lib/Analysis/BasicStore.cpp - fp2-dev/platform/external/clang - Gitiles

 //== BasicStore.cpp - Basic map from Locations to 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 defined the BasicStore and BasicStoreManager classes.
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Analysis/Analyses/LiveVariables.h"
 #include "clang/Analysis/PathSensitive/GRState.h"
 #include "llvm/ADT/ImmutableMap.h"
 #include "llvm/Support/Compiler.h"
 #include "llvm/Support/Streams.h"

 using namespace clang;

 typedef llvm::ImmutableMap<const VarDecl*,SVal> VarBindingsTy;

 namespace {

 class VISIBILITY_HIDDEN BasicStoreManager : public StoreManager {
   VarBindingsTy::Factory VBFactory;
   GRStateManager& StateMgr;
   MemRegionManager MRMgr;

 public:
   BasicStoreManager(GRStateManager& mgr)
     : StateMgr(mgr), MRMgr(StateMgr.getAllocator()) {}

   virtual ~BasicStoreManager() {}

   virtual SVal GetSVal(Store St, Loc LV, QualType T);
   virtual Store SetSVal(Store St, Loc LV, SVal V);
   virtual Store Remove(Store St, Loc LV);

   virtual Store getInitialStore();

   virtual MemRegionManager& getRegionManager() { return MRMgr; }

   // FIXME: Investigate what is using this. This method should be removed.
   virtual Loc getLoc(const VarDecl* VD) {
     return loc::MemRegionVal(MRMgr.getVarRegion(VD));
   }

   SVal getLValueVar(const GRState* St, const VarDecl* VD);
   SVal getLValueIvar(const GRState* St, const ObjCIvarDecl* D, SVal Base);
   SVal getLValueField(const GRState* St, const FieldDecl* D, SVal Base);
   SVal getLValueElement(const GRState* St, SVal Base, SVal Offset);

   virtual Store
   RemoveDeadBindings(Store store, Stmt* Loc, const LiveVariables& Live,
                      llvm::SmallVectorImpl<const MemRegion*>& RegionRoots,
                      LiveSymbolsTy& LSymbols, DeadSymbolsTy& DSymbols);

   virtual void iterBindings(Store store, BindingsHandler& f);

   virtual Store AddDecl(Store store,
                         const VarDecl* VD, Expr* Ex,
                         SVal InitVal = UndefinedVal(), unsigned Count = 0);

   static inline VarBindingsTy GetVarBindings(Store store) {
     return VarBindingsTy(static_cast<const VarBindingsTy::TreeTy*>(store));
   }

   virtual void print(Store store, std::ostream& Out,
                      const char* nl, const char *sep);

 };

 } // end anonymous namespace


 StoreManager* clang::CreateBasicStoreManager(GRStateManager& StMgr) {
   return new BasicStoreManager(StMgr);
 }
 SVal BasicStoreManager::getLValueVar(const GRState* St, const VarDecl* VD) {
   return loc::MemRegionVal(MRMgr.getVarRegion(VD));
 }

 SVal BasicStoreManager::getLValueIvar(const GRState* St, const ObjCIvarDecl* D,
                                       SVal Base) {
   return UnknownVal();
 }


 SVal BasicStoreManager::getLValueField(const GRState* St, const FieldDecl* D,
                                        SVal Base) {

   if (Base.isUnknownOrUndef())
     return Base;

   Loc BaseL = cast<Loc>(Base);
   const MemRegion* BaseR = 0;

   switch(BaseL.getSubKind()) {
     case loc::SymbolValKind:
       BaseR = MRMgr.getSymbolicRegion(cast<loc::SymbolVal>(&BaseL)->getSymbol());
       break;

     case loc::GotoLabelKind:
     case loc::FuncValKind:
       // Technically we can get here if people do funny things with casts.
       return UndefinedVal();

     case loc::MemRegionKind:
       BaseR = cast<loc::MemRegionVal>(BaseL).getRegion();
       break;

     case loc::ConcreteIntKind:
     case loc::StringLiteralValKind:
       // While these seem funny, this can happen through casts.
       // FIXME: What we should return is the field offset.  For example,
       //  add the field offset to the integer value.  That way funny things
       //  like this work properly:  &(((struct foo *) 0xa)->f)
       return Base;

     default:
       assert ("Unhandled Base.");
       return Base;
   }

   return loc::MemRegionVal(MRMgr.getFieldRegion(D, BaseR));
 }

 SVal BasicStoreManager::getLValueElement(const GRState* St, SVal Base,
                                          SVal Offset) {
   // Total hack: Just return "Base" for now.
   return Base;
 }

 SVal BasicStoreManager::GetSVal(Store St, Loc LV, QualType T) {

   if (isa<UnknownVal>(LV))
     return UnknownVal();

   assert (!isa<UndefinedVal>(LV));

   switch (LV.getSubKind()) {

     case loc::MemRegionKind: {
       const VarRegion* R =
         dyn_cast<VarRegion>(cast<loc::MemRegionVal>(LV).getRegion());

       if (!R)
         return UnknownVal();

       VarBindingsTy B(static_cast<const VarBindingsTy::TreeTy*>(St));
       VarBindingsTy::data_type* T = B.lookup(R->getDecl());
       return T ? *T : UnknownVal();
     }

     case loc::SymbolValKind:
       return UnknownVal();

     case loc::ConcreteIntKind:
       // Some clients may call GetSVal with such an option simply because
       // they are doing a quick scan through their Locs (potentially to
       // invalidate their bindings).  Just return Undefined.
       return UndefinedVal();
     case loc::FuncValKind:
       return LV;

     case loc::StringLiteralValKind:
       // FIXME: Implement better support for fetching characters from strings.
       return UnknownVal();

     default:
       assert (false && "Invalid Loc.");
       break;
   }

   return UnknownVal();
 }

 Store BasicStoreManager::SetSVal(Store store, Loc LV, SVal V) {
   switch (LV.getSubKind()) {
     case loc::MemRegionKind: {
       const VarRegion* R =
         dyn_cast<VarRegion>(cast<loc::MemRegionVal>(LV).getRegion());

       if (!R)
         return store;

       VarBindingsTy B = GetVarBindings(store);
       return V.isUnknown()
         ? VBFactory.Remove(B, R->getDecl()).getRoot()
         : VBFactory.Add(B, R->getDecl(), V).getRoot();
     }
     default:
       assert ("SetSVal for given Loc type not yet implemented.");
       return store;
   }
 }

 Store BasicStoreManager::Remove(Store store, Loc LV) {
   switch (LV.getSubKind()) {
     case loc::MemRegionKind: {
       const VarRegion* R =
         dyn_cast<VarRegion>(cast<loc::MemRegionVal>(LV).getRegion());

       if (!R)
         return store;

       VarBindingsTy B = GetVarBindings(store);
       return VBFactory.Remove(B,R->getDecl()).getRoot();
     }
     default:
       assert ("Remove for given Loc type not yet implemented.");
       return store;
   }
 }

 Store
 BasicStoreManager::RemoveDeadBindings(Store store, Stmt* Loc,
                           const LiveVariables& Liveness,
                           llvm::SmallVectorImpl<const MemRegion*>& RegionRoots,
                           LiveSymbolsTy& LSymbols, DeadSymbolsTy& DSymbols) {

   VarBindingsTy B = GetVarBindings(store);
   typedef SVal::symbol_iterator symbol_iterator;

   // Iterate over the variable bindings.
   for (VarBindingsTy::iterator I=B.begin(), E=B.end(); I!=E ; ++I)
     if (Liveness.isLive(Loc, I.getKey())) {
       RegionRoots.push_back(MRMgr.getVarRegion(I.getKey()));
       SVal X = I.getData();

       for (symbol_iterator SI=X.symbol_begin(), SE=X.symbol_end(); SI!=SE; ++SI)
         LSymbols.insert(*SI);
     }

   // Scan for live variables and live symbols.
   llvm::SmallPtrSet<const VarRegion*, 10> Marked;

   while (!RegionRoots.empty()) {
     const MemRegion* MR = RegionRoots.back();
     RegionRoots.pop_back();

     while (MR) {
       if (const SymbolicRegion* SymR = dyn_cast<SymbolicRegion>(MR)) {
         LSymbols.insert(SymR->getSymbol());
         break;
       }
       else if (const VarRegion* R = dyn_cast<VarRegion>(MR)) {
         if (Marked.count(R))
           break;

         Marked.insert(R);
         SVal X = GetRegionSVal(store, R);

         // FIXME: We need to handle symbols nested in region definitions.
         for (symbol_iterator SI=X.symbol_begin(), SE=X.symbol_end(); SI!=SE; ++SI)
           LSymbols.insert(*SI);

         if (!isa<loc::MemRegionVal>(X))
           break;

         const loc::MemRegionVal& LVD = cast<loc::MemRegionVal>(X);
         RegionRoots.push_back(LVD.getRegion());
         break;
       }
       else if (const SubRegion* R = dyn_cast<SubRegion>(MR))
         MR = R->getSuperRegion();
       else
         break;
     }
   }

   // Remove dead variable bindings.
   for (VarBindingsTy::iterator I=B.begin(), E=B.end(); I!=E ; ++I) {
     const VarRegion* R = cast<VarRegion>(MRMgr.getVarRegion(I.getKey()));

     if (!Marked.count(R)) {
       store = Remove(store, loc::MemRegionVal(R));
       SVal X = I.getData();

       for (symbol_iterator SI=X.symbol_begin(), SE=X.symbol_end(); SI!=SE; ++SI)
         if (!LSymbols.count(*SI)) DSymbols.insert(*SI);
     }
   }

   return store;
 }

 Store BasicStoreManager::getInitialStore() {
   // The LiveVariables information already has a compilation of all VarDecls
   // used in the function.  Iterate through this set, and "symbolicate"
   // any VarDecl whose value originally comes from outside the function.

   typedef LiveVariables::AnalysisDataTy LVDataTy;
   LVDataTy& D = StateMgr.getLiveVariables().getAnalysisData();

   Store St = VBFactory.GetEmptyMap().getRoot();

   for (LVDataTy::decl_iterator I=D.begin_decl(), E=D.end_decl(); I != E; ++I) {
     ScopedDecl* SD = const_cast<ScopedDecl*>(I->first);

     if (VarDecl* VD = dyn_cast<VarDecl>(SD)) {
       // Punt on static variables for now.
       if (VD->getStorageClass() == VarDecl::Static)
         continue;

       // Only handle pointers and integers for now.
       QualType T = VD->getType();
       if (Loc::IsLocType(T) || T->isIntegerType()) {
         // Initialize globals and parameters to symbolic values.
         // Initialize local variables to undefined.
         SVal X = (VD->hasGlobalStorage() || isa<ParmVarDecl>(VD) ||
                   isa<ImplicitParamDecl>(VD))
                  ? SVal::GetSymbolValue(StateMgr.getSymbolManager(), VD)
                  : UndefinedVal();

         St = SetSVal(St, loc::MemRegionVal(MRMgr.getVarRegion(VD)), X);
       }
     }
   }
   return St;
 }

 Store BasicStoreManager::AddDecl(Store store,
                                  const VarDecl* VD, Expr* Ex,
                                  SVal InitVal, unsigned Count) {

   BasicValueFactory& BasicVals = StateMgr.getBasicVals();
   SymbolManager& SymMgr = StateMgr.getSymbolManager();

   // BasicStore does not model arrays and structs.
   if (VD->getType()->isArrayType() || VD->getType()->isStructureType())
     return store;

   if (VD->hasGlobalStorage()) {
     // Handle variables with global storage: extern, static, PrivateExtern.

     // FIXME:: static variables may have an initializer, but the second time a
     // function is called those values may not be current. Currently, a function
     // will not be called more than once.

     // Static global variables should not be visited here.
     assert(!(VD->getStorageClass() == VarDecl::Static &&
              VD->isFileVarDecl()));

     // Process static variables.
     if (VD->getStorageClass() == VarDecl::Static) {
       // C99: 6.7.8 Initialization
       //  If an object that has static storage duration is not initialized
       //  explicitly, then:
       //   —if it has pointer type, it is initialized to a null pointer;
       //   —if it has arithmetic type, it is initialized to (positive or
       //     unsigned) zero;
       if (!Ex) {
         QualType T = VD->getType();
         if (Loc::IsLocType(T))
           store = SetSVal(store, getLoc(VD),
                           loc::ConcreteInt(BasicVals.getValue(0, T)));
         else if (T->isIntegerType())
           store = SetSVal(store, getLoc(VD),
                           nonloc::ConcreteInt(BasicVals.getValue(0, T)));
         else {
           // assert(0 && "ignore other types of variables");
         }
       } else {
         store = SetSVal(store, getLoc(VD), InitVal);
       }
     }
   } else {
     // Process local scalar variables.
     QualType T = VD->getType();
     if (Loc::IsLocType(T) || T->isIntegerType()) {
       SVal V = Ex ? InitVal : UndefinedVal();

       if (Ex && InitVal.isUnknown()) {
         // EXPERIMENTAL: "Conjured" symbols.
         SymbolID Sym = SymMgr.getConjuredSymbol(Ex, Count);

         V = Loc::IsLocType(Ex->getType())
           ? cast<SVal>(loc::SymbolVal(Sym))
           : cast<SVal>(nonloc::SymbolVal(Sym));
       }

       store = SetSVal(store, getLoc(VD), V);
     }
   }

   return store;
 }

 void BasicStoreManager::print(Store store, std::ostream& Out,
                               const char* nl, const char *sep) {

   VarBindingsTy B = GetVarBindings(store);
   Out << "Variables:" << nl;

   bool isFirst = true;

   for (VarBindingsTy::iterator I=B.begin(), E=B.end(); I != E; ++I) {
     if (isFirst) isFirst = false;
     else Out << nl;

     Out << ' ' << I.getKey()->getName() << " : ";
     I.getData().print(Out);
   }
 }


 void BasicStoreManager::iterBindings(Store store, BindingsHandler& f) {
   VarBindingsTy B = GetVarBindings(store);

   for (VarBindingsTy::iterator I=B.begin(), E=B.end(); I != E; ++I) {

     f.HandleBinding(*this, store, MRMgr.getVarRegion(I.getKey()),I.getData());
   }
 }

 StoreManager::BindingsHandler::~BindingsHandler() {}
	//== BasicStore.cpp - Basic map from Locations to 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 defined the BasicStore and BasicStoreManager classes.
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Analysis/Analyses/LiveVariables.h"
	#include "clang/Analysis/PathSensitive/GRState.h"
	#include "llvm/ADT/ImmutableMap.h"
	#include "llvm/Support/Compiler.h"
	#include "llvm/Support/Streams.h"

	using namespace clang;

	typedef llvm::ImmutableMap<const VarDecl*,SVal> VarBindingsTy;

	namespace {

	class VISIBILITY_HIDDEN BasicStoreManager : public StoreManager {
	VarBindingsTy::Factory VBFactory;
	GRStateManager& StateMgr;
	MemRegionManager MRMgr;

	public:
	BasicStoreManager(GRStateManager& mgr)
	: StateMgr(mgr), MRMgr(StateMgr.getAllocator()) {}

	virtual ~BasicStoreManager() {}

	virtual SVal GetSVal(Store St, Loc LV, QualType T);
	virtual Store SetSVal(Store St, Loc LV, SVal V);
	virtual Store Remove(Store St, Loc LV);

	virtual Store getInitialStore();

	virtual MemRegionManager& getRegionManager() { return MRMgr; }

	// FIXME: Investigate what is using this. This method should be removed.
	virtual Loc getLoc(const VarDecl* VD) {
	return loc::MemRegionVal(MRMgr.getVarRegion(VD));
	}

	SVal getLValueVar(const GRState* St, const VarDecl* VD);
	SVal getLValueIvar(const GRState* St, const ObjCIvarDecl* D, SVal Base);
	SVal getLValueField(const GRState* St, const FieldDecl* D, SVal Base);
	SVal getLValueElement(const GRState* St, SVal Base, SVal Offset);

	virtual Store
	RemoveDeadBindings(Store store, Stmt* Loc, const LiveVariables& Live,
	llvm::SmallVectorImpl<const MemRegion*>& RegionRoots,
	LiveSymbolsTy& LSymbols, DeadSymbolsTy& DSymbols);

	virtual void iterBindings(Store store, BindingsHandler& f);

	virtual Store AddDecl(Store store,
	const VarDecl* VD, Expr* Ex,
	SVal InitVal = UndefinedVal(), unsigned Count = 0);

	static inline VarBindingsTy GetVarBindings(Store store) {
	return VarBindingsTy(static_cast<const VarBindingsTy::TreeTy*>(store));
	}

	virtual void print(Store store, std::ostream& Out,
	const char* nl, const char *sep);

	};

	} // end anonymous namespace


	StoreManager* clang::CreateBasicStoreManager(GRStateManager& StMgr) {
	return new BasicStoreManager(StMgr);
	}
	SVal BasicStoreManager::getLValueVar(const GRState* St, const VarDecl* VD) {
	return loc::MemRegionVal(MRMgr.getVarRegion(VD));
	}

	SVal BasicStoreManager::getLValueIvar(const GRState* St, const ObjCIvarDecl* D,
	SVal Base) {
	return UnknownVal();
	}


	SVal BasicStoreManager::getLValueField(const GRState* St, const FieldDecl* D,
	SVal Base) {

	if (Base.isUnknownOrUndef())
	return Base;

	Loc BaseL = cast<Loc>(Base);
	const MemRegion* BaseR = 0;

	switch(BaseL.getSubKind()) {
	case loc::SymbolValKind:
	BaseR = MRMgr.getSymbolicRegion(cast<loc::SymbolVal>(&BaseL)->getSymbol());
	break;

	case loc::GotoLabelKind:
	case loc::FuncValKind:
	// Technically we can get here if people do funny things with casts.
	return UndefinedVal();

	case loc::MemRegionKind:
	BaseR = cast<loc::MemRegionVal>(BaseL).getRegion();
	break;

	case loc::ConcreteIntKind:
	case loc::StringLiteralValKind:
	// While these seem funny, this can happen through casts.
	// FIXME: What we should return is the field offset. For example,
	// add the field offset to the integer value. That way funny things
	// like this work properly: &(((struct foo *) 0xa)->f)
	return Base;

	default:
	assert ("Unhandled Base.");
	return Base;
	}

	return loc::MemRegionVal(MRMgr.getFieldRegion(D, BaseR));
	}

	SVal BasicStoreManager::getLValueElement(const GRState* St, SVal Base,
	SVal Offset) {
	// Total hack: Just return "Base" for now.
	return Base;
	}

	SVal BasicStoreManager::GetSVal(Store St, Loc LV, QualType T) {

	if (isa<UnknownVal>(LV))
	return UnknownVal();

	assert (!isa<UndefinedVal>(LV));

	switch (LV.getSubKind()) {

	case loc::MemRegionKind: {
	const VarRegion* R =
	dyn_cast<VarRegion>(cast<loc::MemRegionVal>(LV).getRegion());

	if (!R)
	return UnknownVal();

	VarBindingsTy B(static_cast<const VarBindingsTy::TreeTy*>(St));
	VarBindingsTy::data_type* T = B.lookup(R->getDecl());
	return T ? *T : UnknownVal();
	}

	case loc::SymbolValKind:
	return UnknownVal();

	case loc::ConcreteIntKind:
	// Some clients may call GetSVal with such an option simply because
	// they are doing a quick scan through their Locs (potentially to
	// invalidate their bindings). Just return Undefined.
	return UndefinedVal();
	case loc::FuncValKind:
	return LV;

	case loc::StringLiteralValKind:
	// FIXME: Implement better support for fetching characters from strings.
	return UnknownVal();

	default:
	assert (false && "Invalid Loc.");
	break;
	}

	return UnknownVal();
	}

	Store BasicStoreManager::SetSVal(Store store, Loc LV, SVal V) {
	switch (LV.getSubKind()) {
	case loc::MemRegionKind: {
	const VarRegion* R =
	dyn_cast<VarRegion>(cast<loc::MemRegionVal>(LV).getRegion());

	if (!R)
	return store;

	VarBindingsTy B = GetVarBindings(store);
	return V.isUnknown()
	? VBFactory.Remove(B, R->getDecl()).getRoot()
	: VBFactory.Add(B, R->getDecl(), V).getRoot();
	}
	default:
	assert ("SetSVal for given Loc type not yet implemented.");
	return store;
	}
	}

	Store BasicStoreManager::Remove(Store store, Loc LV) {
	switch (LV.getSubKind()) {
	case loc::MemRegionKind: {
	const VarRegion* R =
	dyn_cast<VarRegion>(cast<loc::MemRegionVal>(LV).getRegion());

	if (!R)
	return store;

	VarBindingsTy B = GetVarBindings(store);
	return VBFactory.Remove(B,R->getDecl()).getRoot();
	}
	default:
	assert ("Remove for given Loc type not yet implemented.");
	return store;
	}
	}

	Store
	BasicStoreManager::RemoveDeadBindings(Store store, Stmt* Loc,
	const LiveVariables& Liveness,
	llvm::SmallVectorImpl<const MemRegion*>& RegionRoots,
	LiveSymbolsTy& LSymbols, DeadSymbolsTy& DSymbols) {

	VarBindingsTy B = GetVarBindings(store);
	typedef SVal::symbol_iterator symbol_iterator;

	// Iterate over the variable bindings.
	for (VarBindingsTy::iterator I=B.begin(), E=B.end(); I!=E ; ++I)
	if (Liveness.isLive(Loc, I.getKey())) {
	RegionRoots.push_back(MRMgr.getVarRegion(I.getKey()));
	SVal X = I.getData();

	for (symbol_iterator SI=X.symbol_begin(), SE=X.symbol_end(); SI!=SE; ++SI)
	LSymbols.insert(*SI);
	}

	// Scan for live variables and live symbols.
	llvm::SmallPtrSet<const VarRegion*, 10> Marked;

	while (!RegionRoots.empty()) {
	const MemRegion* MR = RegionRoots.back();
	RegionRoots.pop_back();

	while (MR) {
	if (const SymbolicRegion* SymR = dyn_cast<SymbolicRegion>(MR)) {
	LSymbols.insert(SymR->getSymbol());
	break;
	}
	else if (const VarRegion* R = dyn_cast<VarRegion>(MR)) {
	if (Marked.count(R))
	break;

	Marked.insert(R);
	SVal X = GetRegionSVal(store, R);

	// FIXME: We need to handle symbols nested in region definitions.
	for (symbol_iterator SI=X.symbol_begin(), SE=X.symbol_end(); SI!=SE; ++SI)
	LSymbols.insert(*SI);

	if (!isa<loc::MemRegionVal>(X))
	break;

	const loc::MemRegionVal& LVD = cast<loc::MemRegionVal>(X);
	RegionRoots.push_back(LVD.getRegion());
	break;
	}
	else if (const SubRegion* R = dyn_cast<SubRegion>(MR))
	MR = R->getSuperRegion();
	else
	break;
	}
	}

	// Remove dead variable bindings.
	for (VarBindingsTy::iterator I=B.begin(), E=B.end(); I!=E ; ++I) {
	const VarRegion* R = cast<VarRegion>(MRMgr.getVarRegion(I.getKey()));

	if (!Marked.count(R)) {
	store = Remove(store, loc::MemRegionVal(R));
	SVal X = I.getData();

	for (symbol_iterator SI=X.symbol_begin(), SE=X.symbol_end(); SI!=SE; ++SI)
	if (!LSymbols.count(SI)) DSymbols.insert(SI);
	}
	}

	return store;
	}

	Store BasicStoreManager::getInitialStore() {
	// The LiveVariables information already has a compilation of all VarDecls
	// used in the function. Iterate through this set, and "symbolicate"
	// any VarDecl whose value originally comes from outside the function.

	typedef LiveVariables::AnalysisDataTy LVDataTy;
	LVDataTy& D = StateMgr.getLiveVariables().getAnalysisData();

	Store St = VBFactory.GetEmptyMap().getRoot();

	for (LVDataTy::decl_iterator I=D.begin_decl(), E=D.end_decl(); I != E; ++I) {
	ScopedDecl* SD = const_cast<ScopedDecl*>(I->first);

	if (VarDecl* VD = dyn_cast<VarDecl>(SD)) {
	// Punt on static variables for now.
	if (VD->getStorageClass() == VarDecl::Static)
	continue;

	// Only handle pointers and integers for now.
	QualType T = VD->getType();
	if (Loc::IsLocType(T) \|\| T->isIntegerType()) {
	// Initialize globals and parameters to symbolic values.
	// Initialize local variables to undefined.
	SVal X = (VD->hasGlobalStorage() \|\| isa<ParmVarDecl>(VD) \|\|
	isa<ImplicitParamDecl>(VD))
	? SVal::GetSymbolValue(StateMgr.getSymbolManager(), VD)
	: UndefinedVal();

	St = SetSVal(St, loc::MemRegionVal(MRMgr.getVarRegion(VD)), X);
	}
	}
	}
	return St;
	}

	Store BasicStoreManager::AddDecl(Store store,
	const VarDecl* VD, Expr* Ex,
	SVal InitVal, unsigned Count) {

	BasicValueFactory& BasicVals = StateMgr.getBasicVals();
	SymbolManager& SymMgr = StateMgr.getSymbolManager();

	// BasicStore does not model arrays and structs.
	if (VD->getType()->isArrayType() \|\| VD->getType()->isStructureType())
	return store;

	if (VD->hasGlobalStorage()) {
	// Handle variables with global storage: extern, static, PrivateExtern.

	// FIXME:: static variables may have an initializer, but the second time a
	// function is called those values may not be current. Currently, a function
	// will not be called more than once.

	// Static global variables should not be visited here.
	assert(!(VD->getStorageClass() == VarDecl::Static &&
	VD->isFileVarDecl()));

	// Process static variables.
	if (VD->getStorageClass() == VarDecl::Static) {
	// C99: 6.7.8 Initialization
	// If an object that has static storage duration is not initialized
	// explicitly, then:
	// —if it has pointer type, it is initialized to a null pointer;
	// —if it has arithmetic type, it is initialized to (positive or
	// unsigned) zero;
	if (!Ex) {
	QualType T = VD->getType();
	if (Loc::IsLocType(T))
	store = SetSVal(store, getLoc(VD),
	loc::ConcreteInt(BasicVals.getValue(0, T)));
	else if (T->isIntegerType())
	store = SetSVal(store, getLoc(VD),
	nonloc::ConcreteInt(BasicVals.getValue(0, T)));
	else {
	// assert(0 && "ignore other types of variables");
	}
	} else {
	store = SetSVal(store, getLoc(VD), InitVal);
	}
	}
	} else {
	// Process local scalar variables.
	QualType T = VD->getType();
	if (Loc::IsLocType(T) \|\| T->isIntegerType()) {
	SVal V = Ex ? InitVal : UndefinedVal();

	if (Ex && InitVal.isUnknown()) {
	// EXPERIMENTAL: "Conjured" symbols.
	SymbolID Sym = SymMgr.getConjuredSymbol(Ex, Count);

	V = Loc::IsLocType(Ex->getType())
	? cast<SVal>(loc::SymbolVal(Sym))
	: cast<SVal>(nonloc::SymbolVal(Sym));
	}

	store = SetSVal(store, getLoc(VD), V);
	}
	}

	return store;
	}

	void BasicStoreManager::print(Store store, std::ostream& Out,
	const char* nl, const char *sep) {

	VarBindingsTy B = GetVarBindings(store);
	Out << "Variables:" << nl;

	bool isFirst = true;

	for (VarBindingsTy::iterator I=B.begin(), E=B.end(); I != E; ++I) {
	if (isFirst) isFirst = false;
	else Out << nl;

	Out << ' ' << I.getKey()->getName() << " : ";
	I.getData().print(Out);
	}
	}


	void BasicStoreManager::iterBindings(Store store, BindingsHandler& f) {
	VarBindingsTy B = GetVarBindings(store);

	for (VarBindingsTy::iterator I=B.begin(), E=B.end(); I != E; ++I) {

	f.HandleBinding(*this, store, MRMgr.getVarRegion(I.getKey()),I.getData());
	}
	}

	StoreManager::BindingsHandler::~BindingsHandler() {}