forked from OSchip/llvm-project
363 lines
12 KiB
C++
363 lines
12 KiB
C++
//==- DeadStoresChecker.cpp - Check for stores to dead variables -*- C++ -*-==//
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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 defines a DeadStores, a flow-sensitive checker that looks for
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// stores to variables that are no longer live.
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//
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//===----------------------------------------------------------------------===//
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#include "ClangSACheckers.h"
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#include "clang/StaticAnalyzer/Core/Checker.h"
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#include "clang/Analysis/Analyses/LiveVariables.h"
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#include "clang/Analysis/Visitors/CFGRecStmtVisitor.h"
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#include "clang/StaticAnalyzer/Core/BugReporter/BugReporter.h"
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#include "clang/StaticAnalyzer/Core/PathSensitive/ExprEngine.h"
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#include "clang/Analysis/Visitors/CFGRecStmtDeclVisitor.h"
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#include "clang/Basic/Diagnostic.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/ParentMap.h"
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#include "llvm/ADT/SmallPtrSet.h"
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using namespace clang;
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using namespace ento;
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namespace {
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// FIXME: Eventually migrate into its own file, and have it managed by
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// AnalysisManager.
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class ReachableCode {
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const CFG &cfg;
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llvm::BitVector reachable;
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public:
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ReachableCode(const CFG &cfg)
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: cfg(cfg), reachable(cfg.getNumBlockIDs(), false) {}
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void computeReachableBlocks();
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bool isReachable(const CFGBlock *block) const {
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return reachable[block->getBlockID()];
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}
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};
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}
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void ReachableCode::computeReachableBlocks() {
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if (!cfg.getNumBlockIDs())
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return;
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llvm::SmallVector<const CFGBlock*, 10> worklist;
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worklist.push_back(&cfg.getEntry());
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while (!worklist.empty()) {
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const CFGBlock *block = worklist.back();
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worklist.pop_back();
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llvm::BitVector::reference isReachable = reachable[block->getBlockID()];
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if (isReachable)
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continue;
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isReachable = true;
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for (CFGBlock::const_succ_iterator i = block->succ_begin(),
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e = block->succ_end(); i != e; ++i)
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if (const CFGBlock *succ = *i)
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worklist.push_back(succ);
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}
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}
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namespace {
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class DeadStoreObs : public LiveVariables::ObserverTy {
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const CFG &cfg;
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ASTContext &Ctx;
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BugReporter& BR;
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ParentMap& Parents;
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llvm::SmallPtrSet<VarDecl*, 20> Escaped;
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llvm::OwningPtr<ReachableCode> reachableCode;
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const CFGBlock *currentBlock;
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enum DeadStoreKind { Standard, Enclosing, DeadIncrement, DeadInit };
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public:
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DeadStoreObs(const CFG &cfg, ASTContext &ctx,
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BugReporter& br, ParentMap& parents,
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llvm::SmallPtrSet<VarDecl*, 20> &escaped)
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: cfg(cfg), Ctx(ctx), BR(br), Parents(parents),
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Escaped(escaped), currentBlock(0) {}
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virtual ~DeadStoreObs() {}
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void Report(VarDecl* V, DeadStoreKind dsk, SourceLocation L, SourceRange R) {
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if (Escaped.count(V))
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return;
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// Compute reachable blocks within the CFG for trivial cases
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// where a bogus dead store can be reported because itself is unreachable.
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if (!reachableCode.get()) {
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reachableCode.reset(new ReachableCode(cfg));
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reachableCode->computeReachableBlocks();
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}
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if (!reachableCode->isReachable(currentBlock))
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return;
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const std::string &name = V->getNameAsString();
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const char* BugType = 0;
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std::string msg;
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switch (dsk) {
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default:
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assert(false && "Impossible dead store type.");
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case DeadInit:
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BugType = "Dead initialization";
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msg = "Value stored to '" + name +
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"' during its initialization is never read";
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break;
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case DeadIncrement:
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BugType = "Dead increment";
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case Standard:
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if (!BugType) BugType = "Dead assignment";
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msg = "Value stored to '" + name + "' is never read";
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break;
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case Enclosing:
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// Don't report issues in this case, e.g.: "if (x = foo())",
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// where 'x' is unused later. We have yet to see a case where
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// this is a real bug.
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return;
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}
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BR.EmitBasicReport(BugType, "Dead store", msg, L, R);
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}
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void CheckVarDecl(VarDecl* VD, Expr* Ex, Expr* Val,
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DeadStoreKind dsk,
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const LiveVariables::AnalysisDataTy& AD,
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const LiveVariables::ValTy& Live) {
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if (!VD->hasLocalStorage())
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return;
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// Reference types confuse the dead stores checker. Skip them
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// for now.
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if (VD->getType()->getAs<ReferenceType>())
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return;
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if (!Live(VD, AD) &&
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!(VD->getAttr<UnusedAttr>() || VD->getAttr<BlocksAttr>()))
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Report(VD, dsk, Ex->getSourceRange().getBegin(),
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Val->getSourceRange());
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}
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void CheckDeclRef(DeclRefExpr* DR, Expr* Val, DeadStoreKind dsk,
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const LiveVariables::AnalysisDataTy& AD,
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const LiveVariables::ValTy& Live) {
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if (VarDecl* VD = dyn_cast<VarDecl>(DR->getDecl()))
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CheckVarDecl(VD, DR, Val, dsk, AD, Live);
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}
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bool isIncrement(VarDecl* VD, BinaryOperator* B) {
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if (B->isCompoundAssignmentOp())
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return true;
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Expr* RHS = B->getRHS()->IgnoreParenCasts();
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BinaryOperator* BRHS = dyn_cast<BinaryOperator>(RHS);
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if (!BRHS)
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return false;
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DeclRefExpr *DR;
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if ((DR = dyn_cast<DeclRefExpr>(BRHS->getLHS()->IgnoreParenCasts())))
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if (DR->getDecl() == VD)
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return true;
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if ((DR = dyn_cast<DeclRefExpr>(BRHS->getRHS()->IgnoreParenCasts())))
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if (DR->getDecl() == VD)
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return true;
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return false;
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}
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virtual void ObserveStmt(Stmt* S, const CFGBlock *block,
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const LiveVariables::AnalysisDataTy& AD,
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const LiveVariables::ValTy& Live) {
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currentBlock = block;
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// Skip statements in macros.
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if (S->getLocStart().isMacroID())
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return;
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// Only cover dead stores from regular assignments. ++/-- dead stores
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// have never flagged a real bug.
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if (BinaryOperator* B = dyn_cast<BinaryOperator>(S)) {
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if (!B->isAssignmentOp()) return; // Skip non-assignments.
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if (DeclRefExpr* DR = dyn_cast<DeclRefExpr>(B->getLHS()))
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if (VarDecl *VD = dyn_cast<VarDecl>(DR->getDecl())) {
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// Special case: check for assigning null to a pointer.
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// This is a common form of defensive programming.
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QualType T = VD->getType();
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if (T->isPointerType() || T->isObjCObjectPointerType()) {
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if (B->getRHS()->isNullPointerConstant(Ctx,
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Expr::NPC_ValueDependentIsNull))
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return;
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}
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Expr* RHS = B->getRHS()->IgnoreParenCasts();
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// Special case: self-assignments. These are often used to shut up
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// "unused variable" compiler warnings.
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if (DeclRefExpr* RhsDR = dyn_cast<DeclRefExpr>(RHS))
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if (VD == dyn_cast<VarDecl>(RhsDR->getDecl()))
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return;
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// Otherwise, issue a warning.
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DeadStoreKind dsk = Parents.isConsumedExpr(B)
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? Enclosing
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: (isIncrement(VD,B) ? DeadIncrement : Standard);
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CheckVarDecl(VD, DR, B->getRHS(), dsk, AD, Live);
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}
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}
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else if (UnaryOperator* U = dyn_cast<UnaryOperator>(S)) {
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if (!U->isIncrementOp() || U->isPrefix())
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return;
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Stmt *parent = Parents.getParentIgnoreParenCasts(U);
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if (!parent || !isa<ReturnStmt>(parent))
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return;
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Expr *Ex = U->getSubExpr()->IgnoreParenCasts();
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if (DeclRefExpr* DR = dyn_cast<DeclRefExpr>(Ex))
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CheckDeclRef(DR, U, DeadIncrement, AD, Live);
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}
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else if (DeclStmt* DS = dyn_cast<DeclStmt>(S))
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// Iterate through the decls. Warn if any initializers are complex
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// expressions that are not live (never used).
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for (DeclStmt::decl_iterator DI=DS->decl_begin(), DE=DS->decl_end();
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DI != DE; ++DI) {
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VarDecl* V = dyn_cast<VarDecl>(*DI);
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if (!V)
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continue;
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if (V->hasLocalStorage()) {
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// Reference types confuse the dead stores checker. Skip them
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// for now.
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if (V->getType()->getAs<ReferenceType>())
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return;
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if (Expr* E = V->getInit()) {
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// Don't warn on C++ objects (yet) until we can show that their
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// constructors/destructors don't have side effects.
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if (isa<CXXConstructExpr>(E))
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return;
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if (isa<ExprWithCleanups>(E))
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return;
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// A dead initialization is a variable that is dead after it
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// is initialized. We don't flag warnings for those variables
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// marked 'unused'.
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if (!Live(V, AD) && V->getAttr<UnusedAttr>() == 0) {
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// Special case: check for initializations with constants.
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//
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// e.g. : int x = 0;
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//
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// If x is EVER assigned a new value later, don't issue
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// a warning. This is because such initialization can be
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// due to defensive programming.
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if (E->isConstantInitializer(Ctx, false))
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return;
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if (DeclRefExpr *DRE=dyn_cast<DeclRefExpr>(E->IgnoreParenCasts()))
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if (VarDecl *VD = dyn_cast<VarDecl>(DRE->getDecl())) {
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// Special case: check for initialization from constant
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// variables.
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//
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// e.g. extern const int MyConstant;
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// int x = MyConstant;
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//
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if (VD->hasGlobalStorage() &&
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VD->getType().isConstQualified())
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return;
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// Special case: check for initialization from scalar
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// parameters. This is often a form of defensive
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// programming. Non-scalars are still an error since
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// because it more likely represents an actual algorithmic
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// bug.
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if (isa<ParmVarDecl>(VD) && VD->getType()->isScalarType())
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return;
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}
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Report(V, DeadInit, V->getLocation(), E->getSourceRange());
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}
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}
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}
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}
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}
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};
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} // end anonymous namespace
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//===----------------------------------------------------------------------===//
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// Driver function to invoke the Dead-Stores checker on a CFG.
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//===----------------------------------------------------------------------===//
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namespace {
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class FindEscaped : public CFGRecStmtDeclVisitor<FindEscaped>{
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CFG *cfg;
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public:
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FindEscaped(CFG *c) : cfg(c) {}
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CFG& getCFG() { return *cfg; }
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llvm::SmallPtrSet<VarDecl*, 20> Escaped;
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void VisitUnaryOperator(UnaryOperator* U) {
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// Check for '&'. Any VarDecl whose value has its address-taken we
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// treat as escaped.
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Expr* E = U->getSubExpr()->IgnoreParenCasts();
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if (U->getOpcode() == UO_AddrOf)
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if (DeclRefExpr* DR = dyn_cast<DeclRefExpr>(E))
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if (VarDecl* VD = dyn_cast<VarDecl>(DR->getDecl())) {
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Escaped.insert(VD);
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return;
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}
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Visit(E);
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}
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};
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} // end anonymous namespace
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//===----------------------------------------------------------------------===//
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// DeadStoresChecker
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//===----------------------------------------------------------------------===//
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namespace {
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class DeadStoresChecker : public Checker<check::ASTCodeBody> {
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public:
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void checkASTCodeBody(const Decl *D, AnalysisManager& mgr,
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BugReporter &BR) const {
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if (LiveVariables *L = mgr.getLiveVariables(D)) {
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CFG &cfg = *mgr.getCFG(D);
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ParentMap &pmap = mgr.getParentMap(D);
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FindEscaped FS(&cfg);
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FS.getCFG().VisitBlockStmts(FS);
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DeadStoreObs A(cfg, BR.getContext(), BR, pmap, FS.Escaped);
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L->runOnAllBlocks(cfg, &A);
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}
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}
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};
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}
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void ento::registerDeadStoresChecker(CheckerManager &mgr) {
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mgr.registerChecker<DeadStoresChecker>();
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}
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