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llvm / clang / b15c08d32c072399e59c388bbf6a814831a0bb92 / . / include / clang / Analysis / RetainSummaryManager.h
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//=== RetainSummaryManager.h - Summaries for reference counting ---*- C++ -*--//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file defines summaries implementation for retain counting, which
// implements a reference count checker for Core Foundation and Cocoa
// on (Mac OS X).
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_ANALYSIS_RETAINSUMMARY_MANAGER_H
#define LLVM_CLANG_ANALYSIS_RETAINSUMMARY_MANAGER_H
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/ImmutableMap.h"
#include "clang/AST/Attr.h"
#include "clang/AST/DeclCXX.h"
#include "clang/AST/DeclObjC.h"
#include "clang/AST/ParentMap.h"
#include "clang/Analysis/AnyCall.h"
#include "clang/Analysis/SelectorExtras.h"
#include "llvm/ADT/STLExtras.h"
using namespace clang;
namespace clang {
namespace ento {
/// Determines the object kind of a tracked object.
enum class ObjKind {
/// Indicates that the tracked object is a CF object.
CF,
/// Indicates that the tracked object is an Objective-C object.
ObjC,
/// Indicates that the tracked object could be a CF or Objective-C object.
AnyObj,
/// Indicates that the tracked object is a generalized object.
Generalized,
/// Indicates that the tracking object is a descendant of a
/// referenced-counted OSObject, used in the Darwin kernel.
OS
};
enum ArgEffectKind {
/// There is no effect.
DoNothing,
/// The argument is treated as if an -autorelease message had been sent to
/// the referenced object.
Autorelease,
/// The argument is treated as if the referenced object was deallocated.
Dealloc,
/// The argument has its reference count decreased by 1.
DecRef,
/// The argument has its reference count decreased by 1 to model
/// a transferred bridge cast under ARC.
DecRefBridgedTransferred,
/// The argument has its reference count increased by 1.
IncRef,
/// The argument is a pointer to a retain-counted object; on exit, the new
/// value of the pointer is a +0 value.
UnretainedOutParameter,
/// The argument is a pointer to a retain-counted object; on exit, the new
/// value of the pointer is a +1 value.
RetainedOutParameter,
/// The argument is a pointer to a retain-counted object; on exit, the new
/// value of the pointer is a +1 value iff the return code is zero.
RetainedOutParameterOnZero,
/// The argument is a pointer to a retain-counted object; on exit, the new
/// value of the pointer is a +1 value iff the return code is non-zero.
RetainedOutParameterOnNonZero,
/// The argument is treated as potentially escaping, meaning that
/// even when its reference count hits 0 it should be treated as still
/// possibly being alive as someone else *may* be holding onto the object.
MayEscape,
/// All typestate tracking of the object ceases. This is usually employed
/// when the effect of the call is completely unknown.
StopTracking,
/// All typestate tracking of the object ceases. Unlike StopTracking,
/// this is also enforced when the method body is inlined.
///
/// In some cases, we obtain a better summary for this checker
/// by looking at the call site than by inlining the function.
/// Signifies that we should stop tracking the symbol even if
/// the function is inlined.
StopTrackingHard,
/// Performs the combined functionality of DecRef and StopTrackingHard.
///
/// The models the effect that the called function decrements the reference
/// count of the argument and all typestate tracking on that argument
/// should cease.
DecRefAndStopTrackingHard,
};
/// An ArgEffect summarizes the retain count behavior on an argument or receiver
/// to a function or method.
class ArgEffect {
ArgEffectKind K;
ObjKind O;
public:
explicit ArgEffect(ArgEffectKind K = DoNothing, ObjKind O = ObjKind::AnyObj)
: K(K), O(O) {}
ArgEffectKind getKind() const { return K; }
ObjKind getObjKind() const { return O; }
ArgEffect withKind(ArgEffectKind NewK) {
return ArgEffect(NewK, O);
}
bool operator==(const ArgEffect &Other) const {
return K == Other.K && O == Other.O;
}
};
/// RetEffect summarizes a call's retain/release behavior with respect
/// to its return value.
class RetEffect {
public:
enum Kind {
/// Indicates that no retain count information is tracked for
/// the return value.
NoRet,
/// Indicates that the returned value is an owned (+1) symbol.
OwnedSymbol,
/// Indicates that the returned value is an object with retain count
/// semantics but that it is not owned (+0). This is the default
/// for getters, etc.
NotOwnedSymbol,
/// Indicates that the return value is an owned object when the
/// receiver is also a tracked object.
OwnedWhenTrackedReceiver,
// Treat this function as returning a non-tracked symbol even if
// the function has been inlined. This is used where the call
// site summary is more precise than the summary indirectly produced
// by inlining the function
NoRetHard
};
private:
Kind K;
ObjKind O;
RetEffect(Kind k, ObjKind o = ObjKind::AnyObj) : K(k), O(o) {}
public:
Kind getKind() const { return K; }
ObjKind getObjKind() const { return O; }
bool isOwned() const {
return K == OwnedSymbol || K == OwnedWhenTrackedReceiver;
}
bool notOwned() const {
return K == NotOwnedSymbol;
}
bool operator==(const RetEffect &Other) const {
return K == Other.K && O == Other.O;
}
static RetEffect MakeOwnedWhenTrackedReceiver() {
return RetEffect(OwnedWhenTrackedReceiver, ObjKind::ObjC);
}
static RetEffect MakeOwned(ObjKind o) {
return RetEffect(OwnedSymbol, o);
}
static RetEffect MakeNotOwned(ObjKind o) {
return RetEffect(NotOwnedSymbol, o);
}
static RetEffect MakeNoRet() {
return RetEffect(NoRet);
}
static RetEffect MakeNoRetHard() {
return RetEffect(NoRetHard);
}
};
/// A key identifying a summary.
class ObjCSummaryKey {
IdentifierInfo* II;
Selector S;
public:
ObjCSummaryKey(IdentifierInfo* ii, Selector s)
: II(ii), S(s) {}
ObjCSummaryKey(const ObjCInterfaceDecl *d, Selector s)
: II(d ? d->getIdentifier() : nullptr), S(s) {}
ObjCSummaryKey(Selector s)
: II(nullptr), S(s) {}
IdentifierInfo *getIdentifier() const { return II; }
Selector getSelector() const { return S; }
};
} // end namespace ento
} // end namespace clang
using namespace ento;
namespace llvm {
//===----------------------------------------------------------------------===//
// Adapters for FoldingSet.
//===----------------------------------------------------------------------===//
template <> struct FoldingSetTrait<ArgEffect> {
static inline void Profile(const ArgEffect X, FoldingSetNodeID &ID) {
ID.AddInteger((unsigned) X.getKind());
ID.AddInteger((unsigned) X.getObjKind());
}
};
template <> struct FoldingSetTrait<RetEffect> {
static inline void Profile(const RetEffect &X, FoldingSetNodeID &ID) {
ID.AddInteger((unsigned) X.getKind());
ID.AddInteger((unsigned) X.getObjKind());
}
};
template <> struct DenseMapInfo<ObjCSummaryKey> {
static inline ObjCSummaryKey getEmptyKey() {
return ObjCSummaryKey(DenseMapInfo<IdentifierInfo*>::getEmptyKey(),
DenseMapInfo<Selector>::getEmptyKey());
}
static inline ObjCSummaryKey getTombstoneKey() {
return ObjCSummaryKey(DenseMapInfo<IdentifierInfo*>::getTombstoneKey(),
DenseMapInfo<Selector>::getTombstoneKey());
}
static unsigned getHashValue(const ObjCSummaryKey &V) {
typedef std::pair<IdentifierInfo*, Selector> PairTy;
return DenseMapInfo<PairTy>::getHashValue(PairTy(V.getIdentifier(),
V.getSelector()));
}
static bool isEqual(const ObjCSummaryKey& LHS, const ObjCSummaryKey& RHS) {
return LHS.getIdentifier() == RHS.getIdentifier() &&
LHS.getSelector() == RHS.getSelector();
}
};
} // end llvm namespace
namespace clang {
namespace ento {
/// ArgEffects summarizes the effects of a function/method call on all of
/// its arguments.
typedef llvm::ImmutableMap<unsigned, ArgEffect> ArgEffects;
/// Summary for a function with respect to ownership changes.
class RetainSummary {
/// Args - a map of (index, ArgEffect) pairs, where index
/// specifies the argument (starting from 0). This can be sparsely
/// populated; arguments with no entry in Args use 'DefaultArgEffect'.
ArgEffects Args;
/// DefaultArgEffect - The default ArgEffect to apply to arguments that
/// do not have an entry in Args.
ArgEffect DefaultArgEffect;
/// Receiver - If this summary applies to an Objective-C message expression,
/// this is the effect applied to the state of the receiver.
ArgEffect Receiver;
/// Effect on "this" pointer - applicable only to C++ method calls.
ArgEffect This;
/// Ret - The effect on the return value. Used to indicate if the
/// function/method call returns a new tracked symbol.
RetEffect Ret;
public:
RetainSummary(ArgEffects A,
RetEffect R,
ArgEffect defaultEff,
ArgEffect ReceiverEff,
ArgEffect ThisEff)
: Args(A), DefaultArgEffect(defaultEff), Receiver(ReceiverEff),
This(ThisEff), Ret(R) {}
/// getArg - Return the argument effect on the argument specified by
/// idx (starting from 0).
ArgEffect getArg(unsigned idx) const {
if (const ArgEffect *AE = Args.lookup(idx))
return *AE;
return DefaultArgEffect;
}
void addArg(ArgEffects::Factory &af, unsigned idx, ArgEffect e) {
Args = af.add(Args, idx, e);
}
/// setDefaultArgEffect - Set the default argument effect.
void setDefaultArgEffect(ArgEffect E) {
DefaultArgEffect = E;
}
/// getRetEffect - Returns the effect on the return value of the call.
RetEffect getRetEffect() const { return Ret; }
/// setRetEffect - Set the effect of the return value of the call.
void setRetEffect(RetEffect E) { Ret = E; }
/// Sets the effect on the receiver of the message.
void setReceiverEffect(ArgEffect e) { Receiver = e; }
/// getReceiverEffect - Returns the effect on the receiver of the call.
/// This is only meaningful if the summary applies to an ObjCMessageExpr*.
ArgEffect getReceiverEffect() const { return Receiver; }
/// \return the effect on the "this" receiver of the method call.
/// This is only meaningful if the summary applies to CXXMethodDecl*.
ArgEffect getThisEffect() const { return This; }
ArgEffect getDefaultEffect() const { return DefaultArgEffect; }
/// Set the effect of the method on "this".
void setThisEffect(ArgEffect e) { This = e; }
bool isNoop() const {
return Ret == RetEffect::MakeNoRet() && Receiver.getKind() == DoNothing
&& DefaultArgEffect.getKind() == MayEscape && This.getKind() == DoNothing
&& Args.isEmpty();
}
/// Test if two retain summaries are identical. Note that merely equivalent
/// summaries are not necessarily identical (for example, if an explicit
/// argument effect matches the default effect).
bool operator==(const RetainSummary &Other) const {
return Args == Other.Args && DefaultArgEffect == Other.DefaultArgEffect &&
Receiver == Other.Receiver && This == Other.This && Ret == Other.Ret;
}
/// Profile this summary for inclusion in a FoldingSet.
void Profile(llvm::FoldingSetNodeID& ID) const {
ID.Add(Args);
ID.Add(DefaultArgEffect);
ID.Add(Receiver);
ID.Add(This);
ID.Add(Ret);
}
/// A retain summary is simple if it has no ArgEffects other than the default.
bool isSimple() const {
return Args.isEmpty();
}
ArgEffects getArgEffects() const { return Args; }
private:
ArgEffect getDefaultArgEffect() const { return DefaultArgEffect; }
friend class RetainSummaryManager;
};
class ObjCSummaryCache {
typedef llvm::DenseMap<ObjCSummaryKey, const RetainSummary *> MapTy;
MapTy M;
public:
ObjCSummaryCache() {}
const RetainSummary * find(const ObjCInterfaceDecl *D, Selector S) {
// Do a lookup with the (D,S) pair. If we find a match return
// the iterator.
ObjCSummaryKey K(D, S);
MapTy::iterator I = M.find(K);
if (I != M.end())
return I->second;
if (!D)
return nullptr;
// Walk the super chain. If we find a hit with a parent, we'll end
// up returning that summary. We actually allow that key (null,S), as
// we cache summaries for the null ObjCInterfaceDecl* to allow us to
// generate initial summaries without having to worry about NSObject
// being declared.
// FIXME: We may change this at some point.
for (ObjCInterfaceDecl *C=D->getSuperClass() ;; C=C->getSuperClass()) {
if ((I = M.find(ObjCSummaryKey(C, S))) != M.end())
break;
if (!C)
return nullptr;
}
// Cache the summary with original key to make the next lookup faster
// and return the iterator.
const RetainSummary *Summ = I->second;
M[K] = Summ;
return Summ;
}
const RetainSummary *find(IdentifierInfo* II, Selector S) {
// FIXME: Class method lookup. Right now we don't have a good way
// of going between IdentifierInfo* and the class hierarchy.
MapTy::iterator I = M.find(ObjCSummaryKey(II, S));
if (I == M.end())
I = M.find(ObjCSummaryKey(S));
return I == M.end() ? nullptr : I->second;
}
const RetainSummary *& operator[](ObjCSummaryKey K) {
return M[K];
}
const RetainSummary *& operator[](Selector S) {
return M[ ObjCSummaryKey(S) ];
}
};
class RetainSummaryTemplate;
class RetainSummaryManager {
typedef llvm::DenseMap<const FunctionDecl*, const RetainSummary *>
FuncSummariesTy;
typedef ObjCSummaryCache ObjCMethodSummariesTy;
typedef llvm::FoldingSetNodeWrapper<RetainSummary> CachedSummaryNode;
/// Ctx - The ASTContext object for the analyzed ASTs.
ASTContext &Ctx;
/// Records whether or not the analyzed code runs in ARC mode.
const bool ARCEnabled;
/// Track Objective-C and CoreFoundation objects.
const bool TrackObjCAndCFObjects;
/// Track sublcasses of OSObject.
const bool TrackOSObjects;
/// FuncSummaries - A map from FunctionDecls to summaries.
FuncSummariesTy FuncSummaries;
/// ObjCClassMethodSummaries - A map from selectors (for instance methods)
/// to summaries.
ObjCMethodSummariesTy ObjCClassMethodSummaries;
/// ObjCMethodSummaries - A map from selectors to summaries.
ObjCMethodSummariesTy ObjCMethodSummaries;
/// BPAlloc - A BumpPtrAllocator used for allocating summaries, ArgEffects,
/// and all other data used by the checker.
llvm::BumpPtrAllocator BPAlloc;
/// AF - A factory for ArgEffects objects.
ArgEffects::Factory AF;
/// ObjCAllocRetE - Default return effect for methods returning Objective-C
/// objects.
RetEffect ObjCAllocRetE;
/// ObjCInitRetE - Default return effect for init methods returning
/// Objective-C objects.
RetEffect ObjCInitRetE;
/// SimpleSummaries - Used for uniquing summaries that don't have special
/// effects.
llvm::FoldingSet<CachedSummaryNode> SimpleSummaries;
/// Create an OS object at +1.
const RetainSummary *getOSSummaryCreateRule(const FunctionDecl *FD);
/// Get an OS object at +0.
const RetainSummary *getOSSummaryGetRule(const FunctionDecl *FD);
/// Increment the reference count on OS object.
const RetainSummary *getOSSummaryRetainRule(const FunctionDecl *FD);
/// Decrement the reference count on OS object.
const RetainSummary *getOSSummaryReleaseRule(const FunctionDecl *FD);
/// Free the OS object.
const RetainSummary *getOSSummaryFreeRule(const FunctionDecl *FD);
const RetainSummary *getUnarySummary(const FunctionType* FT,
ArgEffectKind AE);
const RetainSummary *getCFSummaryCreateRule(const FunctionDecl *FD);
const RetainSummary *getCFSummaryGetRule(const FunctionDecl *FD);
const RetainSummary *getCFCreateGetRuleSummary(const FunctionDecl *FD);
const RetainSummary *getPersistentSummary(const RetainSummary &OldSumm);
const RetainSummary *
getPersistentSummary(RetEffect RetEff, ArgEffects ScratchArgs,
ArgEffect ReceiverEff = ArgEffect(DoNothing),
ArgEffect DefaultEff = ArgEffect(MayEscape),
ArgEffect ThisEff = ArgEffect(DoNothing)) {
RetainSummary Summ(ScratchArgs, RetEff, DefaultEff, ReceiverEff, ThisEff);
return getPersistentSummary(Summ);
}
const RetainSummary *getDoNothingSummary() {
return getPersistentSummary(RetEffect::MakeNoRet(),
ArgEffects(AF.getEmptyMap()),
ArgEffect(DoNothing), ArgEffect(DoNothing));
}
const RetainSummary *getDefaultSummary() {
return getPersistentSummary(RetEffect::MakeNoRet(),
ArgEffects(AF.getEmptyMap()),
ArgEffect(DoNothing), ArgEffect(MayEscape));
}
const RetainSummary *getPersistentStopSummary() {
return getPersistentSummary(
RetEffect::MakeNoRet(), ArgEffects(AF.getEmptyMap()),
ArgEffect(StopTracking), ArgEffect(StopTracking));
}
void InitializeClassMethodSummaries();
void InitializeMethodSummaries();
void addNSObjectClsMethSummary(Selector S, const RetainSummary *Summ) {
ObjCClassMethodSummaries[S] = Summ;
}
void addNSObjectMethSummary(Selector S, const RetainSummary *Summ) {
ObjCMethodSummaries[S] = Summ;
}
void addClassMethSummary(const char* Cls, const char* name,
const RetainSummary *Summ, bool isNullary = true) {
IdentifierInfo* ClsII = &Ctx.Idents.get(Cls);
Selector S = isNullary ? GetNullarySelector(name, Ctx)
: GetUnarySelector(name, Ctx);
ObjCClassMethodSummaries[ObjCSummaryKey(ClsII, S)] = Summ;
}
void addInstMethSummary(const char* Cls, const char* nullaryName,
const RetainSummary *Summ) {
IdentifierInfo* ClsII = &Ctx.Idents.get(Cls);
Selector S = GetNullarySelector(nullaryName, Ctx);
ObjCMethodSummaries[ObjCSummaryKey(ClsII, S)] = Summ;
}
template <typename... Keywords>
void addMethodSummary(IdentifierInfo *ClsII, ObjCMethodSummariesTy &Summaries,
const RetainSummary *Summ, Keywords *... Kws) {
Selector S = getKeywordSelector(Ctx, Kws...);
Summaries[ObjCSummaryKey(ClsII, S)] = Summ;
}
template <typename... Keywords>
void addInstMethSummary(const char *Cls, const RetainSummary *Summ,
Keywords *... Kws) {
addMethodSummary(&Ctx.Idents.get(Cls), ObjCMethodSummaries, Summ, Kws...);
}
template <typename... Keywords>
void addClsMethSummary(const char *Cls, const RetainSummary *Summ,
Keywords *... Kws) {
addMethodSummary(&Ctx.Idents.get(Cls), ObjCClassMethodSummaries, Summ,
Kws...);
}
template <typename... Keywords>
void addClsMethSummary(IdentifierInfo *II, const RetainSummary *Summ,
Keywords *... Kws) {
addMethodSummary(II, ObjCClassMethodSummaries, Summ, Kws...);
}
const RetainSummary * generateSummary(const FunctionDecl *FD,
bool &AllowAnnotations);
/// Return a summary for OSObject, or nullptr if not found.
const RetainSummary *getSummaryForOSObject(const FunctionDecl *FD,
StringRef FName, QualType RetTy);
/// Return a summary for Objective-C or CF object, or nullptr if not found.
const RetainSummary *getSummaryForObjCOrCFObject(
const FunctionDecl *FD,
StringRef FName,
QualType RetTy,
const FunctionType *FT,
bool &AllowAnnotations);
/// Apply the annotation of {@code pd} in function {@code FD}
/// to the resulting summary stored in out-parameter {@code Template}.
/// \return whether an annotation was applied.
bool applyParamAnnotationEffect(const ParmVarDecl *pd, unsigned parm_idx,
const NamedDecl *FD,
RetainSummaryTemplate &Template);
public:
RetainSummaryManager(ASTContext &ctx, bool trackObjCAndCFObjects,
bool trackOSObjects)
: Ctx(ctx), ARCEnabled((bool)Ctx.getLangOpts().ObjCAutoRefCount),
TrackObjCAndCFObjects(trackObjCAndCFObjects),
TrackOSObjects(trackOSObjects), AF(BPAlloc),
ObjCAllocRetE(ARCEnabled ? RetEffect::MakeNotOwned(ObjKind::ObjC)
: RetEffect::MakeOwned(ObjKind::ObjC)),
ObjCInitRetE(ARCEnabled ? RetEffect::MakeNotOwned(ObjKind::ObjC)
: RetEffect::MakeOwnedWhenTrackedReceiver()) {
InitializeClassMethodSummaries();
InitializeMethodSummaries();
}
enum class BehaviorSummary {
// Function does not return.
NoOp,
// Function returns the first argument.
Identity,
// Function returns "this" argument.
IdentityThis,
// Function either returns zero, or the input parameter.
IdentityOrZero
};
Optional<BehaviorSummary> canEval(const CallExpr *CE, const FunctionDecl *FD,
bool &hasTrustedImplementationAnnotation);
/// \return Whether the type corresponds to a known smart pointer
/// implementation (that is, everything about it is inlineable).
static bool isKnownSmartPointer(QualType QT);
bool isTrustedReferenceCountImplementation(const Decl *FD);
const RetainSummary *getSummary(AnyCall C,
bool HasNonZeroCallbackArg=false,
bool IsReceiverUnconsumedSelf=false,
QualType ReceiverType={});
RetEffect getObjAllocRetEffect() const { return ObjCAllocRetE; }
private:
/// getMethodSummary - This version of getMethodSummary is used to query
/// the summary for the current method being analyzed.
const RetainSummary *getMethodSummary(const ObjCMethodDecl *MD);
const RetainSummary *getFunctionSummary(const FunctionDecl *FD);
const RetainSummary *getMethodSummary(Selector S, const ObjCInterfaceDecl *ID,
const ObjCMethodDecl *MD,
QualType RetTy,
ObjCMethodSummariesTy &CachedSummaries);
const RetainSummary *
getInstanceMethodSummary(const ObjCMessageExpr *ME, QualType ReceiverType);
const RetainSummary *getClassMethodSummary(const ObjCMessageExpr *ME);
const RetainSummary *getStandardMethodSummary(const ObjCMethodDecl *MD,
Selector S, QualType RetTy);
/// Determine if there is a special return effect for this function or method.
Optional<RetEffect> getRetEffectFromAnnotations(QualType RetTy,
const Decl *D);
void updateSummaryFromAnnotations(const RetainSummary *&Summ,
const ObjCMethodDecl *MD);
void updateSummaryFromAnnotations(const RetainSummary *&Summ,
const FunctionDecl *FD);
const RetainSummary *updateSummaryForNonZeroCallbackArg(const RetainSummary *S,
AnyCall &C);
/// Special case '[super init];' and '[self init];'
///
/// Even though calling '[super init]' without assigning the result to self
/// and checking if the parent returns 'nil' is a bad pattern, it is common.
/// Additionally, our Self Init checker already warns about it. To avoid
/// overwhelming the user with messages from both checkers, we model the case
/// of '[super init]' in cases when it is not consumed by another expression
/// as if the call preserves the value of 'self'; essentially, assuming it can
/// never fail and return 'nil'.
/// Note, we don't want to just stop tracking the value since we want the
/// RetainCount checker to report leaks and use-after-free if SelfInit checker
/// is turned off.
void updateSummaryForReceiverUnconsumedSelf(const RetainSummary *&S);
/// Set argument types for arguments which are not doing anything.
void updateSummaryForArgumentTypes(const AnyCall &C, const RetainSummary *&RS);
/// Determine whether a declaration {@code D} of correspondent type (return
/// type for functions/methods) {@code QT} has any of the given attributes,
/// provided they pass necessary validation checks AND tracking the given
/// attribute is enabled.
/// Returns the object kind corresponding to the present attribute, or None,
/// if none of the specified attributes are present.
/// Crashes if passed an attribute which is not explicitly handled.
template <class T>
Optional<ObjKind> hasAnyEnabledAttrOf(const Decl *D, QualType QT);
template <class T1, class T2, class... Others>
Optional<ObjKind> hasAnyEnabledAttrOf(const Decl *D, QualType QT);
friend class RetainSummaryTemplate;
};
// Used to avoid allocating long-term (BPAlloc'd) memory for default retain
// summaries. If a function or method looks like it has a default summary, but
// it has annotations, the annotations are added to the stack-based template
// and then copied into managed memory.
class RetainSummaryTemplate {
RetainSummaryManager &Manager;
const RetainSummary *&RealSummary;
RetainSummary ScratchSummary;
bool Accessed;
public:
RetainSummaryTemplate(const RetainSummary *&real, RetainSummaryManager &mgr)
: Manager(mgr), RealSummary(real), ScratchSummary(*real), Accessed(false) {}
~RetainSummaryTemplate() {
if (Accessed)
RealSummary = Manager.getPersistentSummary(ScratchSummary);
}
RetainSummary &operator*() {
Accessed = true;
return ScratchSummary;
}
RetainSummary *operator->() {
Accessed = true;
return &ScratchSummary;
}
};
} // end namespace ento
} // end namespace clang
#endif