DeclObjC.cpp
82.9 KB
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//===- DeclObjC.cpp - ObjC Declaration AST Node Implementation ------------===//
//
// 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 implements the Objective-C related Decl classes.
//
//===----------------------------------------------------------------------===//
#include "clang/AST/DeclObjC.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/ASTMutationListener.h"
#include "clang/AST/Attr.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclBase.h"
#include "clang/AST/Stmt.h"
#include "clang/AST/Type.h"
#include "clang/AST/TypeLoc.h"
#include "clang/Basic/IdentifierTable.h"
#include "clang/Basic/LLVM.h"
#include "clang/Basic/LangOptions.h"
#include "clang/Basic/SourceLocation.h"
#include "llvm/ADT/None.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cassert>
#include <cstdint>
#include <cstring>
#include <queue>
#include <utility>
using namespace clang;
//===----------------------------------------------------------------------===//
// ObjCListBase
//===----------------------------------------------------------------------===//
void ObjCListBase::set(void *const* InList, unsigned Elts, ASTContext &Ctx) {
List = nullptr;
if (Elts == 0) return; // Setting to an empty list is a noop.
List = new (Ctx) void*[Elts];
NumElts = Elts;
memcpy(List, InList, sizeof(void*)*Elts);
}
void ObjCProtocolList::set(ObjCProtocolDecl* const* InList, unsigned Elts,
const SourceLocation *Locs, ASTContext &Ctx) {
if (Elts == 0)
return;
Locations = new (Ctx) SourceLocation[Elts];
memcpy(Locations, Locs, sizeof(SourceLocation) * Elts);
set(InList, Elts, Ctx);
}
//===----------------------------------------------------------------------===//
// ObjCInterfaceDecl
//===----------------------------------------------------------------------===//
ObjCContainerDecl::ObjCContainerDecl(Kind DK, DeclContext *DC,
IdentifierInfo *Id, SourceLocation nameLoc,
SourceLocation atStartLoc)
: NamedDecl(DK, DC, nameLoc, Id), DeclContext(DK) {
setAtStartLoc(atStartLoc);
}
void ObjCContainerDecl::anchor() {}
/// getIvarDecl - This method looks up an ivar in this ContextDecl.
///
ObjCIvarDecl *
ObjCContainerDecl::getIvarDecl(IdentifierInfo *Id) const {
lookup_result R = lookup(Id);
for (lookup_iterator Ivar = R.begin(), IvarEnd = R.end();
Ivar != IvarEnd; ++Ivar) {
if (auto *ivar = dyn_cast<ObjCIvarDecl>(*Ivar))
return ivar;
}
return nullptr;
}
// Get the local instance/class method declared in this interface.
ObjCMethodDecl *
ObjCContainerDecl::getMethod(Selector Sel, bool isInstance,
bool AllowHidden) const {
// If this context is a hidden protocol definition, don't find any
// methods there.
if (const auto *Proto = dyn_cast<ObjCProtocolDecl>(this)) {
if (const ObjCProtocolDecl *Def = Proto->getDefinition())
if (!Def->isUnconditionallyVisible() && !AllowHidden)
return nullptr;
}
// Since instance & class methods can have the same name, the loop below
// ensures we get the correct method.
//
// @interface Whatever
// - (int) class_method;
// + (float) class_method;
// @end
lookup_result R = lookup(Sel);
for (lookup_iterator Meth = R.begin(), MethEnd = R.end();
Meth != MethEnd; ++Meth) {
auto *MD = dyn_cast<ObjCMethodDecl>(*Meth);
if (MD && MD->isInstanceMethod() == isInstance)
return MD;
}
return nullptr;
}
/// This routine returns 'true' if a user declared setter method was
/// found in the class, its protocols, its super classes or categories.
/// It also returns 'true' if one of its categories has declared a 'readwrite'
/// property. This is because, user must provide a setter method for the
/// category's 'readwrite' property.
bool ObjCContainerDecl::HasUserDeclaredSetterMethod(
const ObjCPropertyDecl *Property) const {
Selector Sel = Property->getSetterName();
lookup_result R = lookup(Sel);
for (lookup_iterator Meth = R.begin(), MethEnd = R.end();
Meth != MethEnd; ++Meth) {
auto *MD = dyn_cast<ObjCMethodDecl>(*Meth);
if (MD && MD->isInstanceMethod() && !MD->isImplicit())
return true;
}
if (const auto *ID = dyn_cast<ObjCInterfaceDecl>(this)) {
// Also look into categories, including class extensions, looking
// for a user declared instance method.
for (const auto *Cat : ID->visible_categories()) {
if (ObjCMethodDecl *MD = Cat->getInstanceMethod(Sel))
if (!MD->isImplicit())
return true;
if (Cat->IsClassExtension())
continue;
// Also search through the categories looking for a 'readwrite'
// declaration of this property. If one found, presumably a setter will
// be provided (properties declared in categories will not get
// auto-synthesized).
for (const auto *P : Cat->properties())
if (P->getIdentifier() == Property->getIdentifier()) {
if (P->getPropertyAttributes() &
ObjCPropertyAttribute::kind_readwrite)
return true;
break;
}
}
// Also look into protocols, for a user declared instance method.
for (const auto *Proto : ID->all_referenced_protocols())
if (Proto->HasUserDeclaredSetterMethod(Property))
return true;
// And in its super class.
ObjCInterfaceDecl *OSC = ID->getSuperClass();
while (OSC) {
if (OSC->HasUserDeclaredSetterMethod(Property))
return true;
OSC = OSC->getSuperClass();
}
}
if (const auto *PD = dyn_cast<ObjCProtocolDecl>(this))
for (const auto *PI : PD->protocols())
if (PI->HasUserDeclaredSetterMethod(Property))
return true;
return false;
}
ObjCPropertyDecl *
ObjCPropertyDecl::findPropertyDecl(const DeclContext *DC,
const IdentifierInfo *propertyID,
ObjCPropertyQueryKind queryKind) {
// If this context is a hidden protocol definition, don't find any
// property.
if (const auto *Proto = dyn_cast<ObjCProtocolDecl>(DC)) {
if (const ObjCProtocolDecl *Def = Proto->getDefinition())
if (!Def->isUnconditionallyVisible())
return nullptr;
}
// If context is class, then lookup property in its visible extensions.
// This comes before property is looked up in primary class.
if (auto *IDecl = dyn_cast<ObjCInterfaceDecl>(DC)) {
for (const auto *Ext : IDecl->visible_extensions())
if (ObjCPropertyDecl *PD = ObjCPropertyDecl::findPropertyDecl(Ext,
propertyID,
queryKind))
return PD;
}
DeclContext::lookup_result R = DC->lookup(propertyID);
ObjCPropertyDecl *classProp = nullptr;
for (DeclContext::lookup_iterator I = R.begin(), E = R.end(); I != E;
++I)
if (auto *PD = dyn_cast<ObjCPropertyDecl>(*I)) {
// If queryKind is unknown, we return the instance property if one
// exists; otherwise we return the class property.
if ((queryKind == ObjCPropertyQueryKind::OBJC_PR_query_unknown &&
!PD->isClassProperty()) ||
(queryKind == ObjCPropertyQueryKind::OBJC_PR_query_class &&
PD->isClassProperty()) ||
(queryKind == ObjCPropertyQueryKind::OBJC_PR_query_instance &&
!PD->isClassProperty()))
return PD;
if (PD->isClassProperty())
classProp = PD;
}
if (queryKind == ObjCPropertyQueryKind::OBJC_PR_query_unknown)
// We can't find the instance property, return the class property.
return classProp;
return nullptr;
}
IdentifierInfo *
ObjCPropertyDecl::getDefaultSynthIvarName(ASTContext &Ctx) const {
SmallString<128> ivarName;
{
llvm::raw_svector_ostream os(ivarName);
os << '_' << getIdentifier()->getName();
}
return &Ctx.Idents.get(ivarName.str());
}
/// FindPropertyDeclaration - Finds declaration of the property given its name
/// in 'PropertyId' and returns it. It returns 0, if not found.
ObjCPropertyDecl *ObjCContainerDecl::FindPropertyDeclaration(
const IdentifierInfo *PropertyId,
ObjCPropertyQueryKind QueryKind) const {
// Don't find properties within hidden protocol definitions.
if (const auto *Proto = dyn_cast<ObjCProtocolDecl>(this)) {
if (const ObjCProtocolDecl *Def = Proto->getDefinition())
if (!Def->isUnconditionallyVisible())
return nullptr;
}
// Search the extensions of a class first; they override what's in
// the class itself.
if (const auto *ClassDecl = dyn_cast<ObjCInterfaceDecl>(this)) {
for (const auto *Ext : ClassDecl->visible_extensions()) {
if (auto *P = Ext->FindPropertyDeclaration(PropertyId, QueryKind))
return P;
}
}
if (ObjCPropertyDecl *PD =
ObjCPropertyDecl::findPropertyDecl(cast<DeclContext>(this), PropertyId,
QueryKind))
return PD;
switch (getKind()) {
default:
break;
case Decl::ObjCProtocol: {
const auto *PID = cast<ObjCProtocolDecl>(this);
for (const auto *I : PID->protocols())
if (ObjCPropertyDecl *P = I->FindPropertyDeclaration(PropertyId,
QueryKind))
return P;
break;
}
case Decl::ObjCInterface: {
const auto *OID = cast<ObjCInterfaceDecl>(this);
// Look through categories (but not extensions; they were handled above).
for (const auto *Cat : OID->visible_categories()) {
if (!Cat->IsClassExtension())
if (ObjCPropertyDecl *P = Cat->FindPropertyDeclaration(
PropertyId, QueryKind))
return P;
}
// Look through protocols.
for (const auto *I : OID->all_referenced_protocols())
if (ObjCPropertyDecl *P = I->FindPropertyDeclaration(PropertyId,
QueryKind))
return P;
// Finally, check the super class.
if (const ObjCInterfaceDecl *superClass = OID->getSuperClass())
return superClass->FindPropertyDeclaration(PropertyId, QueryKind);
break;
}
case Decl::ObjCCategory: {
const auto *OCD = cast<ObjCCategoryDecl>(this);
// Look through protocols.
if (!OCD->IsClassExtension())
for (const auto *I : OCD->protocols())
if (ObjCPropertyDecl *P = I->FindPropertyDeclaration(PropertyId,
QueryKind))
return P;
break;
}
}
return nullptr;
}
void ObjCInterfaceDecl::anchor() {}
ObjCTypeParamList *ObjCInterfaceDecl::getTypeParamList() const {
// If this particular declaration has a type parameter list, return it.
if (ObjCTypeParamList *written = getTypeParamListAsWritten())
return written;
// If there is a definition, return its type parameter list.
if (const ObjCInterfaceDecl *def = getDefinition())
return def->getTypeParamListAsWritten();
// Otherwise, look at previous declarations to determine whether any
// of them has a type parameter list, skipping over those
// declarations that do not.
for (const ObjCInterfaceDecl *decl = getMostRecentDecl(); decl;
decl = decl->getPreviousDecl()) {
if (ObjCTypeParamList *written = decl->getTypeParamListAsWritten())
return written;
}
return nullptr;
}
void ObjCInterfaceDecl::setTypeParamList(ObjCTypeParamList *TPL) {
TypeParamList = TPL;
if (!TPL)
return;
// Set the declaration context of each of the type parameters.
for (auto *typeParam : *TypeParamList)
typeParam->setDeclContext(this);
}
ObjCInterfaceDecl *ObjCInterfaceDecl::getSuperClass() const {
// FIXME: Should make sure no callers ever do this.
if (!hasDefinition())
return nullptr;
if (data().ExternallyCompleted)
LoadExternalDefinition();
if (const ObjCObjectType *superType = getSuperClassType()) {
if (ObjCInterfaceDecl *superDecl = superType->getInterface()) {
if (ObjCInterfaceDecl *superDef = superDecl->getDefinition())
return superDef;
return superDecl;
}
}
return nullptr;
}
SourceLocation ObjCInterfaceDecl::getSuperClassLoc() const {
if (TypeSourceInfo *superTInfo = getSuperClassTInfo())
return superTInfo->getTypeLoc().getBeginLoc();
return SourceLocation();
}
/// FindPropertyVisibleInPrimaryClass - Finds declaration of the property
/// with name 'PropertyId' in the primary class; including those in protocols
/// (direct or indirect) used by the primary class.
ObjCPropertyDecl *
ObjCInterfaceDecl::FindPropertyVisibleInPrimaryClass(
IdentifierInfo *PropertyId,
ObjCPropertyQueryKind QueryKind) const {
// FIXME: Should make sure no callers ever do this.
if (!hasDefinition())
return nullptr;
if (data().ExternallyCompleted)
LoadExternalDefinition();
if (ObjCPropertyDecl *PD =
ObjCPropertyDecl::findPropertyDecl(cast<DeclContext>(this), PropertyId,
QueryKind))
return PD;
// Look through protocols.
for (const auto *I : all_referenced_protocols())
if (ObjCPropertyDecl *P = I->FindPropertyDeclaration(PropertyId,
QueryKind))
return P;
return nullptr;
}
void ObjCInterfaceDecl::collectPropertiesToImplement(PropertyMap &PM,
PropertyDeclOrder &PO) const {
for (auto *Prop : properties()) {
PM[std::make_pair(Prop->getIdentifier(), Prop->isClassProperty())] = Prop;
PO.push_back(Prop);
}
for (const auto *Ext : known_extensions()) {
const ObjCCategoryDecl *ClassExt = Ext;
for (auto *Prop : ClassExt->properties()) {
PM[std::make_pair(Prop->getIdentifier(), Prop->isClassProperty())] = Prop;
PO.push_back(Prop);
}
}
for (const auto *PI : all_referenced_protocols())
PI->collectPropertiesToImplement(PM, PO);
// Note, the properties declared only in class extensions are still copied
// into the main @interface's property list, and therefore we don't
// explicitly, have to search class extension properties.
}
bool ObjCInterfaceDecl::isArcWeakrefUnavailable() const {
const ObjCInterfaceDecl *Class = this;
while (Class) {
if (Class->hasAttr<ArcWeakrefUnavailableAttr>())
return true;
Class = Class->getSuperClass();
}
return false;
}
const ObjCInterfaceDecl *ObjCInterfaceDecl::isObjCRequiresPropertyDefs() const {
const ObjCInterfaceDecl *Class = this;
while (Class) {
if (Class->hasAttr<ObjCRequiresPropertyDefsAttr>())
return Class;
Class = Class->getSuperClass();
}
return nullptr;
}
void ObjCInterfaceDecl::mergeClassExtensionProtocolList(
ObjCProtocolDecl *const* ExtList, unsigned ExtNum,
ASTContext &C) {
if (data().ExternallyCompleted)
LoadExternalDefinition();
if (data().AllReferencedProtocols.empty() &&
data().ReferencedProtocols.empty()) {
data().AllReferencedProtocols.set(ExtList, ExtNum, C);
return;
}
// Check for duplicate protocol in class's protocol list.
// This is O(n*m). But it is extremely rare and number of protocols in
// class or its extension are very few.
SmallVector<ObjCProtocolDecl *, 8> ProtocolRefs;
for (unsigned i = 0; i < ExtNum; i++) {
bool protocolExists = false;
ObjCProtocolDecl *ProtoInExtension = ExtList[i];
for (auto *Proto : all_referenced_protocols()) {
if (C.ProtocolCompatibleWithProtocol(ProtoInExtension, Proto)) {
protocolExists = true;
break;
}
}
// Do we want to warn on a protocol in extension class which
// already exist in the class? Probably not.
if (!protocolExists)
ProtocolRefs.push_back(ProtoInExtension);
}
if (ProtocolRefs.empty())
return;
// Merge ProtocolRefs into class's protocol list;
ProtocolRefs.append(all_referenced_protocol_begin(),
all_referenced_protocol_end());
data().AllReferencedProtocols.set(ProtocolRefs.data(), ProtocolRefs.size(),C);
}
const ObjCInterfaceDecl *
ObjCInterfaceDecl::findInterfaceWithDesignatedInitializers() const {
const ObjCInterfaceDecl *IFace = this;
while (IFace) {
if (IFace->hasDesignatedInitializers())
return IFace;
if (!IFace->inheritsDesignatedInitializers())
break;
IFace = IFace->getSuperClass();
}
return nullptr;
}
static bool isIntroducingInitializers(const ObjCInterfaceDecl *D) {
for (const auto *MD : D->instance_methods()) {
if (MD->getMethodFamily() == OMF_init && !MD->isOverriding())
return true;
}
for (const auto *Ext : D->visible_extensions()) {
for (const auto *MD : Ext->instance_methods()) {
if (MD->getMethodFamily() == OMF_init && !MD->isOverriding())
return true;
}
}
if (const auto *ImplD = D->getImplementation()) {
for (const auto *MD : ImplD->instance_methods()) {
if (MD->getMethodFamily() == OMF_init && !MD->isOverriding())
return true;
}
}
return false;
}
bool ObjCInterfaceDecl::inheritsDesignatedInitializers() const {
switch (data().InheritedDesignatedInitializers) {
case DefinitionData::IDI_Inherited:
return true;
case DefinitionData::IDI_NotInherited:
return false;
case DefinitionData::IDI_Unknown:
// If the class introduced initializers we conservatively assume that we
// don't know if any of them is a designated initializer to avoid possible
// misleading warnings.
if (isIntroducingInitializers(this)) {
data().InheritedDesignatedInitializers = DefinitionData::IDI_NotInherited;
} else {
if (auto SuperD = getSuperClass()) {
data().InheritedDesignatedInitializers =
SuperD->declaresOrInheritsDesignatedInitializers() ?
DefinitionData::IDI_Inherited :
DefinitionData::IDI_NotInherited;
} else {
data().InheritedDesignatedInitializers =
DefinitionData::IDI_NotInherited;
}
}
assert(data().InheritedDesignatedInitializers
!= DefinitionData::IDI_Unknown);
return data().InheritedDesignatedInitializers ==
DefinitionData::IDI_Inherited;
}
llvm_unreachable("unexpected InheritedDesignatedInitializers value");
}
void ObjCInterfaceDecl::getDesignatedInitializers(
llvm::SmallVectorImpl<const ObjCMethodDecl *> &Methods) const {
// Check for a complete definition and recover if not so.
if (!isThisDeclarationADefinition())
return;
if (data().ExternallyCompleted)
LoadExternalDefinition();
const ObjCInterfaceDecl *IFace= findInterfaceWithDesignatedInitializers();
if (!IFace)
return;
for (const auto *MD : IFace->instance_methods())
if (MD->isThisDeclarationADesignatedInitializer())
Methods.push_back(MD);
for (const auto *Ext : IFace->visible_extensions()) {
for (const auto *MD : Ext->instance_methods())
if (MD->isThisDeclarationADesignatedInitializer())
Methods.push_back(MD);
}
}
bool ObjCInterfaceDecl::isDesignatedInitializer(Selector Sel,
const ObjCMethodDecl **InitMethod) const {
bool HasCompleteDef = isThisDeclarationADefinition();
// During deserialization the data record for the ObjCInterfaceDecl could
// be made invariant by reusing the canonical decl. Take this into account
// when checking for the complete definition.
if (!HasCompleteDef && getCanonicalDecl()->hasDefinition() &&
getCanonicalDecl()->getDefinition() == getDefinition())
HasCompleteDef = true;
// Check for a complete definition and recover if not so.
if (!HasCompleteDef)
return false;
if (data().ExternallyCompleted)
LoadExternalDefinition();
const ObjCInterfaceDecl *IFace= findInterfaceWithDesignatedInitializers();
if (!IFace)
return false;
if (const ObjCMethodDecl *MD = IFace->getInstanceMethod(Sel)) {
if (MD->isThisDeclarationADesignatedInitializer()) {
if (InitMethod)
*InitMethod = MD;
return true;
}
}
for (const auto *Ext : IFace->visible_extensions()) {
if (const ObjCMethodDecl *MD = Ext->getInstanceMethod(Sel)) {
if (MD->isThisDeclarationADesignatedInitializer()) {
if (InitMethod)
*InitMethod = MD;
return true;
}
}
}
return false;
}
void ObjCInterfaceDecl::allocateDefinitionData() {
assert(!hasDefinition() && "ObjC class already has a definition");
Data.setPointer(new (getASTContext()) DefinitionData());
Data.getPointer()->Definition = this;
// Make the type point at the definition, now that we have one.
if (TypeForDecl)
cast<ObjCInterfaceType>(TypeForDecl)->Decl = this;
}
void ObjCInterfaceDecl::startDefinition() {
allocateDefinitionData();
// Update all of the declarations with a pointer to the definition.
for (auto *RD : redecls()) {
if (RD != this)
RD->Data = Data;
}
}
ObjCIvarDecl *ObjCInterfaceDecl::lookupInstanceVariable(IdentifierInfo *ID,
ObjCInterfaceDecl *&clsDeclared) {
// FIXME: Should make sure no callers ever do this.
if (!hasDefinition())
return nullptr;
if (data().ExternallyCompleted)
LoadExternalDefinition();
ObjCInterfaceDecl* ClassDecl = this;
while (ClassDecl != nullptr) {
if (ObjCIvarDecl *I = ClassDecl->getIvarDecl(ID)) {
clsDeclared = ClassDecl;
return I;
}
for (const auto *Ext : ClassDecl->visible_extensions()) {
if (ObjCIvarDecl *I = Ext->getIvarDecl(ID)) {
clsDeclared = ClassDecl;
return I;
}
}
ClassDecl = ClassDecl->getSuperClass();
}
return nullptr;
}
/// lookupInheritedClass - This method returns ObjCInterfaceDecl * of the super
/// class whose name is passed as argument. If it is not one of the super classes
/// the it returns NULL.
ObjCInterfaceDecl *ObjCInterfaceDecl::lookupInheritedClass(
const IdentifierInfo*ICName) {
// FIXME: Should make sure no callers ever do this.
if (!hasDefinition())
return nullptr;
if (data().ExternallyCompleted)
LoadExternalDefinition();
ObjCInterfaceDecl* ClassDecl = this;
while (ClassDecl != nullptr) {
if (ClassDecl->getIdentifier() == ICName)
return ClassDecl;
ClassDecl = ClassDecl->getSuperClass();
}
return nullptr;
}
ObjCProtocolDecl *
ObjCInterfaceDecl::lookupNestedProtocol(IdentifierInfo *Name) {
for (auto *P : all_referenced_protocols())
if (P->lookupProtocolNamed(Name))
return P;
ObjCInterfaceDecl *SuperClass = getSuperClass();
return SuperClass ? SuperClass->lookupNestedProtocol(Name) : nullptr;
}
/// lookupMethod - This method returns an instance/class method by looking in
/// the class, its categories, and its super classes (using a linear search).
/// When argument category "C" is specified, any implicit method found
/// in this category is ignored.
ObjCMethodDecl *ObjCInterfaceDecl::lookupMethod(Selector Sel,
bool isInstance,
bool shallowCategoryLookup,
bool followSuper,
const ObjCCategoryDecl *C) const
{
// FIXME: Should make sure no callers ever do this.
if (!hasDefinition())
return nullptr;
const ObjCInterfaceDecl* ClassDecl = this;
ObjCMethodDecl *MethodDecl = nullptr;
if (data().ExternallyCompleted)
LoadExternalDefinition();
while (ClassDecl) {
// 1. Look through primary class.
if ((MethodDecl = ClassDecl->getMethod(Sel, isInstance)))
return MethodDecl;
// 2. Didn't find one yet - now look through categories.
for (const auto *Cat : ClassDecl->visible_categories())
if ((MethodDecl = Cat->getMethod(Sel, isInstance)))
if (C != Cat || !MethodDecl->isImplicit())
return MethodDecl;
// 3. Didn't find one yet - look through primary class's protocols.
for (const auto *I : ClassDecl->protocols())
if ((MethodDecl = I->lookupMethod(Sel, isInstance)))
return MethodDecl;
// 4. Didn't find one yet - now look through categories' protocols
if (!shallowCategoryLookup)
for (const auto *Cat : ClassDecl->visible_categories()) {
// Didn't find one yet - look through protocols.
const ObjCList<ObjCProtocolDecl> &Protocols =
Cat->getReferencedProtocols();
for (auto *Protocol : Protocols)
if ((MethodDecl = Protocol->lookupMethod(Sel, isInstance)))
if (C != Cat || !MethodDecl->isImplicit())
return MethodDecl;
}
if (!followSuper)
return nullptr;
// 5. Get to the super class (if any).
ClassDecl = ClassDecl->getSuperClass();
}
return nullptr;
}
// Will search "local" class/category implementations for a method decl.
// If failed, then we search in class's root for an instance method.
// Returns 0 if no method is found.
ObjCMethodDecl *ObjCInterfaceDecl::lookupPrivateMethod(
const Selector &Sel,
bool Instance) const {
// FIXME: Should make sure no callers ever do this.
if (!hasDefinition())
return nullptr;
if (data().ExternallyCompleted)
LoadExternalDefinition();
ObjCMethodDecl *Method = nullptr;
if (ObjCImplementationDecl *ImpDecl = getImplementation())
Method = Instance ? ImpDecl->getInstanceMethod(Sel)
: ImpDecl->getClassMethod(Sel);
// Look through local category implementations associated with the class.
if (!Method)
Method = getCategoryMethod(Sel, Instance);
// Before we give up, check if the selector is an instance method.
// But only in the root. This matches gcc's behavior and what the
// runtime expects.
if (!Instance && !Method && !getSuperClass()) {
Method = lookupInstanceMethod(Sel);
// Look through local category implementations associated
// with the root class.
if (!Method)
Method = lookupPrivateMethod(Sel, true);
}
if (!Method && getSuperClass())
return getSuperClass()->lookupPrivateMethod(Sel, Instance);
return Method;
}
//===----------------------------------------------------------------------===//
// ObjCMethodDecl
//===----------------------------------------------------------------------===//
ObjCMethodDecl::ObjCMethodDecl(
SourceLocation beginLoc, SourceLocation endLoc, Selector SelInfo,
QualType T, TypeSourceInfo *ReturnTInfo, DeclContext *contextDecl,
bool isInstance, bool isVariadic, bool isPropertyAccessor,
bool isSynthesizedAccessorStub, bool isImplicitlyDeclared, bool isDefined,
ImplementationControl impControl, bool HasRelatedResultType)
: NamedDecl(ObjCMethod, contextDecl, beginLoc, SelInfo),
DeclContext(ObjCMethod), MethodDeclType(T), ReturnTInfo(ReturnTInfo),
DeclEndLoc(endLoc) {
// Initialized the bits stored in DeclContext.
ObjCMethodDeclBits.Family =
static_cast<ObjCMethodFamily>(InvalidObjCMethodFamily);
setInstanceMethod(isInstance);
setVariadic(isVariadic);
setPropertyAccessor(isPropertyAccessor);
setSynthesizedAccessorStub(isSynthesizedAccessorStub);
setDefined(isDefined);
setIsRedeclaration(false);
setHasRedeclaration(false);
setDeclImplementation(impControl);
setObjCDeclQualifier(OBJC_TQ_None);
setRelatedResultType(HasRelatedResultType);
setSelLocsKind(SelLoc_StandardNoSpace);
setOverriding(false);
setHasSkippedBody(false);
setImplicit(isImplicitlyDeclared);
}
ObjCMethodDecl *ObjCMethodDecl::Create(
ASTContext &C, SourceLocation beginLoc, SourceLocation endLoc,
Selector SelInfo, QualType T, TypeSourceInfo *ReturnTInfo,
DeclContext *contextDecl, bool isInstance, bool isVariadic,
bool isPropertyAccessor, bool isSynthesizedAccessorStub,
bool isImplicitlyDeclared, bool isDefined, ImplementationControl impControl,
bool HasRelatedResultType) {
return new (C, contextDecl) ObjCMethodDecl(
beginLoc, endLoc, SelInfo, T, ReturnTInfo, contextDecl, isInstance,
isVariadic, isPropertyAccessor, isSynthesizedAccessorStub,
isImplicitlyDeclared, isDefined, impControl, HasRelatedResultType);
}
ObjCMethodDecl *ObjCMethodDecl::CreateDeserialized(ASTContext &C, unsigned ID) {
return new (C, ID) ObjCMethodDecl(SourceLocation(), SourceLocation(),
Selector(), QualType(), nullptr, nullptr);
}
bool ObjCMethodDecl::isDirectMethod() const {
return hasAttr<ObjCDirectAttr>();
}
bool ObjCMethodDecl::isThisDeclarationADesignatedInitializer() const {
return getMethodFamily() == OMF_init &&
hasAttr<ObjCDesignatedInitializerAttr>();
}
bool ObjCMethodDecl::definedInNSObject(const ASTContext &Ctx) const {
if (const auto *PD = dyn_cast<const ObjCProtocolDecl>(getDeclContext()))
return PD->getIdentifier() == Ctx.getNSObjectName();
if (const auto *ID = dyn_cast<const ObjCInterfaceDecl>(getDeclContext()))
return ID->getIdentifier() == Ctx.getNSObjectName();
return false;
}
bool ObjCMethodDecl::isDesignatedInitializerForTheInterface(
const ObjCMethodDecl **InitMethod) const {
if (getMethodFamily() != OMF_init)
return false;
const DeclContext *DC = getDeclContext();
if (isa<ObjCProtocolDecl>(DC))
return false;
if (const ObjCInterfaceDecl *ID = getClassInterface())
return ID->isDesignatedInitializer(getSelector(), InitMethod);
return false;
}
Stmt *ObjCMethodDecl::getBody() const {
return Body.get(getASTContext().getExternalSource());
}
void ObjCMethodDecl::setAsRedeclaration(const ObjCMethodDecl *PrevMethod) {
assert(PrevMethod);
getASTContext().setObjCMethodRedeclaration(PrevMethod, this);
setIsRedeclaration(true);
PrevMethod->setHasRedeclaration(true);
}
void ObjCMethodDecl::setParamsAndSelLocs(ASTContext &C,
ArrayRef<ParmVarDecl*> Params,
ArrayRef<SourceLocation> SelLocs) {
ParamsAndSelLocs = nullptr;
NumParams = Params.size();
if (Params.empty() && SelLocs.empty())
return;
static_assert(alignof(ParmVarDecl *) >= alignof(SourceLocation),
"Alignment not sufficient for SourceLocation");
unsigned Size = sizeof(ParmVarDecl *) * NumParams +
sizeof(SourceLocation) * SelLocs.size();
ParamsAndSelLocs = C.Allocate(Size);
std::copy(Params.begin(), Params.end(), getParams());
std::copy(SelLocs.begin(), SelLocs.end(), getStoredSelLocs());
}
void ObjCMethodDecl::getSelectorLocs(
SmallVectorImpl<SourceLocation> &SelLocs) const {
for (unsigned i = 0, e = getNumSelectorLocs(); i != e; ++i)
SelLocs.push_back(getSelectorLoc(i));
}
void ObjCMethodDecl::setMethodParams(ASTContext &C,
ArrayRef<ParmVarDecl*> Params,
ArrayRef<SourceLocation> SelLocs) {
assert((!SelLocs.empty() || isImplicit()) &&
"No selector locs for non-implicit method");
if (isImplicit())
return setParamsAndSelLocs(C, Params, llvm::None);
setSelLocsKind(hasStandardSelectorLocs(getSelector(), SelLocs, Params,
DeclEndLoc));
if (getSelLocsKind() != SelLoc_NonStandard)
return setParamsAndSelLocs(C, Params, llvm::None);
setParamsAndSelLocs(C, Params, SelLocs);
}
/// A definition will return its interface declaration.
/// An interface declaration will return its definition.
/// Otherwise it will return itself.
ObjCMethodDecl *ObjCMethodDecl::getNextRedeclarationImpl() {
ASTContext &Ctx = getASTContext();
ObjCMethodDecl *Redecl = nullptr;
if (hasRedeclaration())
Redecl = const_cast<ObjCMethodDecl*>(Ctx.getObjCMethodRedeclaration(this));
if (Redecl)
return Redecl;
auto *CtxD = cast<Decl>(getDeclContext());
if (!CtxD->isInvalidDecl()) {
if (auto *IFD = dyn_cast<ObjCInterfaceDecl>(CtxD)) {
if (ObjCImplementationDecl *ImplD = Ctx.getObjCImplementation(IFD))
if (!ImplD->isInvalidDecl())
Redecl = ImplD->getMethod(getSelector(), isInstanceMethod());
} else if (auto *CD = dyn_cast<ObjCCategoryDecl>(CtxD)) {
if (ObjCCategoryImplDecl *ImplD = Ctx.getObjCImplementation(CD))
if (!ImplD->isInvalidDecl())
Redecl = ImplD->getMethod(getSelector(), isInstanceMethod());
} else if (auto *ImplD = dyn_cast<ObjCImplementationDecl>(CtxD)) {
if (ObjCInterfaceDecl *IFD = ImplD->getClassInterface())
if (!IFD->isInvalidDecl())
Redecl = IFD->getMethod(getSelector(), isInstanceMethod());
} else if (auto *CImplD = dyn_cast<ObjCCategoryImplDecl>(CtxD)) {
if (ObjCCategoryDecl *CatD = CImplD->getCategoryDecl())
if (!CatD->isInvalidDecl())
Redecl = CatD->getMethod(getSelector(), isInstanceMethod());
}
}
// Ensure that the discovered method redeclaration has a valid declaration
// context. Used to prevent infinite loops when iterating redeclarations in
// a partially invalid AST.
if (Redecl && cast<Decl>(Redecl->getDeclContext())->isInvalidDecl())
Redecl = nullptr;
if (!Redecl && isRedeclaration()) {
// This is the last redeclaration, go back to the first method.
return cast<ObjCContainerDecl>(CtxD)->getMethod(getSelector(),
isInstanceMethod());
}
return Redecl ? Redecl : this;
}
ObjCMethodDecl *ObjCMethodDecl::getCanonicalDecl() {
auto *CtxD = cast<Decl>(getDeclContext());
const auto &Sel = getSelector();
if (auto *ImplD = dyn_cast<ObjCImplementationDecl>(CtxD)) {
if (ObjCInterfaceDecl *IFD = ImplD->getClassInterface()) {
// When the container is the ObjCImplementationDecl (the primary
// @implementation), then the canonical Decl is either in
// the class Interface, or in any of its extension.
//
// So when we don't find it in the ObjCInterfaceDecl,
// sift through extensions too.
if (ObjCMethodDecl *MD = IFD->getMethod(Sel, isInstanceMethod()))
return MD;
for (auto *Ext : IFD->known_extensions())
if (ObjCMethodDecl *MD = Ext->getMethod(Sel, isInstanceMethod()))
return MD;
}
} else if (auto *CImplD = dyn_cast<ObjCCategoryImplDecl>(CtxD)) {
if (ObjCCategoryDecl *CatD = CImplD->getCategoryDecl())
if (ObjCMethodDecl *MD = CatD->getMethod(Sel, isInstanceMethod()))
return MD;
}
if (isRedeclaration()) {
// It is possible that we have not done deserializing the ObjCMethod yet.
ObjCMethodDecl *MD =
cast<ObjCContainerDecl>(CtxD)->getMethod(Sel, isInstanceMethod());
return MD ? MD : this;
}
return this;
}
SourceLocation ObjCMethodDecl::getEndLoc() const {
if (Stmt *Body = getBody())
return Body->getEndLoc();
return DeclEndLoc;
}
ObjCMethodFamily ObjCMethodDecl::getMethodFamily() const {
auto family = static_cast<ObjCMethodFamily>(ObjCMethodDeclBits.Family);
if (family != static_cast<unsigned>(InvalidObjCMethodFamily))
return family;
// Check for an explicit attribute.
if (const ObjCMethodFamilyAttr *attr = getAttr<ObjCMethodFamilyAttr>()) {
// The unfortunate necessity of mapping between enums here is due
// to the attributes framework.
switch (attr->getFamily()) {
case ObjCMethodFamilyAttr::OMF_None: family = OMF_None; break;
case ObjCMethodFamilyAttr::OMF_alloc: family = OMF_alloc; break;
case ObjCMethodFamilyAttr::OMF_copy: family = OMF_copy; break;
case ObjCMethodFamilyAttr::OMF_init: family = OMF_init; break;
case ObjCMethodFamilyAttr::OMF_mutableCopy: family = OMF_mutableCopy; break;
case ObjCMethodFamilyAttr::OMF_new: family = OMF_new; break;
}
ObjCMethodDeclBits.Family = family;
return family;
}
family = getSelector().getMethodFamily();
switch (family) {
case OMF_None: break;
// init only has a conventional meaning for an instance method, and
// it has to return an object.
case OMF_init:
if (!isInstanceMethod() || !getReturnType()->isObjCObjectPointerType())
family = OMF_None;
break;
// alloc/copy/new have a conventional meaning for both class and
// instance methods, but they require an object return.
case OMF_alloc:
case OMF_copy:
case OMF_mutableCopy:
case OMF_new:
if (!getReturnType()->isObjCObjectPointerType())
family = OMF_None;
break;
// These selectors have a conventional meaning only for instance methods.
case OMF_dealloc:
case OMF_finalize:
case OMF_retain:
case OMF_release:
case OMF_autorelease:
case OMF_retainCount:
case OMF_self:
if (!isInstanceMethod())
family = OMF_None;
break;
case OMF_initialize:
if (isInstanceMethod() || !getReturnType()->isVoidType())
family = OMF_None;
break;
case OMF_performSelector:
if (!isInstanceMethod() || !getReturnType()->isObjCIdType())
family = OMF_None;
else {
unsigned noParams = param_size();
if (noParams < 1 || noParams > 3)
family = OMF_None;
else {
ObjCMethodDecl::param_type_iterator it = param_type_begin();
QualType ArgT = (*it);
if (!ArgT->isObjCSelType()) {
family = OMF_None;
break;
}
while (--noParams) {
it++;
ArgT = (*it);
if (!ArgT->isObjCIdType()) {
family = OMF_None;
break;
}
}
}
}
break;
}
// Cache the result.
ObjCMethodDeclBits.Family = family;
return family;
}
QualType ObjCMethodDecl::getSelfType(ASTContext &Context,
const ObjCInterfaceDecl *OID,
bool &selfIsPseudoStrong,
bool &selfIsConsumed) const {
QualType selfTy;
selfIsPseudoStrong = false;
selfIsConsumed = false;
if (isInstanceMethod()) {
// There may be no interface context due to error in declaration
// of the interface (which has been reported). Recover gracefully.
if (OID) {
selfTy = Context.getObjCInterfaceType(OID);
selfTy = Context.getObjCObjectPointerType(selfTy);
} else {
selfTy = Context.getObjCIdType();
}
} else // we have a factory method.
selfTy = Context.getObjCClassType();
if (Context.getLangOpts().ObjCAutoRefCount) {
if (isInstanceMethod()) {
selfIsConsumed = hasAttr<NSConsumesSelfAttr>();
// 'self' is always __strong. It's actually pseudo-strong except
// in init methods (or methods labeled ns_consumes_self), though.
Qualifiers qs;
qs.setObjCLifetime(Qualifiers::OCL_Strong);
selfTy = Context.getQualifiedType(selfTy, qs);
// In addition, 'self' is const unless this is an init method.
if (getMethodFamily() != OMF_init && !selfIsConsumed) {
selfTy = selfTy.withConst();
selfIsPseudoStrong = true;
}
}
else {
assert(isClassMethod());
// 'self' is always const in class methods.
selfTy = selfTy.withConst();
selfIsPseudoStrong = true;
}
}
return selfTy;
}
void ObjCMethodDecl::createImplicitParams(ASTContext &Context,
const ObjCInterfaceDecl *OID) {
bool selfIsPseudoStrong, selfIsConsumed;
QualType selfTy =
getSelfType(Context, OID, selfIsPseudoStrong, selfIsConsumed);
auto *Self = ImplicitParamDecl::Create(Context, this, SourceLocation(),
&Context.Idents.get("self"), selfTy,
ImplicitParamDecl::ObjCSelf);
setSelfDecl(Self);
if (selfIsConsumed)
Self->addAttr(NSConsumedAttr::CreateImplicit(Context));
if (selfIsPseudoStrong)
Self->setARCPseudoStrong(true);
setCmdDecl(ImplicitParamDecl::Create(
Context, this, SourceLocation(), &Context.Idents.get("_cmd"),
Context.getObjCSelType(), ImplicitParamDecl::ObjCCmd));
}
ObjCInterfaceDecl *ObjCMethodDecl::getClassInterface() {
if (auto *ID = dyn_cast<ObjCInterfaceDecl>(getDeclContext()))
return ID;
if (auto *CD = dyn_cast<ObjCCategoryDecl>(getDeclContext()))
return CD->getClassInterface();
if (auto *IMD = dyn_cast<ObjCImplDecl>(getDeclContext()))
return IMD->getClassInterface();
if (isa<ObjCProtocolDecl>(getDeclContext()))
return nullptr;
llvm_unreachable("unknown method context");
}
ObjCCategoryDecl *ObjCMethodDecl::getCategory() {
if (auto *CD = dyn_cast<ObjCCategoryDecl>(getDeclContext()))
return CD;
if (auto *IMD = dyn_cast<ObjCCategoryImplDecl>(getDeclContext()))
return IMD->getCategoryDecl();
return nullptr;
}
SourceRange ObjCMethodDecl::getReturnTypeSourceRange() const {
const auto *TSI = getReturnTypeSourceInfo();
if (TSI)
return TSI->getTypeLoc().getSourceRange();
return SourceRange();
}
QualType ObjCMethodDecl::getSendResultType() const {
ASTContext &Ctx = getASTContext();
return getReturnType().getNonLValueExprType(Ctx)
.substObjCTypeArgs(Ctx, {}, ObjCSubstitutionContext::Result);
}
QualType ObjCMethodDecl::getSendResultType(QualType receiverType) const {
// FIXME: Handle related result types here.
return getReturnType().getNonLValueExprType(getASTContext())
.substObjCMemberType(receiverType, getDeclContext(),
ObjCSubstitutionContext::Result);
}
static void CollectOverriddenMethodsRecurse(const ObjCContainerDecl *Container,
const ObjCMethodDecl *Method,
SmallVectorImpl<const ObjCMethodDecl *> &Methods,
bool MovedToSuper) {
if (!Container)
return;
// In categories look for overridden methods from protocols. A method from
// category is not "overridden" since it is considered as the "same" method
// (same USR) as the one from the interface.
if (const auto *Category = dyn_cast<ObjCCategoryDecl>(Container)) {
// Check whether we have a matching method at this category but only if we
// are at the super class level.
if (MovedToSuper)
if (ObjCMethodDecl *
Overridden = Container->getMethod(Method->getSelector(),
Method->isInstanceMethod(),
/*AllowHidden=*/true))
if (Method != Overridden) {
// We found an override at this category; there is no need to look
// into its protocols.
Methods.push_back(Overridden);
return;
}
for (const auto *P : Category->protocols())
CollectOverriddenMethodsRecurse(P, Method, Methods, MovedToSuper);
return;
}
// Check whether we have a matching method at this level.
if (const ObjCMethodDecl *
Overridden = Container->getMethod(Method->getSelector(),
Method->isInstanceMethod(),
/*AllowHidden=*/true))
if (Method != Overridden) {
// We found an override at this level; there is no need to look
// into other protocols or categories.
Methods.push_back(Overridden);
return;
}
if (const auto *Protocol = dyn_cast<ObjCProtocolDecl>(Container)){
for (const auto *P : Protocol->protocols())
CollectOverriddenMethodsRecurse(P, Method, Methods, MovedToSuper);
}
if (const auto *Interface = dyn_cast<ObjCInterfaceDecl>(Container)) {
for (const auto *P : Interface->protocols())
CollectOverriddenMethodsRecurse(P, Method, Methods, MovedToSuper);
for (const auto *Cat : Interface->known_categories())
CollectOverriddenMethodsRecurse(Cat, Method, Methods, MovedToSuper);
if (const ObjCInterfaceDecl *Super = Interface->getSuperClass())
return CollectOverriddenMethodsRecurse(Super, Method, Methods,
/*MovedToSuper=*/true);
}
}
static inline void CollectOverriddenMethods(const ObjCContainerDecl *Container,
const ObjCMethodDecl *Method,
SmallVectorImpl<const ObjCMethodDecl *> &Methods) {
CollectOverriddenMethodsRecurse(Container, Method, Methods,
/*MovedToSuper=*/false);
}
static void collectOverriddenMethodsSlow(const ObjCMethodDecl *Method,
SmallVectorImpl<const ObjCMethodDecl *> &overridden) {
assert(Method->isOverriding());
if (const auto *ProtD =
dyn_cast<ObjCProtocolDecl>(Method->getDeclContext())) {
CollectOverriddenMethods(ProtD, Method, overridden);
} else if (const auto *IMD =
dyn_cast<ObjCImplDecl>(Method->getDeclContext())) {
const ObjCInterfaceDecl *ID = IMD->getClassInterface();
if (!ID)
return;
// Start searching for overridden methods using the method from the
// interface as starting point.
if (const ObjCMethodDecl *IFaceMeth = ID->getMethod(Method->getSelector(),
Method->isInstanceMethod(),
/*AllowHidden=*/true))
Method = IFaceMeth;
CollectOverriddenMethods(ID, Method, overridden);
} else if (const auto *CatD =
dyn_cast<ObjCCategoryDecl>(Method->getDeclContext())) {
const ObjCInterfaceDecl *ID = CatD->getClassInterface();
if (!ID)
return;
// Start searching for overridden methods using the method from the
// interface as starting point.
if (const ObjCMethodDecl *IFaceMeth = ID->getMethod(Method->getSelector(),
Method->isInstanceMethod(),
/*AllowHidden=*/true))
Method = IFaceMeth;
CollectOverriddenMethods(ID, Method, overridden);
} else {
CollectOverriddenMethods(
dyn_cast_or_null<ObjCContainerDecl>(Method->getDeclContext()),
Method, overridden);
}
}
void ObjCMethodDecl::getOverriddenMethods(
SmallVectorImpl<const ObjCMethodDecl *> &Overridden) const {
const ObjCMethodDecl *Method = this;
if (Method->isRedeclaration()) {
Method = cast<ObjCContainerDecl>(Method->getDeclContext())->
getMethod(Method->getSelector(), Method->isInstanceMethod());
}
if (Method->isOverriding()) {
collectOverriddenMethodsSlow(Method, Overridden);
assert(!Overridden.empty() &&
"ObjCMethodDecl's overriding bit is not as expected");
}
}
const ObjCPropertyDecl *
ObjCMethodDecl::findPropertyDecl(bool CheckOverrides) const {
Selector Sel = getSelector();
unsigned NumArgs = Sel.getNumArgs();
if (NumArgs > 1)
return nullptr;
if (isPropertyAccessor()) {
const auto *Container = cast<ObjCContainerDecl>(getParent());
// For accessor stubs, go back to the interface.
if (auto *ImplDecl = dyn_cast<ObjCImplDecl>(Container))
if (isSynthesizedAccessorStub())
Container = ImplDecl->getClassInterface();
bool IsGetter = (NumArgs == 0);
bool IsInstance = isInstanceMethod();
/// Local function that attempts to find a matching property within the
/// given Objective-C container.
auto findMatchingProperty =
[&](const ObjCContainerDecl *Container) -> const ObjCPropertyDecl * {
if (IsInstance) {
for (const auto *I : Container->instance_properties()) {
Selector NextSel = IsGetter ? I->getGetterName()
: I->getSetterName();
if (NextSel == Sel)
return I;
}
} else {
for (const auto *I : Container->class_properties()) {
Selector NextSel = IsGetter ? I->getGetterName()
: I->getSetterName();
if (NextSel == Sel)
return I;
}
}
return nullptr;
};
// Look in the container we were given.
if (const auto *Found = findMatchingProperty(Container))
return Found;
// If we're in a category or extension, look in the main class.
const ObjCInterfaceDecl *ClassDecl = nullptr;
if (const auto *Category = dyn_cast<ObjCCategoryDecl>(Container)) {
ClassDecl = Category->getClassInterface();
if (const auto *Found = findMatchingProperty(ClassDecl))
return Found;
} else {
// Determine whether the container is a class.
ClassDecl = cast<ObjCInterfaceDecl>(Container);
}
assert(ClassDecl && "Failed to find main class");
// If we have a class, check its visible extensions.
for (const auto *Ext : ClassDecl->visible_extensions()) {
if (Ext == Container)
continue;
if (const auto *Found = findMatchingProperty(Ext))
return Found;
}
assert(isSynthesizedAccessorStub() && "expected an accessor stub");
for (const auto *Cat : ClassDecl->known_categories()) {
if (Cat == Container)
continue;
if (const auto *Found = findMatchingProperty(Cat))
return Found;
}
llvm_unreachable("Marked as a property accessor but no property found!");
}
if (!CheckOverrides)
return nullptr;
using OverridesTy = SmallVector<const ObjCMethodDecl *, 8>;
OverridesTy Overrides;
getOverriddenMethods(Overrides);
for (const auto *Override : Overrides)
if (const ObjCPropertyDecl *Prop = Override->findPropertyDecl(false))
return Prop;
return nullptr;
}
//===----------------------------------------------------------------------===//
// ObjCTypeParamDecl
//===----------------------------------------------------------------------===//
void ObjCTypeParamDecl::anchor() {}
ObjCTypeParamDecl *ObjCTypeParamDecl::Create(ASTContext &ctx, DeclContext *dc,
ObjCTypeParamVariance variance,
SourceLocation varianceLoc,
unsigned index,
SourceLocation nameLoc,
IdentifierInfo *name,
SourceLocation colonLoc,
TypeSourceInfo *boundInfo) {
auto *TPDecl =
new (ctx, dc) ObjCTypeParamDecl(ctx, dc, variance, varianceLoc, index,
nameLoc, name, colonLoc, boundInfo);
QualType TPType = ctx.getObjCTypeParamType(TPDecl, {});
TPDecl->setTypeForDecl(TPType.getTypePtr());
return TPDecl;
}
ObjCTypeParamDecl *ObjCTypeParamDecl::CreateDeserialized(ASTContext &ctx,
unsigned ID) {
return new (ctx, ID) ObjCTypeParamDecl(ctx, nullptr,
ObjCTypeParamVariance::Invariant,
SourceLocation(), 0, SourceLocation(),
nullptr, SourceLocation(), nullptr);
}
SourceRange ObjCTypeParamDecl::getSourceRange() const {
SourceLocation startLoc = VarianceLoc;
if (startLoc.isInvalid())
startLoc = getLocation();
if (hasExplicitBound()) {
return SourceRange(startLoc,
getTypeSourceInfo()->getTypeLoc().getEndLoc());
}
return SourceRange(startLoc);
}
//===----------------------------------------------------------------------===//
// ObjCTypeParamList
//===----------------------------------------------------------------------===//
ObjCTypeParamList::ObjCTypeParamList(SourceLocation lAngleLoc,
ArrayRef<ObjCTypeParamDecl *> typeParams,
SourceLocation rAngleLoc)
: NumParams(typeParams.size()) {
Brackets.Begin = lAngleLoc.getRawEncoding();
Brackets.End = rAngleLoc.getRawEncoding();
std::copy(typeParams.begin(), typeParams.end(), begin());
}
ObjCTypeParamList *ObjCTypeParamList::create(
ASTContext &ctx,
SourceLocation lAngleLoc,
ArrayRef<ObjCTypeParamDecl *> typeParams,
SourceLocation rAngleLoc) {
void *mem =
ctx.Allocate(totalSizeToAlloc<ObjCTypeParamDecl *>(typeParams.size()),
alignof(ObjCTypeParamList));
return new (mem) ObjCTypeParamList(lAngleLoc, typeParams, rAngleLoc);
}
void ObjCTypeParamList::gatherDefaultTypeArgs(
SmallVectorImpl<QualType> &typeArgs) const {
typeArgs.reserve(size());
for (auto typeParam : *this)
typeArgs.push_back(typeParam->getUnderlyingType());
}
//===----------------------------------------------------------------------===//
// ObjCInterfaceDecl
//===----------------------------------------------------------------------===//
ObjCInterfaceDecl *ObjCInterfaceDecl::Create(const ASTContext &C,
DeclContext *DC,
SourceLocation atLoc,
IdentifierInfo *Id,
ObjCTypeParamList *typeParamList,
ObjCInterfaceDecl *PrevDecl,
SourceLocation ClassLoc,
bool isInternal){
auto *Result = new (C, DC)
ObjCInterfaceDecl(C, DC, atLoc, Id, typeParamList, ClassLoc, PrevDecl,
isInternal);
Result->Data.setInt(!C.getLangOpts().Modules);
C.getObjCInterfaceType(Result, PrevDecl);
return Result;
}
ObjCInterfaceDecl *ObjCInterfaceDecl::CreateDeserialized(const ASTContext &C,
unsigned ID) {
auto *Result = new (C, ID)
ObjCInterfaceDecl(C, nullptr, SourceLocation(), nullptr, nullptr,
SourceLocation(), nullptr, false);
Result->Data.setInt(!C.getLangOpts().Modules);
return Result;
}
ObjCInterfaceDecl::ObjCInterfaceDecl(const ASTContext &C, DeclContext *DC,
SourceLocation AtLoc, IdentifierInfo *Id,
ObjCTypeParamList *typeParamList,
SourceLocation CLoc,
ObjCInterfaceDecl *PrevDecl,
bool IsInternal)
: ObjCContainerDecl(ObjCInterface, DC, Id, CLoc, AtLoc),
redeclarable_base(C) {
setPreviousDecl(PrevDecl);
// Copy the 'data' pointer over.
if (PrevDecl)
Data = PrevDecl->Data;
setImplicit(IsInternal);
setTypeParamList(typeParamList);
}
void ObjCInterfaceDecl::LoadExternalDefinition() const {
assert(data().ExternallyCompleted && "Class is not externally completed");
data().ExternallyCompleted = false;
getASTContext().getExternalSource()->CompleteType(
const_cast<ObjCInterfaceDecl *>(this));
}
void ObjCInterfaceDecl::setExternallyCompleted() {
assert(getASTContext().getExternalSource() &&
"Class can't be externally completed without an external source");
assert(hasDefinition() &&
"Forward declarations can't be externally completed");
data().ExternallyCompleted = true;
}
void ObjCInterfaceDecl::setHasDesignatedInitializers() {
// Check for a complete definition and recover if not so.
if (!isThisDeclarationADefinition())
return;
data().HasDesignatedInitializers = true;
}
bool ObjCInterfaceDecl::hasDesignatedInitializers() const {
// Check for a complete definition and recover if not so.
if (!isThisDeclarationADefinition())
return false;
if (data().ExternallyCompleted)
LoadExternalDefinition();
return data().HasDesignatedInitializers;
}
StringRef
ObjCInterfaceDecl::getObjCRuntimeNameAsString() const {
if (const auto *ObjCRTName = getAttr<ObjCRuntimeNameAttr>())
return ObjCRTName->getMetadataName();
return getName();
}
StringRef
ObjCImplementationDecl::getObjCRuntimeNameAsString() const {
if (ObjCInterfaceDecl *ID =
const_cast<ObjCImplementationDecl*>(this)->getClassInterface())
return ID->getObjCRuntimeNameAsString();
return getName();
}
ObjCImplementationDecl *ObjCInterfaceDecl::getImplementation() const {
if (const ObjCInterfaceDecl *Def = getDefinition()) {
if (data().ExternallyCompleted)
LoadExternalDefinition();
return getASTContext().getObjCImplementation(
const_cast<ObjCInterfaceDecl*>(Def));
}
// FIXME: Should make sure no callers ever do this.
return nullptr;
}
void ObjCInterfaceDecl::setImplementation(ObjCImplementationDecl *ImplD) {
getASTContext().setObjCImplementation(getDefinition(), ImplD);
}
namespace {
struct SynthesizeIvarChunk {
uint64_t Size;
ObjCIvarDecl *Ivar;
SynthesizeIvarChunk(uint64_t size, ObjCIvarDecl *ivar)
: Size(size), Ivar(ivar) {}
};
bool operator<(const SynthesizeIvarChunk & LHS,
const SynthesizeIvarChunk &RHS) {
return LHS.Size < RHS.Size;
}
} // namespace
/// all_declared_ivar_begin - return first ivar declared in this class,
/// its extensions and its implementation. Lazily build the list on first
/// access.
///
/// Caveat: The list returned by this method reflects the current
/// state of the parser. The cache will be updated for every ivar
/// added by an extension or the implementation when they are
/// encountered.
/// See also ObjCIvarDecl::Create().
ObjCIvarDecl *ObjCInterfaceDecl::all_declared_ivar_begin() {
// FIXME: Should make sure no callers ever do this.
if (!hasDefinition())
return nullptr;
ObjCIvarDecl *curIvar = nullptr;
if (!data().IvarList) {
if (!ivar_empty()) {
ObjCInterfaceDecl::ivar_iterator I = ivar_begin(), E = ivar_end();
data().IvarList = *I; ++I;
for (curIvar = data().IvarList; I != E; curIvar = *I, ++I)
curIvar->setNextIvar(*I);
}
for (const auto *Ext : known_extensions()) {
if (!Ext->ivar_empty()) {
ObjCCategoryDecl::ivar_iterator
I = Ext->ivar_begin(),
E = Ext->ivar_end();
if (!data().IvarList) {
data().IvarList = *I; ++I;
curIvar = data().IvarList;
}
for ( ;I != E; curIvar = *I, ++I)
curIvar->setNextIvar(*I);
}
}
data().IvarListMissingImplementation = true;
}
// cached and complete!
if (!data().IvarListMissingImplementation)
return data().IvarList;
if (ObjCImplementationDecl *ImplDecl = getImplementation()) {
data().IvarListMissingImplementation = false;
if (!ImplDecl->ivar_empty()) {
SmallVector<SynthesizeIvarChunk, 16> layout;
for (auto *IV : ImplDecl->ivars()) {
if (IV->getSynthesize() && !IV->isInvalidDecl()) {
layout.push_back(SynthesizeIvarChunk(
IV->getASTContext().getTypeSize(IV->getType()), IV));
continue;
}
if (!data().IvarList)
data().IvarList = IV;
else
curIvar->setNextIvar(IV);
curIvar = IV;
}
if (!layout.empty()) {
// Order synthesized ivars by their size.
llvm::stable_sort(layout);
unsigned Ix = 0, EIx = layout.size();
if (!data().IvarList) {
data().IvarList = layout[0].Ivar; Ix++;
curIvar = data().IvarList;
}
for ( ; Ix != EIx; curIvar = layout[Ix].Ivar, Ix++)
curIvar->setNextIvar(layout[Ix].Ivar);
}
}
}
return data().IvarList;
}
/// FindCategoryDeclaration - Finds category declaration in the list of
/// categories for this class and returns it. Name of the category is passed
/// in 'CategoryId'. If category not found, return 0;
///
ObjCCategoryDecl *
ObjCInterfaceDecl::FindCategoryDeclaration(IdentifierInfo *CategoryId) const {
// FIXME: Should make sure no callers ever do this.
if (!hasDefinition())
return nullptr;
if (data().ExternallyCompleted)
LoadExternalDefinition();
for (auto *Cat : visible_categories())
if (Cat->getIdentifier() == CategoryId)
return Cat;
return nullptr;
}
ObjCMethodDecl *
ObjCInterfaceDecl::getCategoryInstanceMethod(Selector Sel) const {
for (const auto *Cat : visible_categories()) {
if (ObjCCategoryImplDecl *Impl = Cat->getImplementation())
if (ObjCMethodDecl *MD = Impl->getInstanceMethod(Sel))
return MD;
}
return nullptr;
}
ObjCMethodDecl *ObjCInterfaceDecl::getCategoryClassMethod(Selector Sel) const {
for (const auto *Cat : visible_categories()) {
if (ObjCCategoryImplDecl *Impl = Cat->getImplementation())
if (ObjCMethodDecl *MD = Impl->getClassMethod(Sel))
return MD;
}
return nullptr;
}
/// ClassImplementsProtocol - Checks that 'lProto' protocol
/// has been implemented in IDecl class, its super class or categories (if
/// lookupCategory is true).
bool ObjCInterfaceDecl::ClassImplementsProtocol(ObjCProtocolDecl *lProto,
bool lookupCategory,
bool RHSIsQualifiedID) {
if (!hasDefinition())
return false;
ObjCInterfaceDecl *IDecl = this;
// 1st, look up the class.
for (auto *PI : IDecl->protocols()){
if (getASTContext().ProtocolCompatibleWithProtocol(lProto, PI))
return true;
// This is dubious and is added to be compatible with gcc. In gcc, it is
// also allowed assigning a protocol-qualified 'id' type to a LHS object
// when protocol in qualified LHS is in list of protocols in the rhs 'id'
// object. This IMO, should be a bug.
// FIXME: Treat this as an extension, and flag this as an error when GCC
// extensions are not enabled.
if (RHSIsQualifiedID &&
getASTContext().ProtocolCompatibleWithProtocol(PI, lProto))
return true;
}
// 2nd, look up the category.
if (lookupCategory)
for (const auto *Cat : visible_categories()) {
for (auto *PI : Cat->protocols())
if (getASTContext().ProtocolCompatibleWithProtocol(lProto, PI))
return true;
}
// 3rd, look up the super class(s)
if (IDecl->getSuperClass())
return
IDecl->getSuperClass()->ClassImplementsProtocol(lProto, lookupCategory,
RHSIsQualifiedID);
return false;
}
//===----------------------------------------------------------------------===//
// ObjCIvarDecl
//===----------------------------------------------------------------------===//
void ObjCIvarDecl::anchor() {}
ObjCIvarDecl *ObjCIvarDecl::Create(ASTContext &C, ObjCContainerDecl *DC,
SourceLocation StartLoc,
SourceLocation IdLoc, IdentifierInfo *Id,
QualType T, TypeSourceInfo *TInfo,
AccessControl ac, Expr *BW,
bool synthesized) {
if (DC) {
// Ivar's can only appear in interfaces, implementations (via synthesized
// properties), and class extensions (via direct declaration, or synthesized
// properties).
//
// FIXME: This should really be asserting this:
// (isa<ObjCCategoryDecl>(DC) &&
// cast<ObjCCategoryDecl>(DC)->IsClassExtension()))
// but unfortunately we sometimes place ivars into non-class extension
// categories on error. This breaks an AST invariant, and should not be
// fixed.
assert((isa<ObjCInterfaceDecl>(DC) || isa<ObjCImplementationDecl>(DC) ||
isa<ObjCCategoryDecl>(DC)) &&
"Invalid ivar decl context!");
// Once a new ivar is created in any of class/class-extension/implementation
// decl contexts, the previously built IvarList must be rebuilt.
auto *ID = dyn_cast<ObjCInterfaceDecl>(DC);
if (!ID) {
if (auto *IM = dyn_cast<ObjCImplementationDecl>(DC))
ID = IM->getClassInterface();
else
ID = cast<ObjCCategoryDecl>(DC)->getClassInterface();
}
ID->setIvarList(nullptr);
}
return new (C, DC) ObjCIvarDecl(DC, StartLoc, IdLoc, Id, T, TInfo, ac, BW,
synthesized);
}
ObjCIvarDecl *ObjCIvarDecl::CreateDeserialized(ASTContext &C, unsigned ID) {
return new (C, ID) ObjCIvarDecl(nullptr, SourceLocation(), SourceLocation(),
nullptr, QualType(), nullptr,
ObjCIvarDecl::None, nullptr, false);
}
const ObjCInterfaceDecl *ObjCIvarDecl::getContainingInterface() const {
const auto *DC = cast<ObjCContainerDecl>(getDeclContext());
switch (DC->getKind()) {
default:
case ObjCCategoryImpl:
case ObjCProtocol:
llvm_unreachable("invalid ivar container!");
// Ivars can only appear in class extension categories.
case ObjCCategory: {
const auto *CD = cast<ObjCCategoryDecl>(DC);
assert(CD->IsClassExtension() && "invalid container for ivar!");
return CD->getClassInterface();
}
case ObjCImplementation:
return cast<ObjCImplementationDecl>(DC)->getClassInterface();
case ObjCInterface:
return cast<ObjCInterfaceDecl>(DC);
}
}
QualType ObjCIvarDecl::getUsageType(QualType objectType) const {
return getType().substObjCMemberType(objectType, getDeclContext(),
ObjCSubstitutionContext::Property);
}
//===----------------------------------------------------------------------===//
// ObjCAtDefsFieldDecl
//===----------------------------------------------------------------------===//
void ObjCAtDefsFieldDecl::anchor() {}
ObjCAtDefsFieldDecl
*ObjCAtDefsFieldDecl::Create(ASTContext &C, DeclContext *DC,
SourceLocation StartLoc, SourceLocation IdLoc,
IdentifierInfo *Id, QualType T, Expr *BW) {
return new (C, DC) ObjCAtDefsFieldDecl(DC, StartLoc, IdLoc, Id, T, BW);
}
ObjCAtDefsFieldDecl *ObjCAtDefsFieldDecl::CreateDeserialized(ASTContext &C,
unsigned ID) {
return new (C, ID) ObjCAtDefsFieldDecl(nullptr, SourceLocation(),
SourceLocation(), nullptr, QualType(),
nullptr);
}
//===----------------------------------------------------------------------===//
// ObjCProtocolDecl
//===----------------------------------------------------------------------===//
void ObjCProtocolDecl::anchor() {}
ObjCProtocolDecl::ObjCProtocolDecl(ASTContext &C, DeclContext *DC,
IdentifierInfo *Id, SourceLocation nameLoc,
SourceLocation atStartLoc,
ObjCProtocolDecl *PrevDecl)
: ObjCContainerDecl(ObjCProtocol, DC, Id, nameLoc, atStartLoc),
redeclarable_base(C) {
setPreviousDecl(PrevDecl);
if (PrevDecl)
Data = PrevDecl->Data;
}
ObjCProtocolDecl *ObjCProtocolDecl::Create(ASTContext &C, DeclContext *DC,
IdentifierInfo *Id,
SourceLocation nameLoc,
SourceLocation atStartLoc,
ObjCProtocolDecl *PrevDecl) {
auto *Result =
new (C, DC) ObjCProtocolDecl(C, DC, Id, nameLoc, atStartLoc, PrevDecl);
Result->Data.setInt(!C.getLangOpts().Modules);
return Result;
}
ObjCProtocolDecl *ObjCProtocolDecl::CreateDeserialized(ASTContext &C,
unsigned ID) {
ObjCProtocolDecl *Result =
new (C, ID) ObjCProtocolDecl(C, nullptr, nullptr, SourceLocation(),
SourceLocation(), nullptr);
Result->Data.setInt(!C.getLangOpts().Modules);
return Result;
}
bool ObjCProtocolDecl::isNonRuntimeProtocol() const {
return hasAttr<ObjCNonRuntimeProtocolAttr>();
}
void ObjCProtocolDecl::getImpliedProtocols(
llvm::DenseSet<const ObjCProtocolDecl *> &IPs) const {
std::queue<const ObjCProtocolDecl *> WorkQueue;
WorkQueue.push(this);
while (!WorkQueue.empty()) {
const auto *PD = WorkQueue.front();
WorkQueue.pop();
for (const auto *Parent : PD->protocols()) {
const auto *Can = Parent->getCanonicalDecl();
auto Result = IPs.insert(Can);
if (Result.second)
WorkQueue.push(Parent);
}
}
}
ObjCProtocolDecl *ObjCProtocolDecl::lookupProtocolNamed(IdentifierInfo *Name) {
ObjCProtocolDecl *PDecl = this;
if (Name == getIdentifier())
return PDecl;
for (auto *I : protocols())
if ((PDecl = I->lookupProtocolNamed(Name)))
return PDecl;
return nullptr;
}
// lookupMethod - Lookup a instance/class method in the protocol and protocols
// it inherited.
ObjCMethodDecl *ObjCProtocolDecl::lookupMethod(Selector Sel,
bool isInstance) const {
ObjCMethodDecl *MethodDecl = nullptr;
// If there is no definition or the definition is hidden, we don't find
// anything.
const ObjCProtocolDecl *Def = getDefinition();
if (!Def || !Def->isUnconditionallyVisible())
return nullptr;
if ((MethodDecl = getMethod(Sel, isInstance)))
return MethodDecl;
for (const auto *I : protocols())
if ((MethodDecl = I->lookupMethod(Sel, isInstance)))
return MethodDecl;
return nullptr;
}
void ObjCProtocolDecl::allocateDefinitionData() {
assert(!Data.getPointer() && "Protocol already has a definition!");
Data.setPointer(new (getASTContext()) DefinitionData);
Data.getPointer()->Definition = this;
}
void ObjCProtocolDecl::startDefinition() {
allocateDefinitionData();
// Update all of the declarations with a pointer to the definition.
for (auto *RD : redecls())
RD->Data = this->Data;
}
void ObjCProtocolDecl::collectPropertiesToImplement(PropertyMap &PM,
PropertyDeclOrder &PO) const {
if (const ObjCProtocolDecl *PDecl = getDefinition()) {
for (auto *Prop : PDecl->properties()) {
// Insert into PM if not there already.
PM.insert(std::make_pair(
std::make_pair(Prop->getIdentifier(), Prop->isClassProperty()),
Prop));
PO.push_back(Prop);
}
// Scan through protocol's protocols.
for (const auto *PI : PDecl->protocols())
PI->collectPropertiesToImplement(PM, PO);
}
}
void ObjCProtocolDecl::collectInheritedProtocolProperties(
const ObjCPropertyDecl *Property, ProtocolPropertySet &PS,
PropertyDeclOrder &PO) const {
if (const ObjCProtocolDecl *PDecl = getDefinition()) {
if (!PS.insert(PDecl).second)
return;
for (auto *Prop : PDecl->properties()) {
if (Prop == Property)
continue;
if (Prop->getIdentifier() == Property->getIdentifier()) {
PO.push_back(Prop);
return;
}
}
// Scan through protocol's protocols which did not have a matching property.
for (const auto *PI : PDecl->protocols())
PI->collectInheritedProtocolProperties(Property, PS, PO);
}
}
StringRef
ObjCProtocolDecl::getObjCRuntimeNameAsString() const {
if (const auto *ObjCRTName = getAttr<ObjCRuntimeNameAttr>())
return ObjCRTName->getMetadataName();
return getName();
}
//===----------------------------------------------------------------------===//
// ObjCCategoryDecl
//===----------------------------------------------------------------------===//
void ObjCCategoryDecl::anchor() {}
ObjCCategoryDecl::ObjCCategoryDecl(DeclContext *DC, SourceLocation AtLoc,
SourceLocation ClassNameLoc,
SourceLocation CategoryNameLoc,
IdentifierInfo *Id, ObjCInterfaceDecl *IDecl,
ObjCTypeParamList *typeParamList,
SourceLocation IvarLBraceLoc,
SourceLocation IvarRBraceLoc)
: ObjCContainerDecl(ObjCCategory, DC, Id, ClassNameLoc, AtLoc),
ClassInterface(IDecl), CategoryNameLoc(CategoryNameLoc),
IvarLBraceLoc(IvarLBraceLoc), IvarRBraceLoc(IvarRBraceLoc) {
setTypeParamList(typeParamList);
}
ObjCCategoryDecl *ObjCCategoryDecl::Create(ASTContext &C, DeclContext *DC,
SourceLocation AtLoc,
SourceLocation ClassNameLoc,
SourceLocation CategoryNameLoc,
IdentifierInfo *Id,
ObjCInterfaceDecl *IDecl,
ObjCTypeParamList *typeParamList,
SourceLocation IvarLBraceLoc,
SourceLocation IvarRBraceLoc) {
auto *CatDecl =
new (C, DC) ObjCCategoryDecl(DC, AtLoc, ClassNameLoc, CategoryNameLoc, Id,
IDecl, typeParamList, IvarLBraceLoc,
IvarRBraceLoc);
if (IDecl) {
// Link this category into its class's category list.
CatDecl->NextClassCategory = IDecl->getCategoryListRaw();
if (IDecl->hasDefinition()) {
IDecl->setCategoryListRaw(CatDecl);
if (ASTMutationListener *L = C.getASTMutationListener())
L->AddedObjCCategoryToInterface(CatDecl, IDecl);
}
}
return CatDecl;
}
ObjCCategoryDecl *ObjCCategoryDecl::CreateDeserialized(ASTContext &C,
unsigned ID) {
return new (C, ID) ObjCCategoryDecl(nullptr, SourceLocation(),
SourceLocation(), SourceLocation(),
nullptr, nullptr, nullptr);
}
ObjCCategoryImplDecl *ObjCCategoryDecl::getImplementation() const {
return getASTContext().getObjCImplementation(
const_cast<ObjCCategoryDecl*>(this));
}
void ObjCCategoryDecl::setImplementation(ObjCCategoryImplDecl *ImplD) {
getASTContext().setObjCImplementation(this, ImplD);
}
void ObjCCategoryDecl::setTypeParamList(ObjCTypeParamList *TPL) {
TypeParamList = TPL;
if (!TPL)
return;
// Set the declaration context of each of the type parameters.
for (auto *typeParam : *TypeParamList)
typeParam->setDeclContext(this);
}
//===----------------------------------------------------------------------===//
// ObjCCategoryImplDecl
//===----------------------------------------------------------------------===//
void ObjCCategoryImplDecl::anchor() {}
ObjCCategoryImplDecl *
ObjCCategoryImplDecl::Create(ASTContext &C, DeclContext *DC,
IdentifierInfo *Id,
ObjCInterfaceDecl *ClassInterface,
SourceLocation nameLoc,
SourceLocation atStartLoc,
SourceLocation CategoryNameLoc) {
if (ClassInterface && ClassInterface->hasDefinition())
ClassInterface = ClassInterface->getDefinition();
return new (C, DC) ObjCCategoryImplDecl(DC, Id, ClassInterface, nameLoc,
atStartLoc, CategoryNameLoc);
}
ObjCCategoryImplDecl *ObjCCategoryImplDecl::CreateDeserialized(ASTContext &C,
unsigned ID) {
return new (C, ID) ObjCCategoryImplDecl(nullptr, nullptr, nullptr,
SourceLocation(), SourceLocation(),
SourceLocation());
}
ObjCCategoryDecl *ObjCCategoryImplDecl::getCategoryDecl() const {
// The class interface might be NULL if we are working with invalid code.
if (const ObjCInterfaceDecl *ID = getClassInterface())
return ID->FindCategoryDeclaration(getIdentifier());
return nullptr;
}
void ObjCImplDecl::anchor() {}
void ObjCImplDecl::addPropertyImplementation(ObjCPropertyImplDecl *property) {
// FIXME: The context should be correct before we get here.
property->setLexicalDeclContext(this);
addDecl(property);
}
void ObjCImplDecl::setClassInterface(ObjCInterfaceDecl *IFace) {
ASTContext &Ctx = getASTContext();
if (auto *ImplD = dyn_cast_or_null<ObjCImplementationDecl>(this)) {
if (IFace)
Ctx.setObjCImplementation(IFace, ImplD);
} else if (auto *ImplD = dyn_cast_or_null<ObjCCategoryImplDecl>(this)) {
if (ObjCCategoryDecl *CD = IFace->FindCategoryDeclaration(getIdentifier()))
Ctx.setObjCImplementation(CD, ImplD);
}
ClassInterface = IFace;
}
/// FindPropertyImplIvarDecl - This method lookup the ivar in the list of
/// properties implemented in this \@implementation block and returns
/// the implemented property that uses it.
ObjCPropertyImplDecl *ObjCImplDecl::
FindPropertyImplIvarDecl(IdentifierInfo *ivarId) const {
for (auto *PID : property_impls())
if (PID->getPropertyIvarDecl() &&
PID->getPropertyIvarDecl()->getIdentifier() == ivarId)
return PID;
return nullptr;
}
/// FindPropertyImplDecl - This method looks up a previous ObjCPropertyImplDecl
/// added to the list of those properties \@synthesized/\@dynamic in this
/// category \@implementation block.
ObjCPropertyImplDecl *ObjCImplDecl::
FindPropertyImplDecl(IdentifierInfo *Id,
ObjCPropertyQueryKind QueryKind) const {
ObjCPropertyImplDecl *ClassPropImpl = nullptr;
for (auto *PID : property_impls())
// If queryKind is unknown, we return the instance property if one
// exists; otherwise we return the class property.
if (PID->getPropertyDecl()->getIdentifier() == Id) {
if ((QueryKind == ObjCPropertyQueryKind::OBJC_PR_query_unknown &&
!PID->getPropertyDecl()->isClassProperty()) ||
(QueryKind == ObjCPropertyQueryKind::OBJC_PR_query_class &&
PID->getPropertyDecl()->isClassProperty()) ||
(QueryKind == ObjCPropertyQueryKind::OBJC_PR_query_instance &&
!PID->getPropertyDecl()->isClassProperty()))
return PID;
if (PID->getPropertyDecl()->isClassProperty())
ClassPropImpl = PID;
}
if (QueryKind == ObjCPropertyQueryKind::OBJC_PR_query_unknown)
// We can't find the instance property, return the class property.
return ClassPropImpl;
return nullptr;
}
raw_ostream &clang::operator<<(raw_ostream &OS,
const ObjCCategoryImplDecl &CID) {
OS << CID.getName();
return OS;
}
//===----------------------------------------------------------------------===//
// ObjCImplementationDecl
//===----------------------------------------------------------------------===//
void ObjCImplementationDecl::anchor() {}
ObjCImplementationDecl *
ObjCImplementationDecl::Create(ASTContext &C, DeclContext *DC,
ObjCInterfaceDecl *ClassInterface,
ObjCInterfaceDecl *SuperDecl,
SourceLocation nameLoc,
SourceLocation atStartLoc,
SourceLocation superLoc,
SourceLocation IvarLBraceLoc,
SourceLocation IvarRBraceLoc) {
if (ClassInterface && ClassInterface->hasDefinition())
ClassInterface = ClassInterface->getDefinition();
return new (C, DC) ObjCImplementationDecl(DC, ClassInterface, SuperDecl,
nameLoc, atStartLoc, superLoc,
IvarLBraceLoc, IvarRBraceLoc);
}
ObjCImplementationDecl *
ObjCImplementationDecl::CreateDeserialized(ASTContext &C, unsigned ID) {
return new (C, ID) ObjCImplementationDecl(nullptr, nullptr, nullptr,
SourceLocation(), SourceLocation());
}
void ObjCImplementationDecl::setIvarInitializers(ASTContext &C,
CXXCtorInitializer ** initializers,
unsigned numInitializers) {
if (numInitializers > 0) {
NumIvarInitializers = numInitializers;
auto **ivarInitializers = new (C) CXXCtorInitializer*[NumIvarInitializers];
memcpy(ivarInitializers, initializers,
numInitializers * sizeof(CXXCtorInitializer*));
IvarInitializers = ivarInitializers;
}
}
ObjCImplementationDecl::init_const_iterator
ObjCImplementationDecl::init_begin() const {
return IvarInitializers.get(getASTContext().getExternalSource());
}
raw_ostream &clang::operator<<(raw_ostream &OS,
const ObjCImplementationDecl &ID) {
OS << ID.getName();
return OS;
}
//===----------------------------------------------------------------------===//
// ObjCCompatibleAliasDecl
//===----------------------------------------------------------------------===//
void ObjCCompatibleAliasDecl::anchor() {}
ObjCCompatibleAliasDecl *
ObjCCompatibleAliasDecl::Create(ASTContext &C, DeclContext *DC,
SourceLocation L,
IdentifierInfo *Id,
ObjCInterfaceDecl* AliasedClass) {
return new (C, DC) ObjCCompatibleAliasDecl(DC, L, Id, AliasedClass);
}
ObjCCompatibleAliasDecl *
ObjCCompatibleAliasDecl::CreateDeserialized(ASTContext &C, unsigned ID) {
return new (C, ID) ObjCCompatibleAliasDecl(nullptr, SourceLocation(),
nullptr, nullptr);
}
//===----------------------------------------------------------------------===//
// ObjCPropertyDecl
//===----------------------------------------------------------------------===//
void ObjCPropertyDecl::anchor() {}
ObjCPropertyDecl *ObjCPropertyDecl::Create(ASTContext &C, DeclContext *DC,
SourceLocation L,
IdentifierInfo *Id,
SourceLocation AtLoc,
SourceLocation LParenLoc,
QualType T,
TypeSourceInfo *TSI,
PropertyControl propControl) {
return new (C, DC) ObjCPropertyDecl(DC, L, Id, AtLoc, LParenLoc, T, TSI,
propControl);
}
ObjCPropertyDecl *ObjCPropertyDecl::CreateDeserialized(ASTContext &C,
unsigned ID) {
return new (C, ID) ObjCPropertyDecl(nullptr, SourceLocation(), nullptr,
SourceLocation(), SourceLocation(),
QualType(), nullptr, None);
}
QualType ObjCPropertyDecl::getUsageType(QualType objectType) const {
return DeclType.substObjCMemberType(objectType, getDeclContext(),
ObjCSubstitutionContext::Property);
}
//===----------------------------------------------------------------------===//
// ObjCPropertyImplDecl
//===----------------------------------------------------------------------===//
ObjCPropertyImplDecl *ObjCPropertyImplDecl::Create(ASTContext &C,
DeclContext *DC,
SourceLocation atLoc,
SourceLocation L,
ObjCPropertyDecl *property,
Kind PK,
ObjCIvarDecl *ivar,
SourceLocation ivarLoc) {
return new (C, DC) ObjCPropertyImplDecl(DC, atLoc, L, property, PK, ivar,
ivarLoc);
}
ObjCPropertyImplDecl *ObjCPropertyImplDecl::CreateDeserialized(ASTContext &C,
unsigned ID) {
return new (C, ID) ObjCPropertyImplDecl(nullptr, SourceLocation(),
SourceLocation(), nullptr, Dynamic,
nullptr, SourceLocation());
}
SourceRange ObjCPropertyImplDecl::getSourceRange() const {
SourceLocation EndLoc = getLocation();
if (IvarLoc.isValid())
EndLoc = IvarLoc;
return SourceRange(AtLoc, EndLoc);
}