//== SymbolManager.h - Management of Symbolic Values ------------*- C++ -*--==// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines SymbolManager, a class that manages symbolic values // created for use by GRExprEngine and related classes. // //===----------------------------------------------------------------------===// #include "clang/Analysis/PathSensitive/SymbolManager.h" #include "clang/Analysis/PathSensitive/MemRegion.h" #include "llvm/Support/raw_ostream.h" using namespace clang; void SymExpr::dump() const { dumpToStream(llvm::errs()); } static void print(llvm::raw_ostream& os, BinaryOperator::Opcode Op) { switch (Op) { default: assert(false && "operator printing not implemented"); break; case BinaryOperator::Mul: os << '*' ; break; case BinaryOperator::Div: os << '/' ; break; case BinaryOperator::Rem: os << '%' ; break; case BinaryOperator::Add: os << '+' ; break; case BinaryOperator::Sub: os << '-' ; break; case BinaryOperator::Shl: os << "<<" ; break; case BinaryOperator::Shr: os << ">>" ; break; case BinaryOperator::LT: os << "<" ; break; case BinaryOperator::GT: os << '>' ; break; case BinaryOperator::LE: os << "<=" ; break; case BinaryOperator::GE: os << ">=" ; break; case BinaryOperator::EQ: os << "==" ; break; case BinaryOperator::NE: os << "!=" ; break; case BinaryOperator::And: os << '&' ; break; case BinaryOperator::Xor: os << '^' ; break; case BinaryOperator::Or: os << '|' ; break; } } void SymIntExpr::dumpToStream(llvm::raw_ostream& os) const { os << '('; getLHS()->dumpToStream(os); os << ") "; print(os, getOpcode()); os << ' ' << getRHS().getZExtValue(); if (getRHS().isUnsigned()) os << 'U'; } void SymSymExpr::dumpToStream(llvm::raw_ostream& os) const { os << '('; getLHS()->dumpToStream(os); os << ") "; os << '('; getRHS()->dumpToStream(os); os << ')'; } void SymbolConjured::dumpToStream(llvm::raw_ostream& os) const { os << "conj_$" << getSymbolID() << '{' << T.getAsString() << '}'; } void SymbolDerived::dumpToStream(llvm::raw_ostream& os) const { os << "derived_$" << getSymbolID() << '{' << getParentSymbol() << ',' << getRegion() << '}'; } void SymbolRegionValue::dumpToStream(llvm::raw_ostream& os) const { os << "reg_$" << getSymbolID() << "<" << R << ">"; } const SymbolRegionValue* SymbolManager::getRegionValueSymbol(const MemRegion* R, QualType T) { llvm::FoldingSetNodeID profile; SymbolRegionValue::Profile(profile, R, T); void* InsertPos; SymExpr *SD = DataSet.FindNodeOrInsertPos(profile, InsertPos); if (!SD) { SD = (SymExpr*) BPAlloc.Allocate(); new (SD) SymbolRegionValue(SymbolCounter, R, T); DataSet.InsertNode(SD, InsertPos); ++SymbolCounter; } return cast(SD); } const SymbolConjured* SymbolManager::getConjuredSymbol(const Stmt* E, QualType T, unsigned Count, const void* SymbolTag) { llvm::FoldingSetNodeID profile; SymbolConjured::Profile(profile, E, T, Count, SymbolTag); void* InsertPos; SymExpr *SD = DataSet.FindNodeOrInsertPos(profile, InsertPos); if (!SD) { SD = (SymExpr*) BPAlloc.Allocate(); new (SD) SymbolConjured(SymbolCounter, E, T, Count, SymbolTag); DataSet.InsertNode(SD, InsertPos); ++SymbolCounter; } return cast(SD); } const SymbolDerived* SymbolManager::getDerivedSymbol(SymbolRef parentSymbol, const TypedRegion *R) { llvm::FoldingSetNodeID profile; SymbolDerived::Profile(profile, parentSymbol, R); void* InsertPos; SymExpr *SD = DataSet.FindNodeOrInsertPos(profile, InsertPos); if (!SD) { SD = (SymExpr*) BPAlloc.Allocate(); new (SD) SymbolDerived(SymbolCounter, parentSymbol, R); DataSet.InsertNode(SD, InsertPos); ++SymbolCounter; } return cast(SD); } const SymIntExpr *SymbolManager::getSymIntExpr(const SymExpr *lhs, BinaryOperator::Opcode op, const llvm::APSInt& v, QualType t) { llvm::FoldingSetNodeID ID; SymIntExpr::Profile(ID, lhs, op, v, t); void *InsertPos; SymExpr *data = DataSet.FindNodeOrInsertPos(ID, InsertPos); if (!data) { data = (SymIntExpr*) BPAlloc.Allocate(); new (data) SymIntExpr(lhs, op, v, t); DataSet.InsertNode(data, InsertPos); } return cast(data); } const SymSymExpr *SymbolManager::getSymSymExpr(const SymExpr *lhs, BinaryOperator::Opcode op, const SymExpr *rhs, QualType t) { llvm::FoldingSetNodeID ID; SymSymExpr::Profile(ID, lhs, op, rhs, t); void *InsertPos; SymExpr *data = DataSet.FindNodeOrInsertPos(ID, InsertPos); if (!data) { data = (SymSymExpr*) BPAlloc.Allocate(); new (data) SymSymExpr(lhs, op, rhs, t); DataSet.InsertNode(data, InsertPos); } return cast(data); } QualType SymbolConjured::getType(ASTContext&) const { return T; } QualType SymbolDerived::getType(ASTContext& Ctx) const { return R->getValueType(Ctx); } QualType SymbolRegionValue::getType(ASTContext& C) const { if (!T.isNull()) return T; if (const TypedRegion* TR = dyn_cast(R)) return TR->getValueType(C); return QualType(); } SymbolManager::~SymbolManager() {} bool SymbolManager::canSymbolicate(QualType T) { return Loc::IsLocType(T) || (T->isIntegerType() && T->isScalarType()); } void SymbolReaper::markLive(SymbolRef sym) { TheLiving = F.Add(TheLiving, sym); TheDead = F.Remove(TheDead, sym); } bool SymbolReaper::maybeDead(SymbolRef sym) { if (isLive(sym)) return false; TheDead = F.Add(TheDead, sym); return true; } bool SymbolReaper::isLive(SymbolRef sym) { if (TheLiving.contains(sym)) return true; if (const SymbolDerived *derived = dyn_cast(sym)) { if (isLive(derived->getParentSymbol())) { markLive(sym); return true; } return false; } // Interogate the symbol. It may derive from an input value to // the analyzed function/method. return isa(sym); } SymbolVisitor::~SymbolVisitor() {}