzedBlock(cfg->getNumBlockIDs());
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// FIXME: we should enqueue using post order.
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for (CFG::const_iterator it = cfg->begin(), ei = cfg->end(); it != ei; ++it) {
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const CFGBlock *block = *it;
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worklist.enqueueBlock(block);
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// FIXME: Scan for DeclRefExprs using in the LHS of an assignment.
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// We need to do this because we lack context in the reverse analysis
|
|
// to determine if a DeclRefExpr appears in such a context, and thus
|
|
// doesn't constitute a "use".
|
|
if (killAtAssign)
|
|
for (CFGBlock::const_iterator bi = block->begin(), be = block->end();
|
|
bi != be; ++bi) {
|
|
if (Optional<CFGStmt> cs = bi->getAs<CFGStmt>()) {
|
|
if (const BinaryOperator *BO =
|
|
dyn_cast<BinaryOperator>(cs->getStmt())) {
|
|
if (BO->getOpcode() == BO_Assign) {
|
|
if (const DeclRefExpr *DR =
|
|
dyn_cast<DeclRefExpr>(BO->getLHS()->IgnoreParens())) {
|
|
LV->inAssignment[DR] = 1;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
worklist.sortWorklist();
|
|
|
|
while (const CFGBlock *block = worklist.dequeue()) {
|
|
// Determine if the block's end value has changed. If not, we
|
|
// have nothing left to do for this block.
|
|
LivenessValues &prevVal = LV->blocksEndToLiveness[block];
|
|
|
|
// Merge the values of all successor blocks.
|
|
LivenessValues val;
|
|
for (CFGBlock::const_succ_iterator it = block->succ_begin(),
|
|
ei = block->succ_end(); it != ei; ++it) {
|
|
if (const CFGBlock *succ = *it) {
|
|
val = LV->merge(val, LV->blocksBeginToLiveness[succ]);
|
|
}
|
|
}
|
|
|
|
if (!everAnalyzedBlock[block->getBlockID()])
|
|
everAnalyzedBlock[block->getBlockID()] = true;
|
|
else if (prevVal.equals(val))
|
|
continue;
|
|
|
|
prevVal = val;
|
|
|
|
// Update the dataflow value for the start of this block.
|
|
LV->blocksBeginToLiveness[block] = LV->runOnBlock(block, val);
|
|
|
|
// Enqueue the value to the predecessors.
|
|
worklist.enqueuePredecessors(block);
|
|
}
|
|
|
|
return new LiveVariables(LV);
|
|
}
|
|
|
|
void LiveVariables::dumpBlockLiveness(const SourceManager &M) {
|
|
getImpl(impl).dumpBlockLiveness(M);
|
|
}
|
|
|
|
void LiveVariablesImpl::dumpBlockLiveness(const SourceManager &M) {
|
|
std::vector<const CFGBlock *> vec;
|
|
for (llvm::DenseMap<const CFGBlock *, LiveVariables::LivenessValues>::iterator
|
|
it = blocksEndToLiveness.begin(), ei = blocksEndToLiveness.end();
|
|
it != ei; ++it) {
|
|
vec.push_back(it->first);
|
|
}
|
|
std::sort(vec.begin(), vec.end(), [](const CFGBlock *A, const CFGBlock *B) {
|
|
return A->getBlockID() < B->getBlockID();
|
|
});
|
|
|
|
std::vector<const VarDecl*> declVec;
|
|
|
|
for (std::vector<const CFGBlock *>::iterator
|
|
it = vec.begin(), ei = vec.end(); it != ei; ++it) {
|
|
llvm::errs() << "\n[ B" << (*it)->getBlockID()
|
|
<< " (live variables at block exit) ]\n";
|
|
|
|
LiveVariables::LivenessValues vals = blocksEndToLiveness[*it];
|
|
declVec.clear();
|
|
|
|
for (llvm::ImmutableSet<const VarDecl *>::iterator si =
|
|
vals.liveDecls.begin(),
|
|
se = vals.liveDecls.end(); si != se; ++si) {
|
|
declVec.push_back(*si);
|
|
}
|
|
|
|
std::sort(declVec.begin(), declVec.end(), [](const Decl *A, const Decl *B) {
|
|
return A->getLocStart() < B->getLocStart();
|
|
});
|
|
|
|
for (std::vector<const VarDecl*>::iterator di = declVec.begin(),
|
|
de = declVec.end(); di != de; ++di) {
|
|
llvm::errs() << " " << (*di)->getDeclName().getAsString()
|
|
<< " <";
|
|
(*di)->getLocation().dump(M);
|
|
llvm::errs() << ">\n";
|
|
}
|
|
}
|
|
llvm::errs() << "\n";
|
|
}
|
|
|
|
const void *LiveVariables::getTag() { static int x; return &x; }
|
|
const void *RelaxedLiveVariables::getTag() { static int x; return &x; }
|