include/clang/StaticAnalyzer/Core/PathSensitive/Store.h - platform/external/clang - Git at Google

 //== Store.h - Interface for maps 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 types Store and StoreManager.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_GR_STORE_H
 #define LLVM_CLANG_GR_STORE_H

 #include "clang/StaticAnalyzer/Core/PathSensitive/StoreRef.h"
 #include "clang/StaticAnalyzer/Core/PathSensitive/MemRegion.h"
 #include "clang/StaticAnalyzer/Core/PathSensitive/SValBuilder.h"
 #include "llvm/ADT/DenseSet.h"
 #include "llvm/ADT/Optional.h"

 namespace clang {

 class Stmt;
 class Expr;
 class ObjCIvarDecl;
 class StackFrameContext;

 namespace ento {

 class ProgramState;
 class ProgramStateManager;
 class SubRegionMap;

 class StoreManager {
 protected:
   SValBuilder &svalBuilder;
   ProgramStateManager &StateMgr;

   /// MRMgr - Manages region objects associated with this StoreManager.
   MemRegionManager &MRMgr;
   ASTContext &Ctx;

   StoreManager(ProgramStateManager &stateMgr);

 public:
   virtual ~StoreManager() {}

   /// Return the value bound to specified location in a given state.
   /// \param[in] state The analysis state.
   /// \param[in] loc The symbolic memory location.
   /// \param[in] T An optional type that provides a hint indicating the
   ///   expected type of the returned value.  This is used if the value is
   ///   lazily computed.
   /// \return The value bound to the location \c loc.
   virtual SVal Retrieve(Store store, Loc loc, QualType T = QualType()) = 0;

   /// Return a state with the specified value bound to the given location.
   /// \param[in] state The analysis state.
   /// \param[in] loc The symbolic memory location.
   /// \param[in] val The value to bind to location \c loc.
   /// \return A pointer to a ProgramState object that contains the same bindings as
   ///   \c state with the addition of having the value specified by \c val bound
   ///   to the location given for \c loc.
   virtual StoreRef Bind(Store store, Loc loc, SVal val) = 0;

   virtual StoreRef BindDefault(Store store, const MemRegion *R, SVal V);
   virtual StoreRef Remove(Store St, Loc L) = 0;

   /// BindCompoundLiteral - Return the store that has the bindings currently
   ///  in 'store' plus the bindings for the CompoundLiteral.  'R' is the region
   ///  for the compound literal and 'BegInit' and 'EndInit' represent an
   ///  array of initializer values.
   virtual StoreRef BindCompoundLiteral(Store store,
                                        const CompoundLiteralExpr *cl,
                                        const LocationContext *LC, SVal v) = 0;

   /// getInitialStore - Returns the initial "empty" store representing the
   ///  value bindings upon entry to an analyzed function.
   virtual StoreRef getInitialStore(const LocationContext *InitLoc) = 0;

   /// getRegionManager - Returns the internal RegionManager object that is
   ///  used to query and manipulate MemRegion objects.
   MemRegionManager& getRegionManager() { return MRMgr; }

   /// getSubRegionMap - Returns an opaque map object that clients can query
   ///  to get the subregions of a given MemRegion object.  It is the
   //   caller's responsibility to 'delete' the returned map.
   virtual SubRegionMap *getSubRegionMap(Store store) = 0;

   virtual Loc getLValueVar(const VarDecl *VD, const LocationContext *LC) {
     return svalBuilder.makeLoc(MRMgr.getVarRegion(VD, LC));
   }

   virtual Loc getLValueString(const StringLiteral* S) {
     return svalBuilder.makeLoc(MRMgr.getStringRegion(S));
   }

   Loc getLValueCompoundLiteral(const CompoundLiteralExpr *CL,
                                const LocationContext *LC) {
     return loc::MemRegionVal(MRMgr.getCompoundLiteralRegion(CL, LC));
   }

   virtual SVal getLValueIvar(const ObjCIvarDecl *decl, SVal base) {
     return getLValueFieldOrIvar(decl, base);
   }

   virtual SVal getLValueField(const FieldDecl *D, SVal Base) {
     return getLValueFieldOrIvar(D, Base);
   }

   virtual SVal getLValueElement(QualType elementType, NonLoc offset, SVal Base);

   // FIXME: This should soon be eliminated altogether; clients should deal with
   // region extents directly.
   virtual DefinedOrUnknownSVal getSizeInElements(const ProgramState *state,
                                                  const MemRegion *region,
                                                  QualType EleTy) {
     return UnknownVal();
   }

   /// ArrayToPointer - Used by ExprEngine::VistCast to handle implicit
   ///  conversions between arrays and pointers.
   virtual SVal ArrayToPointer(Loc Array) = 0;

   /// Evaluates DerivedToBase casts.
   virtual SVal evalDerivedToBase(SVal derived, QualType basePtrType) {
     return UnknownVal();
   }

   class CastResult {
     const ProgramState *state;
     const MemRegion *region;
   public:
     const ProgramState *getState() const { return state; }
     const MemRegion* getRegion() const { return region; }
     CastResult(const ProgramState *s, const MemRegion* r = 0) : state(s), region(r){}
   };

   const ElementRegion *GetElementZeroRegion(const MemRegion *R, QualType T);

   /// castRegion - Used by ExprEngine::VisitCast to handle casts from
   ///  a MemRegion* to a specific location type.  'R' is the region being
   ///  casted and 'CastToTy' the result type of the cast.
   const MemRegion *castRegion(const MemRegion *region, QualType CastToTy);

   virtual StoreRef removeDeadBindings(Store store, const StackFrameContext *LCtx,
                                       SymbolReaper& SymReaper) = 0;

   virtual StoreRef BindDecl(Store store, const VarRegion *VR, SVal initVal) = 0;

   virtual StoreRef BindDeclWithNoInit(Store store, const VarRegion *VR) = 0;

   virtual bool includedInBindings(Store store,
                                   const MemRegion *region) const = 0;

   /// If the StoreManager supports it, increment the reference count of
   /// the specified Store object.
   virtual void incrementReferenceCount(Store store) {}

   /// If the StoreManager supports it, decrement the reference count of
   /// the specified Store object.  If the reference count hits 0, the memory
   /// associated with the object is recycled.
   virtual void decrementReferenceCount(Store store) {}

   typedef llvm::DenseSet<SymbolRef> InvalidatedSymbols;
   typedef SmallVector<const MemRegion *, 8> InvalidatedRegions;

   /// invalidateRegions - Clears out the specified regions from the store,
   ///  marking their values as unknown. Depending on the store, this may also
   ///  invalidate additional regions that may have changed based on accessing
   ///  the given regions. Optionally, invalidates non-static globals as well.
   /// \param[in] store The initial store
   /// \param[in] Begin A pointer to the first region to invalidate.
   /// \param[in] End A pointer just past the last region to invalidate.
   /// \param[in] E The current statement being evaluated. Used to conjure
   ///   symbols to mark the values of invalidated regions.
   /// \param[in] Count The current block count. Used to conjure
   ///   symbols to mark the values of invalidated regions.
   /// \param[in,out] IS A set to fill with any symbols that are no longer
   ///   accessible. Pass \c NULL if this information will not be used.
   /// \param[in] invalidateGlobals If \c true, any non-static global regions
   ///   are invalidated as well.
   /// \param[in,out] Regions A vector to fill with any regions being
   ///   invalidated. This should include any regions explicitly invalidated
   ///   even if they do not currently have bindings. Pass \c NULL if this
   ///   information will not be used.
   virtual StoreRef invalidateRegions(Store store,
                                      ArrayRef<const MemRegion *> Regions,
                                      const Expr *E, unsigned Count,
                                      InvalidatedSymbols &IS,
                                      bool invalidateGlobals,
                                      InvalidatedRegions *Invalidated) = 0;

   /// enterStackFrame - Let the StoreManager to do something when execution
   /// engine is about to execute into a callee.
   virtual StoreRef enterStackFrame(const ProgramState *state,
                                    const StackFrameContext *frame);

   virtual void print(Store store, raw_ostream &Out,
                      const char* nl, const char *sep) = 0;

   class BindingsHandler {
   public:
     virtual ~BindingsHandler();
     virtual bool HandleBinding(StoreManager& SMgr, Store store,
                                const MemRegion *region, SVal val) = 0;
   };

   /// iterBindings - Iterate over the bindings in the Store.
   virtual void iterBindings(Store store, BindingsHandler& f) = 0;

 protected:
   const MemRegion *MakeElementRegion(const MemRegion *baseRegion,
                                      QualType pointeeTy, uint64_t index = 0);

   /// CastRetrievedVal - Used by subclasses of StoreManager to implement
   ///  implicit casts that arise from loads from regions that are reinterpreted
   ///  as another region.
   SVal CastRetrievedVal(SVal val, const TypedValueRegion *region,
                         QualType castTy, bool performTestOnly = true);

 private:
   SVal getLValueFieldOrIvar(const Decl *decl, SVal base);
 };


 inline StoreRef::StoreRef(Store store, StoreManager & smgr)
   : store(store), mgr(smgr) {
   if (store)
     mgr.incrementReferenceCount(store);
 }

 inline StoreRef::StoreRef(const StoreRef &sr)
   : store(sr.store), mgr(sr.mgr)
 {
   if (store)
     mgr.incrementReferenceCount(store);
 }

 inline StoreRef::~StoreRef() {
   if (store)
     mgr.decrementReferenceCount(store);
 }

 inline StoreRef &StoreRef::operator=(StoreRef const &newStore) {
   assert(&newStore.mgr == &mgr);
   if (store != newStore.store) {
     mgr.incrementReferenceCount(newStore.store);
     mgr.decrementReferenceCount(store);
     store = newStore.getStore();
   }
   return *this;
 }

 // FIXME: Do we still need this?
 /// SubRegionMap - An abstract interface that represents a queryable map
 ///  between MemRegion objects and their subregions.
 class SubRegionMap {
   virtual void anchor();
 public:
   virtual ~SubRegionMap() {}

   class Visitor {
     virtual void anchor();
   public:
     virtual ~Visitor() {}
     virtual bool Visit(const MemRegion* Parent, const MemRegion* SubRegion) = 0;
   };

   virtual bool iterSubRegions(const MemRegion *region, Visitor& V) const = 0;
 };

 // FIXME: Do we need to pass ProgramStateManager anymore?
 StoreManager *CreateRegionStoreManager(ProgramStateManager& StMgr);
 StoreManager *CreateFieldsOnlyRegionStoreManager(ProgramStateManager& StMgr);

 } // end GR namespace

 } // end clang namespace

 #endif
	//== Store.h - Interface for maps 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 types Store and StoreManager.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_GR_STORE_H
	#define LLVM_CLANG_GR_STORE_H

	#include "clang/StaticAnalyzer/Core/PathSensitive/StoreRef.h"
	#include "clang/StaticAnalyzer/Core/PathSensitive/MemRegion.h"
	#include "clang/StaticAnalyzer/Core/PathSensitive/SValBuilder.h"
	#include "llvm/ADT/DenseSet.h"
	#include "llvm/ADT/Optional.h"

	namespace clang {

	class Stmt;
	class Expr;
	class ObjCIvarDecl;
	class StackFrameContext;

	namespace ento {

	class ProgramState;
	class ProgramStateManager;
	class SubRegionMap;

	class StoreManager {
	protected:
	SValBuilder &svalBuilder;
	ProgramStateManager &StateMgr;

	/// MRMgr - Manages region objects associated with this StoreManager.
	MemRegionManager &MRMgr;
	ASTContext &Ctx;

	StoreManager(ProgramStateManager &stateMgr);

	public:
	virtual ~StoreManager() {}

	/// Return the value bound to specified location in a given state.
	/// \param[in] state The analysis state.
	/// \param[in] loc The symbolic memory location.
	/// \param[in] T An optional type that provides a hint indicating the
	/// expected type of the returned value. This is used if the value is
	/// lazily computed.
	/// \return The value bound to the location \c loc.
	virtual SVal Retrieve(Store store, Loc loc, QualType T = QualType()) = 0;

	/// Return a state with the specified value bound to the given location.
	/// \param[in] state The analysis state.
	/// \param[in] loc The symbolic memory location.
	/// \param[in] val The value to bind to location \c loc.
	/// \return A pointer to a ProgramState object that contains the same bindings as
	/// \c state with the addition of having the value specified by \c val bound
	/// to the location given for \c loc.
	virtual StoreRef Bind(Store store, Loc loc, SVal val) = 0;

	virtual StoreRef BindDefault(Store store, const MemRegion *R, SVal V);
	virtual StoreRef Remove(Store St, Loc L) = 0;

	/// BindCompoundLiteral - Return the store that has the bindings currently
	/// in 'store' plus the bindings for the CompoundLiteral. 'R' is the region
	/// for the compound literal and 'BegInit' and 'EndInit' represent an
	/// array of initializer values.
	virtual StoreRef BindCompoundLiteral(Store store,
	const CompoundLiteralExpr *cl,
	const LocationContext *LC, SVal v) = 0;

	/// getInitialStore - Returns the initial "empty" store representing the
	/// value bindings upon entry to an analyzed function.
	virtual StoreRef getInitialStore(const LocationContext *InitLoc) = 0;

	/// getRegionManager - Returns the internal RegionManager object that is
	/// used to query and manipulate MemRegion objects.
	MemRegionManager& getRegionManager() { return MRMgr; }

	/// getSubRegionMap - Returns an opaque map object that clients can query
	/// to get the subregions of a given MemRegion object. It is the
	// caller's responsibility to 'delete' the returned map.
	virtual SubRegionMap *getSubRegionMap(Store store) = 0;

	virtual Loc getLValueVar(const VarDecl VD, const LocationContext LC) {
	return svalBuilder.makeLoc(MRMgr.getVarRegion(VD, LC));
	}

	virtual Loc getLValueString(const StringLiteral* S) {
	return svalBuilder.makeLoc(MRMgr.getStringRegion(S));
	}

	Loc getLValueCompoundLiteral(const CompoundLiteralExpr *CL,
	const LocationContext *LC) {
	return loc::MemRegionVal(MRMgr.getCompoundLiteralRegion(CL, LC));
	}

	virtual SVal getLValueIvar(const ObjCIvarDecl *decl, SVal base) {
	return getLValueFieldOrIvar(decl, base);
	}

	virtual SVal getLValueField(const FieldDecl *D, SVal Base) {
	return getLValueFieldOrIvar(D, Base);
	}

	virtual SVal getLValueElement(QualType elementType, NonLoc offset, SVal Base);

	// FIXME: This should soon be eliminated altogether; clients should deal with
	// region extents directly.
	virtual DefinedOrUnknownSVal getSizeInElements(const ProgramState *state,
	const MemRegion *region,
	QualType EleTy) {
	return UnknownVal();
	}

	/// ArrayToPointer - Used by ExprEngine::VistCast to handle implicit
	/// conversions between arrays and pointers.
	virtual SVal ArrayToPointer(Loc Array) = 0;

	/// Evaluates DerivedToBase casts.
	virtual SVal evalDerivedToBase(SVal derived, QualType basePtrType) {
	return UnknownVal();
	}

	class CastResult {
	const ProgramState *state;
	const MemRegion *region;
	public:
	const ProgramState *getState() const { return state; }
	const MemRegion* getRegion() const { return region; }
	CastResult(const ProgramState s, const MemRegion r = 0) : state(s), region(r){}
	};

	const ElementRegion GetElementZeroRegion(const MemRegion R, QualType T);

	/// castRegion - Used by ExprEngine::VisitCast to handle casts from
	/// a MemRegion* to a specific location type. 'R' is the region being
	/// casted and 'CastToTy' the result type of the cast.
	const MemRegion castRegion(const MemRegion region, QualType CastToTy);

	virtual StoreRef removeDeadBindings(Store store, const StackFrameContext *LCtx,
	SymbolReaper& SymReaper) = 0;

	virtual StoreRef BindDecl(Store store, const VarRegion *VR, SVal initVal) = 0;

	virtual StoreRef BindDeclWithNoInit(Store store, const VarRegion *VR) = 0;

	virtual bool includedInBindings(Store store,
	const MemRegion *region) const = 0;

	/// If the StoreManager supports it, increment the reference count of
	/// the specified Store object.
	virtual void incrementReferenceCount(Store store) {}

	/// If the StoreManager supports it, decrement the reference count of
	/// the specified Store object. If the reference count hits 0, the memory
	/// associated with the object is recycled.
	virtual void decrementReferenceCount(Store store) {}

	typedef llvm::DenseSet<SymbolRef> InvalidatedSymbols;
	typedef SmallVector<const MemRegion *, 8> InvalidatedRegions;

	/// invalidateRegions - Clears out the specified regions from the store,
	/// marking their values as unknown. Depending on the store, this may also
	/// invalidate additional regions that may have changed based on accessing
	/// the given regions. Optionally, invalidates non-static globals as well.
	/// \param[in] store The initial store
	/// \param[in] Begin A pointer to the first region to invalidate.
	/// \param[in] End A pointer just past the last region to invalidate.
	/// \param[in] E The current statement being evaluated. Used to conjure
	/// symbols to mark the values of invalidated regions.
	/// \param[in] Count The current block count. Used to conjure
	/// symbols to mark the values of invalidated regions.
	/// \param[in,out] IS A set to fill with any symbols that are no longer
	/// accessible. Pass \c NULL if this information will not be used.
	/// \param[in] invalidateGlobals If \c true, any non-static global regions
	/// are invalidated as well.
	/// \param[in,out] Regions A vector to fill with any regions being
	/// invalidated. This should include any regions explicitly invalidated
	/// even if they do not currently have bindings. Pass \c NULL if this
	/// information will not be used.
	virtual StoreRef invalidateRegions(Store store,
	ArrayRef<const MemRegion *> Regions,
	const Expr *E, unsigned Count,
	InvalidatedSymbols &IS,
	bool invalidateGlobals,
	InvalidatedRegions *Invalidated) = 0;

	/// enterStackFrame - Let the StoreManager to do something when execution
	/// engine is about to execute into a callee.
	virtual StoreRef enterStackFrame(const ProgramState *state,
	const StackFrameContext *frame);

	virtual void print(Store store, raw_ostream &Out,
	const char* nl, const char *sep) = 0;

	class BindingsHandler {
	public:
	virtual ~BindingsHandler();
	virtual bool HandleBinding(StoreManager& SMgr, Store store,
	const MemRegion *region, SVal val) = 0;
	};

	/// iterBindings - Iterate over the bindings in the Store.
	virtual void iterBindings(Store store, BindingsHandler& f) = 0;

	protected:
	const MemRegion MakeElementRegion(const MemRegion baseRegion,
	QualType pointeeTy, uint64_t index = 0);

	/// CastRetrievedVal - Used by subclasses of StoreManager to implement
	/// implicit casts that arise from loads from regions that are reinterpreted
	/// as another region.
	SVal CastRetrievedVal(SVal val, const TypedValueRegion *region,
	QualType castTy, bool performTestOnly = true);

	private:
	SVal getLValueFieldOrIvar(const Decl *decl, SVal base);
	};


	inline StoreRef::StoreRef(Store store, StoreManager & smgr)
	: store(store), mgr(smgr) {
	if (store)
	mgr.incrementReferenceCount(store);
	}

	inline StoreRef::StoreRef(const StoreRef &sr)
	: store(sr.store), mgr(sr.mgr)
	{
	if (store)
	mgr.incrementReferenceCount(store);
	}

	inline StoreRef::~StoreRef() {
	if (store)
	mgr.decrementReferenceCount(store);
	}

	inline StoreRef &StoreRef::operator=(StoreRef const &newStore) {
	assert(&newStore.mgr == &mgr);
	if (store != newStore.store) {
	mgr.incrementReferenceCount(newStore.store);
	mgr.decrementReferenceCount(store);
	store = newStore.getStore();
	}
	return *this;
	}

	// FIXME: Do we still need this?
	/// SubRegionMap - An abstract interface that represents a queryable map
	/// between MemRegion objects and their subregions.
	class SubRegionMap {
	virtual void anchor();
	public:
	virtual ~SubRegionMap() {}

	class Visitor {
	virtual void anchor();
	public:
	virtual ~Visitor() {}
	virtual bool Visit(const MemRegion* Parent, const MemRegion* SubRegion) = 0;
	};

	virtual bool iterSubRegions(const MemRegion *region, Visitor& V) const = 0;
	};

	// FIXME: Do we need to pass ProgramStateManager anymore?
	StoreManager *CreateRegionStoreManager(ProgramStateManager& StMgr);
	StoreManager *CreateFieldsOnlyRegionStoreManager(ProgramStateManager& StMgr);

	} // end GR namespace

	} // end clang namespace

	#endif