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

 //= GRState*cpp - Path-Sens. "State" for tracking valuues -----*- 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 SymbolRef, ExprBindKey, and GRState*
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Analysis/PathSensitive/GRStateTrait.h"
 #include "clang/Analysis/PathSensitive/GRState.h"
 #include "clang/Analysis/PathSensitive/GRTransferFuncs.h"
 #include "llvm/ADT/SmallSet.h"
 #include "llvm/Support/raw_ostream.h"

 using namespace clang;

 // Give the vtable for ConstraintManager somewhere to live.
 ConstraintManager::~ConstraintManager() {}

 GRStateManager::~GRStateManager() {
   for (std::vector<GRState::Printer*>::iterator I=Printers.begin(),
         E=Printers.end(); I!=E; ++I)
     delete *I;

   for (GDMContextsTy::iterator I=GDMContexts.begin(), E=GDMContexts.end();
        I!=E; ++I)
     I->second.second(I->second.first);
 }

 const GRState*
 GRStateManager::RemoveDeadBindings(const GRState* state, Stmt* Loc,
                                    SymbolReaper& SymReaper) {

   // This code essentially performs a "mark-and-sweep" of the VariableBindings.
   // The roots are any Block-level exprs and Decls that our liveness algorithm
   // tells us are live.  We then see what Decls they may reference, and keep
   // those around.  This code more than likely can be made faster, and the
   // frequency of which this method is called should be experimented with
   // for optimum performance.
   llvm::SmallVector<const MemRegion*, 10> RegionRoots;
   GRState NewState = *state;

   NewState.Env = EnvMgr.RemoveDeadBindings(NewState.Env, Loc, SymReaper, *this,
                                            state, RegionRoots);

   // Clean up the store.
   NewState.St = StoreMgr->RemoveDeadBindings(&NewState, Loc, SymReaper,
                                              RegionRoots);

   return ConstraintMgr->RemoveDeadBindings(getPersistentState(NewState),
                                            SymReaper);
 }

 const GRState* GRStateManager::Unbind(const GRState* St, Loc LV) {
   Store OldStore = St->getStore();
   Store NewStore = StoreMgr->Remove(OldStore, LV);

   if (NewStore == OldStore)
     return St;

   GRState NewSt = *St;
   NewSt.St = NewStore;
   return getPersistentState(NewSt);
 }

 const GRState* GRStateManager::getInitialState() {

   GRState StateImpl(EnvMgr.getInitialEnvironment(),
                     StoreMgr->getInitialStore(),
                     GDMFactory.GetEmptyMap());

   return getPersistentState(StateImpl);
 }

 const GRState* GRStateManager::getPersistentState(GRState& State) {

   llvm::FoldingSetNodeID ID;
   State.Profile(ID);
   void* InsertPos;

   if (GRState* I = StateSet.FindNodeOrInsertPos(ID, InsertPos))
     return I;

   GRState* I = (GRState*) Alloc.Allocate<GRState>();
   new (I) GRState(State);
   StateSet.InsertNode(I, InsertPos);
   return I;
 }

 const GRState* GRStateManager::MakeStateWithStore(const GRState* St,
                                                   Store store) {
   GRState NewSt = *St;
   NewSt.St = store;
   return getPersistentState(NewSt);
 }


 //===----------------------------------------------------------------------===//
 //  State pretty-printing.
 //===----------------------------------------------------------------------===//

 void GRState::print(std::ostream& Out, StoreManager& StoreMgr,
                     ConstraintManager& ConstraintMgr,
                     Printer** Beg, Printer** End,
                     const char* nl, const char* sep) const {

   // Print the store.
   StoreMgr.print(getStore(), Out, nl, sep);

   // Print Subexpression bindings.
   bool isFirst = true;

   for (seb_iterator I = seb_begin(), E = seb_end(); I != E; ++I) {

     if (isFirst) {
       Out << nl << nl << "Sub-Expressions:" << nl;
       isFirst = false;
     }
     else { Out << nl; }

     Out << " (" << (void*) I.getKey() << ") ";
     llvm::raw_os_ostream OutS(Out);
     I.getKey()->printPretty(OutS);
     OutS.flush();
     Out << " : ";
     I.getData().print(Out);
   }

   // Print block-expression bindings.
   isFirst = true;

   for (beb_iterator I = beb_begin(), E = beb_end(); I != E; ++I) {

     if (isFirst) {
       Out << nl << nl << "Block-level Expressions:" << nl;
       isFirst = false;
     }
     else { Out << nl; }

     Out << " (" << (void*) I.getKey() << ") ";
     llvm::raw_os_ostream OutS(Out);
     I.getKey()->printPretty(OutS);
     OutS.flush();
     Out << " : ";
     I.getData().print(Out);
   }

   ConstraintMgr.print(this, Out, nl, sep);

   // Print checker-specific data.
   for ( ; Beg != End ; ++Beg) (*Beg)->Print(Out, this, nl, sep);
 }

 void GRStateRef::printDOT(std::ostream& Out) const {
   print(Out, "\\l", "\\|");
 }

 void GRStateRef::printStdErr() const {
   print(*llvm::cerr);
 }

 void GRStateRef::print(std::ostream& Out, const char* nl, const char* sep)const{
   GRState::Printer **beg = Mgr->Printers.empty() ? 0 : &Mgr->Printers[0];
   GRState::Printer **end = !beg ? 0 : beg + Mgr->Printers.size();
   St->print(Out, *Mgr->StoreMgr, *Mgr->ConstraintMgr, beg, end, nl, sep);
 }

 //===----------------------------------------------------------------------===//
 // Generic Data Map.
 //===----------------------------------------------------------------------===//

 void* const* GRState::FindGDM(void* K) const {
   return GDM.lookup(K);
 }

 void*
 GRStateManager::FindGDMContext(void* K,
                                void* (*CreateContext)(llvm::BumpPtrAllocator&),
                                void (*DeleteContext)(void*)) {

   std::pair<void*, void (*)(void*)>& p = GDMContexts[K];
   if (!p.first) {
     p.first = CreateContext(Alloc);
     p.second = DeleteContext;
   }

   return p.first;
 }

 const GRState* GRStateManager::addGDM(const GRState* St, void* Key, void* Data){
   GRState::GenericDataMap M1 = St->getGDM();
   GRState::GenericDataMap M2 = GDMFactory.Add(M1, Key, Data);

   if (M1 == M2)
     return St;

   GRState NewSt = *St;
   NewSt.GDM = M2;
   return getPersistentState(NewSt);
 }

 //===----------------------------------------------------------------------===//
 // Utility.
 //===----------------------------------------------------------------------===//

 namespace {
 class VISIBILITY_HIDDEN ScanReachableSymbols : public SubRegionMap::Visitor  {
   typedef llvm::DenseSet<const MemRegion*> VisitedRegionsTy;

   VisitedRegionsTy visited;
   GRStateRef state;
   SymbolVisitor &visitor;
   llvm::OwningPtr<SubRegionMap> SRM;
 public:

   ScanReachableSymbols(GRStateManager* sm, const GRState *st, SymbolVisitor& v)
     : state(st, *sm), visitor(v) {}

   bool scan(nonloc::CompoundVal val);
   bool scan(SVal val);
   bool scan(const MemRegion *R);

   // From SubRegionMap::Visitor.
   bool Visit(const MemRegion* Parent, const MemRegion* SubRegion) {
     return scan(SubRegion);
   }
 };
 }

 bool ScanReachableSymbols::scan(nonloc::CompoundVal val) {
   for (nonloc::CompoundVal::iterator I=val.begin(), E=val.end(); I!=E; ++I)
     if (!scan(*I))
       return false;

   return true;
 }

 bool ScanReachableSymbols::scan(SVal val) {
   if (loc::MemRegionVal *X = dyn_cast<loc::MemRegionVal>(&val))
     return scan(X->getRegion());

   if (SymbolRef Sym = val.getAsSymbol())
     return visitor.VisitSymbol(Sym);

   if (nonloc::CompoundVal *X = dyn_cast<nonloc::CompoundVal>(&val))
     return scan(*X);

   return true;
 }

 bool ScanReachableSymbols::scan(const MemRegion *R) {
   if (isa<MemSpaceRegion>(R) || visited.count(R))
     return true;

   visited.insert(R);

   // If this is a symbolic region, visit the symbol for the region.
   if (const SymbolicRegion *SR = dyn_cast<SymbolicRegion>(R))
     if (!visitor.VisitSymbol(SR->getSymbol()))
       return false;

   // If this is a subregion, also visit the parent regions.
   if (const SubRegion *SR = dyn_cast<SubRegion>(R))
     if (!scan(SR->getSuperRegion()))
       return false;

   // Now look at the binding to this region (if any).
   if (!scan(state.GetSValAsScalarOrLoc(R)))
     return false;

   // Now look at the subregions.
   if (!SRM.get())
    SRM.reset(state.getManager().getStoreManager().getSubRegionMap(state));

   return SRM->iterSubRegions(R, *this);
 }

 bool GRStateManager::scanReachableSymbols(SVal val, const GRState* state,
                                           SymbolVisitor& visitor) {
   ScanReachableSymbols S(this, state, visitor);
   return S.scan(val);
 }

 //===----------------------------------------------------------------------===//
 // Queries.
 //===----------------------------------------------------------------------===//

 bool GRStateManager::isEqual(const GRState* state, Expr* Ex,
                              const llvm::APSInt& Y) {

   SVal V = GetSVal(state, Ex);

   if (loc::ConcreteInt* X = dyn_cast<loc::ConcreteInt>(&V))
     return X->getValue() == Y;

   if (nonloc::ConcreteInt* X = dyn_cast<nonloc::ConcreteInt>(&V))
     return X->getValue() == Y;

   if (SymbolRef Sym = V.getAsSymbol())
     return ConstraintMgr->isEqual(state, Sym, Y);

   return false;
 }

 bool GRStateManager::isEqual(const GRState* state, Expr* Ex, uint64_t x) {
   return isEqual(state, Ex, getBasicVals().getValue(x, Ex->getType()));
 }

 //===----------------------------------------------------------------------===//
 // Persistent values for indexing into the Generic Data Map.

 int GRState::NullDerefTag::TagInt = 0;
	//= GRStatecpp - Path-Sens. "State" for tracking valuues ------ 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 SymbolRef, ExprBindKey, and GRState*
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Analysis/PathSensitive/GRStateTrait.h"
	#include "clang/Analysis/PathSensitive/GRState.h"
	#include "clang/Analysis/PathSensitive/GRTransferFuncs.h"
	#include "llvm/ADT/SmallSet.h"
	#include "llvm/Support/raw_ostream.h"

	using namespace clang;

	// Give the vtable for ConstraintManager somewhere to live.
	ConstraintManager::~ConstraintManager() {}

	GRStateManager::~GRStateManager() {
	for (std::vector<GRState::Printer*>::iterator I=Printers.begin(),
	E=Printers.end(); I!=E; ++I)
	delete *I;

	for (GDMContextsTy::iterator I=GDMContexts.begin(), E=GDMContexts.end();
	I!=E; ++I)
	I->second.second(I->second.first);
	}

	const GRState*
	GRStateManager::RemoveDeadBindings(const GRState* state, Stmt* Loc,
	SymbolReaper& SymReaper) {

	// This code essentially performs a "mark-and-sweep" of the VariableBindings.
	// The roots are any Block-level exprs and Decls that our liveness algorithm
	// tells us are live. We then see what Decls they may reference, and keep
	// those around. This code more than likely can be made faster, and the
	// frequency of which this method is called should be experimented with
	// for optimum performance.
	llvm::SmallVector<const MemRegion*, 10> RegionRoots;
	GRState NewState = *state;

	NewState.Env = EnvMgr.RemoveDeadBindings(NewState.Env, Loc, SymReaper, *this,
	state, RegionRoots);

	// Clean up the store.
	NewState.St = StoreMgr->RemoveDeadBindings(&NewState, Loc, SymReaper,
	RegionRoots);

	return ConstraintMgr->RemoveDeadBindings(getPersistentState(NewState),
	SymReaper);
	}

	const GRState* GRStateManager::Unbind(const GRState* St, Loc LV) {
	Store OldStore = St->getStore();
	Store NewStore = StoreMgr->Remove(OldStore, LV);

	if (NewStore == OldStore)
	return St;

	GRState NewSt = *St;
	NewSt.St = NewStore;
	return getPersistentState(NewSt);
	}

	const GRState* GRStateManager::getInitialState() {

	GRState StateImpl(EnvMgr.getInitialEnvironment(),
	StoreMgr->getInitialStore(),
	GDMFactory.GetEmptyMap());

	return getPersistentState(StateImpl);
	}

	const GRState* GRStateManager::getPersistentState(GRState& State) {

	llvm::FoldingSetNodeID ID;
	State.Profile(ID);
	void* InsertPos;

	if (GRState* I = StateSet.FindNodeOrInsertPos(ID, InsertPos))
	return I;

	GRState* I = (GRState*) Alloc.Allocate<GRState>();
	new (I) GRState(State);
	StateSet.InsertNode(I, InsertPos);
	return I;
	}

	const GRState* GRStateManager::MakeStateWithStore(const GRState* St,
	Store store) {
	GRState NewSt = *St;
	NewSt.St = store;
	return getPersistentState(NewSt);
	}


	//===----------------------------------------------------------------------===//
	// State pretty-printing.
	//===----------------------------------------------------------------------===//

	void GRState::print(std::ostream& Out, StoreManager& StoreMgr,
	ConstraintManager& ConstraintMgr,
	Printer Beg, Printer End,
	const char* nl, const char* sep) const {

	// Print the store.
	StoreMgr.print(getStore(), Out, nl, sep);

	// Print Subexpression bindings.
	bool isFirst = true;

	for (seb_iterator I = seb_begin(), E = seb_end(); I != E; ++I) {

	if (isFirst) {
	Out << nl << nl << "Sub-Expressions:" << nl;
	isFirst = false;
	}
	else { Out << nl; }

	Out << " (" << (void*) I.getKey() << ") ";
	llvm::raw_os_ostream OutS(Out);
	I.getKey()->printPretty(OutS);
	OutS.flush();
	Out << " : ";
	I.getData().print(Out);
	}

	// Print block-expression bindings.
	isFirst = true;

	for (beb_iterator I = beb_begin(), E = beb_end(); I != E; ++I) {

	if (isFirst) {
	Out << nl << nl << "Block-level Expressions:" << nl;
	isFirst = false;
	}
	else { Out << nl; }

	Out << " (" << (void*) I.getKey() << ") ";
	llvm::raw_os_ostream OutS(Out);
	I.getKey()->printPretty(OutS);
	OutS.flush();
	Out << " : ";
	I.getData().print(Out);
	}

	ConstraintMgr.print(this, Out, nl, sep);

	// Print checker-specific data.
	for ( ; Beg != End ; ++Beg) (*Beg)->Print(Out, this, nl, sep);
	}

	void GRStateRef::printDOT(std::ostream& Out) const {
	print(Out, "\\l", "\\\|");
	}

	void GRStateRef::printStdErr() const {
	print(*llvm::cerr);
	}

	void GRStateRef::print(std::ostream& Out, const char* nl, const char* sep)const{
	GRState::Printer **beg = Mgr->Printers.empty() ? 0 : &Mgr->Printers[0];
	GRState::Printer **end = !beg ? 0 : beg + Mgr->Printers.size();
	St->print(Out, Mgr->StoreMgr, Mgr->ConstraintMgr, beg, end, nl, sep);
	}

	//===----------------------------------------------------------------------===//
	// Generic Data Map.
	//===----------------------------------------------------------------------===//

	void* const* GRState::FindGDM(void* K) const {
	return GDM.lookup(K);
	}

	void*
	GRStateManager::FindGDMContext(void* K,
	void* (*CreateContext)(llvm::BumpPtrAllocator&),
	void (DeleteContext)(void)) {

	std::pair<void, void ()(void*)>& p = GDMContexts[K];
	if (!p.first) {
	p.first = CreateContext(Alloc);
	p.second = DeleteContext;
	}

	return p.first;
	}

	const GRState* GRStateManager::addGDM(const GRState* St, void* Key, void* Data){
	GRState::GenericDataMap M1 = St->getGDM();
	GRState::GenericDataMap M2 = GDMFactory.Add(M1, Key, Data);

	if (M1 == M2)
	return St;

	GRState NewSt = *St;
	NewSt.GDM = M2;
	return getPersistentState(NewSt);
	}

	//===----------------------------------------------------------------------===//
	// Utility.
	//===----------------------------------------------------------------------===//

	namespace {
	class VISIBILITY_HIDDEN ScanReachableSymbols : public SubRegionMap::Visitor {
	typedef llvm::DenseSet<const MemRegion*> VisitedRegionsTy;

	VisitedRegionsTy visited;
	GRStateRef state;
	SymbolVisitor &visitor;
	llvm::OwningPtr<SubRegionMap> SRM;
	public:

	ScanReachableSymbols(GRStateManager* sm, const GRState *st, SymbolVisitor& v)
	: state(st, *sm), visitor(v) {}

	bool scan(nonloc::CompoundVal val);
	bool scan(SVal val);
	bool scan(const MemRegion *R);

	// From SubRegionMap::Visitor.
	bool Visit(const MemRegion* Parent, const MemRegion* SubRegion) {
	return scan(SubRegion);
	}
	};
	}

	bool ScanReachableSymbols::scan(nonloc::CompoundVal val) {
	for (nonloc::CompoundVal::iterator I=val.begin(), E=val.end(); I!=E; ++I)
	if (!scan(*I))
	return false;

	return true;
	}

	bool ScanReachableSymbols::scan(SVal val) {
	if (loc::MemRegionVal *X = dyn_cast<loc::MemRegionVal>(&val))
	return scan(X->getRegion());

	if (SymbolRef Sym = val.getAsSymbol())
	return visitor.VisitSymbol(Sym);

	if (nonloc::CompoundVal *X = dyn_cast<nonloc::CompoundVal>(&val))
	return scan(*X);

	return true;
	}

	bool ScanReachableSymbols::scan(const MemRegion *R) {
	if (isa<MemSpaceRegion>(R) \|\| visited.count(R))
	return true;

	visited.insert(R);

	// If this is a symbolic region, visit the symbol for the region.
	if (const SymbolicRegion *SR = dyn_cast<SymbolicRegion>(R))
	if (!visitor.VisitSymbol(SR->getSymbol()))
	return false;

	// If this is a subregion, also visit the parent regions.
	if (const SubRegion *SR = dyn_cast<SubRegion>(R))
	if (!scan(SR->getSuperRegion()))
	return false;

	// Now look at the binding to this region (if any).
	if (!scan(state.GetSValAsScalarOrLoc(R)))
	return false;

	// Now look at the subregions.
	if (!SRM.get())
	SRM.reset(state.getManager().getStoreManager().getSubRegionMap(state));

	return SRM->iterSubRegions(R, *this);
	}

	bool GRStateManager::scanReachableSymbols(SVal val, const GRState* state,
	SymbolVisitor& visitor) {
	ScanReachableSymbols S(this, state, visitor);
	return S.scan(val);
	}

	//===----------------------------------------------------------------------===//
	// Queries.
	//===----------------------------------------------------------------------===//

	bool GRStateManager::isEqual(const GRState* state, Expr* Ex,
	const llvm::APSInt& Y) {

	SVal V = GetSVal(state, Ex);

	if (loc::ConcreteInt* X = dyn_cast<loc::ConcreteInt>(&V))
	return X->getValue() == Y;

	if (nonloc::ConcreteInt* X = dyn_cast<nonloc::ConcreteInt>(&V))
	return X->getValue() == Y;

	if (SymbolRef Sym = V.getAsSymbol())
	return ConstraintMgr->isEqual(state, Sym, Y);

	return false;
	}

	bool GRStateManager::isEqual(const GRState* state, Expr* Ex, uint64_t x) {
	return isEqual(state, Ex, getBasicVals().getValue(x, Ex->getType()));
	}

	//===----------------------------------------------------------------------===//
	// Persistent values for indexing into the Generic Data Map.

	int GRState::NullDerefTag::TagInt = 0;