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|
// CFRefCount.cpp - Transfer functions for tracking simple 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 the methods for CFRefCount, which implements
// a reference count checker for Core Foundation (Mac OS X).
//
//===----------------------------------------------------------------------===//
#include "GRSimpleVals.h"
#include "clang/Analysis/PathSensitive/ValueState.h"
#include "clang/Analysis/PathDiagnostic.h"
#include "clang/Analysis/LocalCheckers.h"
#include "clang/Analysis/PathDiagnostic.h"
#include "clang/Analysis/PathSensitive/BugReporter.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/ImmutableMap.h"
#include "llvm/Support/Compiler.h"
#include <ostream>
using namespace clang;
//===----------------------------------------------------------------------===//
// Symbolic Evaluation of Reference Counting Logic
//===----------------------------------------------------------------------===//
namespace {
enum ArgEffect { IncRef, DecRef, DoNothing };
typedef std::vector<ArgEffect> ArgEffects;
}
namespace llvm {
template <> struct FoldingSetTrait<ArgEffects> {
static void Profile(const ArgEffects& X, FoldingSetNodeID& ID) {
for (ArgEffects::const_iterator I = X.begin(), E = X.end(); I!= E; ++I)
ID.AddInteger((unsigned) *I);
}
};
} // end llvm namespace
namespace {
class RetEffect {
public:
enum Kind { NoRet = 0x0, Alias = 0x1, OwnedSymbol = 0x2,
NotOwnedSymbol = 0x3 };
private:
unsigned Data;
RetEffect(Kind k, unsigned D) { Data = (D << 2) | (unsigned) k; }
public:
Kind getKind() const { return (Kind) (Data & 0x3); }
unsigned getValue() const {
assert(getKind() == Alias);
return Data >> 2;
}
static RetEffect MakeAlias(unsigned Idx) { return RetEffect(Alias, Idx); }
static RetEffect MakeOwned() { return RetEffect(OwnedSymbol, 0); }
static RetEffect MakeNotOwned() { return RetEffect(NotOwnedSymbol, 0); }
static RetEffect MakeNoRet() { return RetEffect(NoRet, 0); }
operator Kind() const { return getKind(); }
void Profile(llvm::FoldingSetNodeID& ID) const { ID.AddInteger(Data); }
};
class CFRefSummary : public llvm::FoldingSetNode {
ArgEffects* Args;
RetEffect Ret;
public:
CFRefSummary(ArgEffects* A, RetEffect R) : Args(A), Ret(R) {}
unsigned getNumArgs() const { return Args->size(); }
ArgEffect getArg(unsigned idx) const {
assert (idx < getNumArgs());
return (*Args)[idx];
}
RetEffect getRet() const {
return Ret;
}
typedef ArgEffects::const_iterator arg_iterator;
arg_iterator begin_args() const { return Args->begin(); }
arg_iterator end_args() const { return Args->end(); }
static void Profile(llvm::FoldingSetNodeID& ID, ArgEffects* A, RetEffect R) {
ID.AddPointer(A);
ID.Add(R);
}
void Profile(llvm::FoldingSetNodeID& ID) const {
Profile(ID, Args, Ret);
}
};
class CFRefSummaryManager {
typedef llvm::FoldingSet<llvm::FoldingSetNodeWrapper<ArgEffects> > AESetTy;
typedef llvm::FoldingSet<CFRefSummary> SummarySetTy;
typedef llvm::DenseMap<FunctionDecl*, CFRefSummary*> SummaryMapTy;
ASTContext& Ctx;
SummarySetTy SummarySet;
SummaryMapTy SummaryMap;
AESetTy AESet;
llvm::BumpPtrAllocator BPAlloc;
ArgEffects ScratchArgs;
ArgEffects* getArgEffects();
CFRefSummary* getCannedCFSummary(FunctionTypeProto* FT, bool isRetain);
CFRefSummary* getCFSummary(FunctionDecl* FD, const char* FName);
CFRefSummary* getCFSummaryCreateRule(FunctionTypeProto* FT);
CFRefSummary* getCFSummaryGetRule(FunctionTypeProto* FT);
CFRefSummary* getPersistentSummary(ArgEffects* AE, RetEffect RE);
void FillDoNothing(unsigned Args);
public:
CFRefSummaryManager(ASTContext& ctx) : Ctx(ctx) {}
~CFRefSummaryManager();
CFRefSummary* getSummary(FunctionDecl* FD, ASTContext& Ctx);
};
} // end anonymous namespace
//===----------------------------------------------------------------------===//
// Implementation of checker data structures.
//===----------------------------------------------------------------------===//
CFRefSummaryManager::~CFRefSummaryManager() {
// FIXME: The ArgEffects could eventually be allocated from BPAlloc,
// mitigating the need to do explicit cleanup of the
// Argument-Effect summaries.
for (AESetTy::iterator I = AESet.begin(), E = AESet.end(); I!=E; ++I)
I->getValue().~ArgEffects();
}
ArgEffects* CFRefSummaryManager::getArgEffects() {
llvm::FoldingSetNodeID profile;
profile.Add(ScratchArgs);
void* InsertPos;
llvm::FoldingSetNodeWrapper<ArgEffects>* E =
AESet.FindNodeOrInsertPos(profile, InsertPos);
if (E) {
ScratchArgs.clear();
return &E->getValue();
}
E = (llvm::FoldingSetNodeWrapper<ArgEffects>*)
BPAlloc.Allocate<llvm::FoldingSetNodeWrapper<ArgEffects> >();
new (E) llvm::FoldingSetNodeWrapper<ArgEffects>(ScratchArgs);
AESet.InsertNode(E, InsertPos);
ScratchArgs.clear();
return &E->getValue();
}
CFRefSummary* CFRefSummaryManager::getPersistentSummary(ArgEffects* AE,
RetEffect RE) {
llvm::FoldingSetNodeID profile;
CFRefSummary::Profile(profile, AE, RE);
void* InsertPos;
CFRefSummary* Summ = SummarySet.FindNodeOrInsertPos(profile, InsertPos);
if (Summ)
return Summ;
Summ = (CFRefSummary*) BPAlloc.Allocate<CFRefSummary>();
new (Summ) CFRefSummary(AE, RE);
SummarySet.InsertNode(Summ, InsertPos);
return Summ;
}
CFRefSummary* CFRefSummaryManager::getSummary(FunctionDecl* FD,
ASTContext& Ctx) {
SourceLocation Loc = FD->getLocation();
if (!Loc.isFileID())
return NULL;
{ // Look into our cache of summaries to see if we have already computed
// a summary for this FunctionDecl.
SummaryMapTy::iterator I = SummaryMap.find(FD);
if (I != SummaryMap.end())
return I->second;
}
#if 0
SourceManager& SrcMgr = Ctx.getSourceManager();
unsigned fid = Loc.getFileID();
const FileEntry* FE = SrcMgr.getFileEntryForID(fid);
if (!FE)
return NULL;
const char* DirName = FE->getDir()->getName();
assert (DirName);
assert (strlen(DirName) > 0);
if (!strstr(DirName, "CoreFoundation")) {
SummaryMap[FD] = NULL;
return NULL;
}
#endif
const char* FName = FD->getIdentifier()->getName();
if (FName[0] == 'C' && FName[1] == 'F') {
CFRefSummary* S = getCFSummary(FD, FName);
SummaryMap[FD] = S;
return S;
}
return NULL;
}
CFRefSummary* CFRefSummaryManager::getCFSummary(FunctionDecl* FD,
const char* FName) {
// For now, only generate summaries for functions that have a prototype.
FunctionTypeProto* FT =
dyn_cast<FunctionTypeProto>(FD->getType().getTypePtr());
if (!FT)
return NULL;
FName += 2;
if (strcmp(FName, "Retain") == 0)
return getCannedCFSummary(FT, true);
if (strcmp(FName, "Release") == 0)
return getCannedCFSummary(FT, false);
assert (ScratchArgs.empty());
bool usesCreateRule = false;
if (strstr(FName, "Create"))
usesCreateRule = true;
if (!usesCreateRule && strstr(FName, "Copy"))
usesCreateRule = true;
if (usesCreateRule)
return getCFSummaryCreateRule(FT);
if (strstr(FName, "Get"))
return getCFSummaryGetRule(FT);
return NULL;
}
CFRefSummary* CFRefSummaryManager::getCannedCFSummary(FunctionTypeProto* FT,
bool isRetain) {
if (FT->getNumArgs() != 1)
return NULL;
TypedefType* ArgT = dyn_cast<TypedefType>(FT->getArgType(0).getTypePtr());
if (!ArgT)
return NULL;
// For CFRetain/CFRelease, the first (and only) argument is of type
// "CFTypeRef".
const char* TDName = ArgT->getDecl()->getIdentifier()->getName();
assert (TDName);
if (strcmp("CFTypeRef", TDName) != 0)
return NULL;
if (!ArgT->isPointerType())
return NULL;
QualType RetTy = FT->getResultType();
if (isRetain) {
// CFRetain: the return type should also be "CFTypeRef".
if (RetTy.getTypePtr() != ArgT)
return NULL;
// The function's interface checks out. Generate a canned summary.
assert (ScratchArgs.empty());
ScratchArgs.push_back(IncRef);
return getPersistentSummary(getArgEffects(), RetEffect::MakeAlias(0));
}
else {
// CFRelease: the return type should be void.
if (RetTy != Ctx.VoidTy)
return NULL;
assert (ScratchArgs.empty());
ScratchArgs.push_back(DecRef);
return getPersistentSummary(getArgEffects(), RetEffect::MakeNoRet());
}
}
static bool isCFRefType(QualType T) {
if (!T->isPointerType())
return false;
// Check the typedef for the name "CF" and the substring "Ref".
TypedefType* TD = dyn_cast<TypedefType>(T.getTypePtr());
if (!TD)
return false;
const char* TDName = TD->getDecl()->getIdentifier()->getName();
assert (TDName);
if (TDName[0] != 'C' || TDName[1] != 'F')
return false;
if (strstr(TDName, "Ref") == 0)
return false;
return true;
}
void CFRefSummaryManager::FillDoNothing(unsigned Args) {
for (unsigned i = 0; i != Args; ++i)
ScratchArgs.push_back(DoNothing);
}
CFRefSummary*
CFRefSummaryManager::getCFSummaryCreateRule(FunctionTypeProto* FT) {
if (!isCFRefType(FT->getResultType()))
return NULL;
assert (ScratchArgs.empty());
// FIXME: Add special-cases for functions that retain/release. For now
// just handle the default case.
FillDoNothing(FT->getNumArgs());
return getPersistentSummary(getArgEffects(), RetEffect::MakeOwned());
}
CFRefSummary*
CFRefSummaryManager::getCFSummaryGetRule(FunctionTypeProto* FT) {
QualType RetTy = FT->getResultType();
// FIXME: For now we assume that all pointer types returned are referenced
// counted. Since this is the "Get" rule, we assume non-ownership, which
// works fine for things that are not reference counted. We do this because
// some generic data structures return "void*". We need something better
// in the future.
if (!isCFRefType(RetTy) && !RetTy->isPointerType())
return NULL;
assert (ScratchArgs.empty());
// FIXME: Add special-cases for functions that retain/release. For now
// just handle the default case.
FillDoNothing(FT->getNumArgs());
return getPersistentSummary(getArgEffects(), RetEffect::MakeNotOwned());
}
//===----------------------------------------------------------------------===//
// Bug Descriptions.
//===----------------------------------------------------------------------===//
namespace {
class CFRefCount;
class VISIBILITY_HIDDEN CFRefBug : public BugType {
protected:
CFRefCount& TF;
public:
CFRefBug(CFRefCount& tf) : TF(tf) {}
};
class VISIBILITY_HIDDEN UseAfterRelease : public CFRefBug {
public:
UseAfterRelease(CFRefCount& tf) : CFRefBug(tf) {}
virtual const char* getName() const {
return "(CoreFoundation) use-after-release";
}
virtual const char* getDescription() const {
return "(CoreFoundation) Reference-counted object is used"
" after it is released.";
}
virtual void EmitWarnings(BugReporter& BR);
};
class VISIBILITY_HIDDEN BadRelease : public CFRefBug {
public:
BadRelease(CFRefCount& tf) : CFRefBug(tf) {}
virtual const char* getName() const {
return "(CoreFoundation) release of non-owned object";
}
virtual const char* getDescription() const {
return "Incorrect decrement of the reference count of a "
"CoreFoundation object:\n"
"The object is not owned at this point by the caller.";
}
virtual void EmitWarnings(BugReporter& BR);
};
} // end anonymous namespace
//===----------------------------------------------------------------------===//
// Transfer functions.
//===----------------------------------------------------------------------===//
namespace {
class VISIBILITY_HIDDEN RefVal {
unsigned Data;
RefVal(unsigned K, unsigned D) : Data((D << 3) | K) {
assert ((K & ~0x7) == 0x0);
}
RefVal(unsigned K) : Data(K) {
assert ((K & ~0x7) == 0x0);
}
public:
enum Kind { Owned = 0, NotOwned = 1, Released = 2,
ErrorUseAfterRelease = 3, ErrorReleaseNotOwned = 4 };
Kind getKind() const { return (Kind) (Data & 0x7); }
unsigned getCount() const {
assert (getKind() == Owned || getKind() == NotOwned);
return Data >> 3;
}
static bool isError(Kind k) { return k >= ErrorUseAfterRelease; }
bool isOwned() const {
return getKind() == Owned;
}
static RefVal makeOwned(unsigned Count = 0) {
return RefVal(Owned, Count);
}
static RefVal makeNotOwned(unsigned Count = 0) {
return RefVal(NotOwned, Count);
}
static RefVal makeReleased() { return RefVal(Released); }
static RefVal makeUseAfterRelease() { return RefVal(ErrorUseAfterRelease); }
static RefVal makeReleaseNotOwned() { return RefVal(ErrorReleaseNotOwned); }
bool operator==(const RefVal& X) const { return Data == X.Data; }
void Profile(llvm::FoldingSetNodeID& ID) const { ID.AddInteger(Data); }
void print(std::ostream& Out) const;
};
void RefVal::print(std::ostream& Out) const {
switch (getKind()) {
default: assert(false);
case Owned: {
Out << "Owned";
unsigned cnt = getCount();
if (cnt) Out << " (+ " << cnt << ")";
break;
}
case NotOwned: {
Out << "Not-Owned";
unsigned cnt = getCount();
if (cnt) Out << " (+ " << cnt << ")";
break;
}
case Released:
Out << "Released";
break;
case ErrorUseAfterRelease:
Out << "Use-After-Release [ERROR]";
break;
case ErrorReleaseNotOwned:
Out << "Release of Not-Owned [ERROR]";
break;
}
}
class VISIBILITY_HIDDEN CFRefCount : public GRSimpleVals {
// Type definitions.
typedef llvm::ImmutableMap<SymbolID, RefVal> RefBindings;
typedef RefBindings::Factory RefBFactoryTy;
typedef llvm::DenseMap<GRExprEngine::NodeTy*,Expr*> UseAfterReleasesTy;
typedef llvm::DenseMap<GRExprEngine::NodeTy*,Expr*> ReleasesNotOwnedTy;
class BindingsPrinter : public ValueState::CheckerStatePrinter {
public:
virtual void PrintCheckerState(std::ostream& Out, void* State,
const char* nl, const char* sep);
};
// Instance variables.
CFRefSummaryManager Summaries;
RefBFactoryTy RefBFactory;
UseAfterReleasesTy UseAfterReleases;
ReleasesNotOwnedTy ReleasesNotOwned;
BindingsPrinter Printer;
// Private methods.
static RefBindings GetRefBindings(ValueState& StImpl) {
return RefBindings((RefBindings::TreeTy*) StImpl.CheckerState);
}
static void SetRefBindings(ValueState& StImpl, RefBindings B) {
StImpl.CheckerState = B.getRoot();
}
RefBindings Remove(RefBindings B, SymbolID sym) {
return RefBFactory.Remove(B, sym);
}
RefBindings Update(RefBindings B, SymbolID sym, RefVal V, ArgEffect E,
RefVal::Kind& hasError);
public:
CFRefCount(ASTContext& Ctx) : Summaries(Ctx) {}
virtual ~CFRefCount() {}
virtual void RegisterChecks(GRExprEngine& Eng);
virtual ValueState::CheckerStatePrinter* getCheckerStatePrinter() {
return &Printer;
}
// Calls.
virtual void EvalCall(ExplodedNodeSet<ValueState>& Dst,
GRExprEngine& Eng,
GRStmtNodeBuilder<ValueState>& Builder,
CallExpr* CE, LVal L,
ExplodedNode<ValueState>* Pred);
// End-of-path.
virtual void EvalEndPath(GRExprEngine& Engine,
GREndPathNodeBuilder<ValueState>& Builder);
// Error iterators.
typedef UseAfterReleasesTy::iterator use_after_iterator;
typedef ReleasesNotOwnedTy::iterator bad_release_iterator;
use_after_iterator use_after_begin() { return UseAfterReleases.begin(); }
use_after_iterator use_after_end() { return UseAfterReleases.end(); }
bad_release_iterator bad_release_begin() { return ReleasesNotOwned.begin(); }
bad_release_iterator bad_release_end() { return ReleasesNotOwned.end(); }
};
} // end anonymous namespace
void CFRefCount::RegisterChecks(GRExprEngine& Eng) {
GRSimpleVals::RegisterChecks(Eng);
Eng.Register(new UseAfterRelease(*this));
Eng.Register(new BadRelease(*this));
}
void CFRefCount::BindingsPrinter::PrintCheckerState(std::ostream& Out,
void* State, const char* nl,
const char* sep) {
RefBindings B((RefBindings::TreeTy*) State);
if (State)
Out << sep << nl;
for (RefBindings::iterator I=B.begin(), E=B.end(); I!=E; ++I) {
Out << (*I).first << " : ";
(*I).second.print(Out);
Out << nl;
}
}
static inline ArgEffect GetArgE(CFRefSummary* Summ, unsigned idx) {
return Summ ? Summ->getArg(idx) : DoNothing;
}
static inline RetEffect GetRetE(CFRefSummary* Summ) {
return Summ ? Summ->getRet() : RetEffect::MakeNoRet();
}
void CFRefCount::EvalCall(ExplodedNodeSet<ValueState>& Dst,
GRExprEngine& Eng,
GRStmtNodeBuilder<ValueState>& Builder,
CallExpr* CE, LVal L,
ExplodedNode<ValueState>* Pred) {
ValueStateManager& StateMgr = Eng.getStateManager();
// FIXME: Support calls to things other than lval::FuncVal. At the very
// least we should stop tracking ref-state for ref-counted objects passed
// to these functions.
assert (isa<lval::FuncVal>(L) && "Not yet implemented.");
// Get the summary.
lval::FuncVal FV = cast<lval::FuncVal>(L);
FunctionDecl* FD = FV.getDecl();
CFRefSummary* Summ = Summaries.getSummary(FD, Eng.getContext());
// Get the state.
ValueState* St = Builder.GetState(Pred);
// Evaluate the effects of the call.
ValueState StVals = *St;
RefVal::Kind hasError = (RefVal::Kind) 0;
// This function has a summary. Evaluate the effect of the arguments.
unsigned idx = 0;
Expr* ErrorExpr = NULL;
for (CallExpr::arg_iterator I = CE->arg_begin(), E = CE->arg_end();
I != E; ++I, ++idx) {
RVal V = StateMgr.GetRVal(St, *I);
if (isa<lval::SymbolVal>(V)) {
SymbolID Sym = cast<lval::SymbolVal>(V).getSymbol();
RefBindings B = GetRefBindings(StVals);
if (RefBindings::TreeTy* T = B.SlimFind(Sym)) {
B = Update(B, Sym, T->getValue().second, GetArgE(Summ, idx), hasError);
SetRefBindings(StVals, B);
if (hasError) {
ErrorExpr = *I;
break;
}
}
}
else if (isa<LVal>(V)) { // Nuke all arguments passed by reference.
// FIXME: This is basically copy-and-paste from GRSimpleVals. We
// should compose behavior, not copy it.
StateMgr.Unbind(StVals, cast<LVal>(V));
}
}
if (hasError) {
St = StateMgr.getPersistentState(StVals);
Builder.BuildSinks = true;
GRExprEngine::NodeTy* N = Builder.MakeNode(Dst, CE, Pred, St);
if (N) {
switch (hasError) {
default: assert(false);
case RefVal::ErrorUseAfterRelease:
UseAfterReleases[N] = ErrorExpr;
break;
case RefVal::ErrorReleaseNotOwned:
ReleasesNotOwned[N] = ErrorExpr;
break;
}
}
return;
}
// Finally, consult the summary for the return value.
RetEffect RE = GetRetE(Summ);
St = StateMgr.getPersistentState(StVals);
switch (RE.getKind()) {
default:
assert (false && "Unhandled RetEffect."); break;
case RetEffect::NoRet:
// Make up a symbol for the return value (not reference counted).
// FIXME: This is basically copy-and-paste from GRSimpleVals. We
// should compose behavior, not copy it.
if (CE->getType() != Eng.getContext().VoidTy) {
unsigned Count = Builder.getCurrentBlockCount();
SymbolID Sym = Eng.getSymbolManager().getConjuredSymbol(CE, Count);
RVal X = CE->getType()->isPointerType()
? cast<RVal>(lval::SymbolVal(Sym))
: cast<RVal>(nonlval::SymbolVal(Sym));
St = StateMgr.SetRVal(St, CE, X, Eng.getCFG().isBlkExpr(CE), false);
}
break;
case RetEffect::Alias: {
unsigned idx = RE.getValue();
assert (idx < CE->getNumArgs());
RVal V = StateMgr.GetRVal(St, CE->getArg(idx));
St = StateMgr.SetRVal(St, CE, V, Eng.getCFG().isBlkExpr(CE), false);
break;
}
case RetEffect::OwnedSymbol: {
unsigned Count = Builder.getCurrentBlockCount();
SymbolID Sym = Eng.getSymbolManager().getConjuredSymbol(CE, Count);
ValueState StImpl = *St;
RefBindings B = GetRefBindings(StImpl);
SetRefBindings(StImpl, RefBFactory.Add(B, Sym, RefVal::makeOwned()));
St = StateMgr.SetRVal(StateMgr.getPersistentState(StImpl),
CE, lval::SymbolVal(Sym),
Eng.getCFG().isBlkExpr(CE), false);
break;
}
case RetEffect::NotOwnedSymbol: {
unsigned Count = Builder.getCurrentBlockCount();
SymbolID Sym = Eng.getSymbolManager().getConjuredSymbol(CE, Count);
ValueState StImpl = *St;
RefBindings B = GetRefBindings(StImpl);
SetRefBindings(StImpl, RefBFactory.Add(B, Sym, RefVal::makeNotOwned()));
St = StateMgr.SetRVal(StateMgr.getPersistentState(StImpl),
CE, lval::SymbolVal(Sym),
Eng.getCFG().isBlkExpr(CE), false);
break;
}
}
Builder.MakeNode(Dst, CE, Pred, St);
}
// End-of-path.
void CFRefCount::EvalEndPath(GRExprEngine& Engine,
GREndPathNodeBuilder<ValueState>& Builder) {
RefBindings B = GetRefBindings(*Builder.getState());
// Scan the set of bindings for symbols that are in the Owned state.
for (RefBindings::iterator I = B.begin(), E = B.end(); I != E; ++I)
if ((*I).second.isOwned()) {
// FIXME: Register an error with the diagnostic engine. Since we
// don't have a Stmt* here, we need some extra machinery to get
// a sourcelocation.
}
}
CFRefCount::RefBindings CFRefCount::Update(RefBindings B, SymbolID sym,
RefVal V, ArgEffect E,
RefVal::Kind& hasError) {
// FIXME: This dispatch can potentially be sped up by unifiying it into
// a single switch statement. Opt for simplicity for now.
switch (E) {
default:
assert (false && "Unhandled CFRef transition.");
case DoNothing:
if (V.getKind() == RefVal::Released) {
V = RefVal::makeUseAfterRelease();
hasError = V.getKind();
break;
}
return B;
case IncRef:
switch (V.getKind()) {
default:
assert(false);
case RefVal::Owned:
V = RefVal::makeOwned(V.getCount()+1);
break;
case RefVal::NotOwned:
V = RefVal::makeNotOwned(V.getCount()+1);
break;
case RefVal::Released:
V = RefVal::makeUseAfterRelease();
hasError = V.getKind();
break;
}
break;
case DecRef:
switch (V.getKind()) {
default:
assert (false);
case RefVal::Owned: {
signed Count = ((signed) V.getCount()) - 1;
V = Count >= 0 ? RefVal::makeOwned(Count) : RefVal::makeReleased();
break;
}
case RefVal::NotOwned: {
signed Count = ((signed) V.getCount()) - 1;
if (Count >= 0)
V = RefVal::makeNotOwned(Count);
else {
V = RefVal::makeReleaseNotOwned();
hasError = V.getKind();
}
break;
}
case RefVal::Released:
V = RefVal::makeUseAfterRelease();
hasError = V.getKind();
break;
}
break;
}
return RefBFactory.Add(B, sym, V);
}
//===----------------------------------------------------------------------===//
// Error reporting.
//===----------------------------------------------------------------------===//
void UseAfterRelease::EmitWarnings(BugReporter& BR) {
for (CFRefCount::use_after_iterator I = TF.use_after_begin(),
E = TF.use_after_end(); I != E; ++I) {
RangedBugReport report(*this);
report.addRange(I->second->getSourceRange());
BR.EmitPathWarning(report, I->first);
}
}
void BadRelease::EmitWarnings(BugReporter& BR) {
for (CFRefCount::bad_release_iterator I = TF.bad_release_begin(),
E = TF.bad_release_end(); I != E; ++I) {
RangedBugReport report(*this);
report.addRange(I->second->getSourceRange());
BR.EmitPathWarning(report, I->first);
}
}
//===----------------------------------------------------------------------===//
// Transfer function creation for external clients.
//===----------------------------------------------------------------------===//
GRTransferFuncs* clang::MakeCFRefCountTF(ASTContext& Ctx) {
return new CFRefCount(Ctx);
}
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