llvm-project/clang/lib/AST/DeclBase.cpp

710 lines
21 KiB
C++

//===--- DeclBase.cpp - Declaration AST Node Implementation ---------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements the Decl and DeclContext classes.
//
//===----------------------------------------------------------------------===//
#include "clang/AST/DeclBase.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclContextInternals.h"
#include "clang/AST/DeclCXX.h"
#include "clang/AST/DeclObjC.h"
#include "clang/AST/DeclTemplate.h"
#include "clang/AST/ExternalASTSource.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Type.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cstdio>
#include <vector>
using namespace clang;
//===----------------------------------------------------------------------===//
// Statistics
//===----------------------------------------------------------------------===//
#define DECL(Derived, Base) static int n##Derived##s = 0;
#include "clang/AST/DeclNodes.def"
static bool StatSwitch = false;
// This keeps track of all decl attributes. Since so few decls have attrs, we
// keep them in a hash map instead of wasting space in the Decl class.
typedef llvm::DenseMap<const Decl*, Attr*> DeclAttrMapTy;
static DeclAttrMapTy *DeclAttrs = 0;
const char *Decl::getDeclKindName() const {
switch (DeclKind) {
default: assert(0 && "Declaration not in DeclNodes.def!");
#define DECL(Derived, Base) case Derived: return #Derived;
#include "clang/AST/DeclNodes.def"
}
}
const char *DeclContext::getDeclKindName() const {
switch (DeclKind) {
default: assert(0 && "Declaration context not in DeclNodes.def!");
#define DECL(Derived, Base) case Decl::Derived: return #Derived;
#include "clang/AST/DeclNodes.def"
}
}
bool Decl::CollectingStats(bool Enable) {
if (Enable)
StatSwitch = true;
return StatSwitch;
}
void Decl::PrintStats() {
fprintf(stderr, "*** Decl Stats:\n");
int totalDecls = 0;
#define DECL(Derived, Base) totalDecls += n##Derived##s;
#include "clang/AST/DeclNodes.def"
fprintf(stderr, " %d decls total.\n", totalDecls);
int totalBytes = 0;
#define DECL(Derived, Base) \
if (n##Derived##s > 0) { \
totalBytes += (int)(n##Derived##s * sizeof(Derived##Decl)); \
fprintf(stderr, " %d " #Derived " decls, %d each (%d bytes)\n", \
n##Derived##s, (int)sizeof(Derived##Decl), \
(int)(n##Derived##s * sizeof(Derived##Decl))); \
}
#include "clang/AST/DeclNodes.def"
fprintf(stderr, "Total bytes = %d\n", totalBytes);
}
void Decl::addDeclKind(Kind k) {
switch (k) {
default: assert(0 && "Declaration not in DeclNodes.def!");
#define DECL(Derived, Base) case Derived: ++n##Derived##s; break;
#include "clang/AST/DeclNodes.def"
}
}
//===----------------------------------------------------------------------===//
// PrettyStackTraceDecl Implementation
//===----------------------------------------------------------------------===//
void PrettyStackTraceDecl::print(llvm::raw_ostream &OS) const {
SourceLocation TheLoc = Loc;
if (TheLoc.isInvalid() && TheDecl)
TheLoc = TheDecl->getLocation();
if (TheLoc.isValid()) {
TheLoc.print(OS, SM);
OS << ": ";
}
OS << Message;
if (NamedDecl *DN = dyn_cast_or_null<NamedDecl>(TheDecl))
OS << " '" << DN->getQualifiedNameAsString() << '\'';
OS << '\n';
}
//===----------------------------------------------------------------------===//
// Decl Implementation
//===----------------------------------------------------------------------===//
// Out-of-line virtual method providing a home for Decl.
Decl::~Decl() {
if (isOutOfSemaDC())
delete getMultipleDC();
assert(!HasAttrs && "attributes should have been freed by Destroy");
}
void Decl::setDeclContext(DeclContext *DC) {
if (isOutOfSemaDC())
delete getMultipleDC();
DeclCtx = DC;
}
void Decl::setLexicalDeclContext(DeclContext *DC) {
if (DC == getLexicalDeclContext())
return;
if (isInSemaDC()) {
MultipleDC *MDC = new MultipleDC();
MDC->SemanticDC = getDeclContext();
MDC->LexicalDC = DC;
DeclCtx = MDC;
} else {
getMultipleDC()->LexicalDC = DC;
}
}
unsigned Decl::getIdentifierNamespaceForKind(Kind DeclKind) {
switch (DeclKind) {
default:
if (DeclKind >= FunctionFirst && DeclKind <= FunctionLast)
return IDNS_Ordinary;
assert(0 && "Unknown decl kind!");
case OverloadedFunction:
case Typedef:
case EnumConstant:
case Var:
case ImplicitParam:
case ParmVar:
case OriginalParmVar:
case NonTypeTemplateParm:
case ObjCMethod:
case ObjCContainer:
case ObjCCategory:
case ObjCInterface:
case ObjCCategoryImpl:
case ObjCProperty:
case ObjCCompatibleAlias:
return IDNS_Ordinary;
case ObjCProtocol:
return IDNS_Protocol;
case Field:
case ObjCAtDefsField:
case ObjCIvar:
return IDNS_Member;
case Record:
case CXXRecord:
case Enum:
case TemplateTypeParm:
return IDNS_Tag;
case Namespace:
case Template:
case FunctionTemplate:
case ClassTemplate:
case TemplateTemplateParm:
case NamespaceAlias:
return IDNS_Tag | IDNS_Ordinary;
// Never have names.
case LinkageSpec:
case FileScopeAsm:
case StaticAssert:
case ObjCClass:
case ObjCImplementation:
case ObjCPropertyImpl:
case ObjCForwardProtocol:
case Block:
case TranslationUnit:
// Aren't looked up?
case UsingDirective:
case ClassTemplateSpecialization:
return 0;
}
}
void Decl::addAttr(Attr *NewAttr) {
if (!DeclAttrs)
DeclAttrs = new DeclAttrMapTy();
Attr *&ExistingAttr = (*DeclAttrs)[this];
NewAttr->setNext(ExistingAttr);
ExistingAttr = NewAttr;
HasAttrs = true;
}
void Decl::invalidateAttrs() {
if (!HasAttrs) return;
HasAttrs = false;
(*DeclAttrs)[this] = 0;
DeclAttrs->erase(this);
if (DeclAttrs->empty()) {
delete DeclAttrs;
DeclAttrs = 0;
}
}
const Attr *Decl::getAttrsImpl() const {
assert(HasAttrs && "getAttrs() should verify this!");
return (*DeclAttrs)[this];
}
void Decl::swapAttrs(Decl *RHS) {
bool HasLHSAttr = this->HasAttrs;
bool HasRHSAttr = RHS->HasAttrs;
// Usually, neither decl has attrs, nothing to do.
if (!HasLHSAttr && !HasRHSAttr) return;
// If 'this' has no attrs, swap the other way.
if (!HasLHSAttr)
return RHS->swapAttrs(this);
// Handle the case when both decls have attrs.
if (HasRHSAttr) {
std::swap((*DeclAttrs)[this], (*DeclAttrs)[RHS]);
return;
}
// Otherwise, LHS has an attr and RHS doesn't.
(*DeclAttrs)[RHS] = (*DeclAttrs)[this];
(*DeclAttrs).erase(this);
this->HasAttrs = false;
RHS->HasAttrs = true;
}
void Decl::Destroy(ASTContext &C) {
// Free attributes for this decl.
if (HasAttrs) {
DeclAttrMapTy::iterator it = DeclAttrs->find(this);
assert(it != DeclAttrs->end() && "No attrs found but HasAttrs is true!");
// release attributes.
it->second->Destroy(C);
invalidateAttrs();
HasAttrs = false;
}
#if 0
// FIXME: Once ownership is fully understood, we can enable this code
if (DeclContext *DC = dyn_cast<DeclContext>(this))
DC->decls_begin()->Destroy(C);
// Observe the unrolled recursion. By setting N->NextDeclInContext = 0x0
// within the loop, only the Destroy method for the first Decl
// will deallocate all of the Decls in a chain.
Decl* N = getNextDeclInContext();
while (N) {
Decl* Tmp = N->getNextDeclInContext();
N->NextDeclInContext = 0;
N->Destroy(C);
N = Tmp;
}
this->~Decl();
C.Deallocate((void *)this);
#endif
}
Decl *Decl::castFromDeclContext (const DeclContext *D) {
Decl::Kind DK = D->getDeclKind();
switch(DK) {
#define DECL_CONTEXT(Name) \
case Decl::Name: \
return static_cast<Name##Decl*>(const_cast<DeclContext*>(D));
#define DECL_CONTEXT_BASE(Name)
#include "clang/AST/DeclNodes.def"
default:
#define DECL_CONTEXT_BASE(Name) \
if (DK >= Decl::Name##First && DK <= Decl::Name##Last) \
return static_cast<Name##Decl*>(const_cast<DeclContext*>(D));
#include "clang/AST/DeclNodes.def"
assert(false && "a decl that inherits DeclContext isn't handled");
return 0;
}
}
DeclContext *Decl::castToDeclContext(const Decl *D) {
Decl::Kind DK = D->getKind();
switch(DK) {
#define DECL_CONTEXT(Name) \
case Decl::Name: \
return static_cast<Name##Decl*>(const_cast<Decl*>(D));
#define DECL_CONTEXT_BASE(Name)
#include "clang/AST/DeclNodes.def"
default:
#define DECL_CONTEXT_BASE(Name) \
if (DK >= Decl::Name##First && DK <= Decl::Name##Last) \
return static_cast<Name##Decl*>(const_cast<Decl*>(D));
#include "clang/AST/DeclNodes.def"
assert(false && "a decl that inherits DeclContext isn't handled");
return 0;
}
}
#ifndef NDEBUG
void Decl::CheckAccessDeclContext() const {
assert((Access != AS_none || isa<TranslationUnitDecl>(this) ||
!isa<CXXRecordDecl>(getDeclContext())) &&
"Access specifier is AS_none inside a record decl");
}
#endif
//===----------------------------------------------------------------------===//
// DeclContext Implementation
//===----------------------------------------------------------------------===//
bool DeclContext::classof(const Decl *D) {
switch (D->getKind()) {
#define DECL_CONTEXT(Name) case Decl::Name:
#define DECL_CONTEXT_BASE(Name)
#include "clang/AST/DeclNodes.def"
return true;
default:
#define DECL_CONTEXT_BASE(Name) \
if (D->getKind() >= Decl::Name##First && \
D->getKind() <= Decl::Name##Last) \
return true;
#include "clang/AST/DeclNodes.def"
return false;
}
}
DeclContext::~DeclContext() {
delete static_cast<StoredDeclsMap*>(LookupPtr);
}
void DeclContext::DestroyDecls(ASTContext &C) {
for (decl_iterator D = decls_begin(C); D != decls_end(C); )
(*D++)->Destroy(C);
}
bool DeclContext::isTransparentContext() const {
if (DeclKind == Decl::Enum)
return true; // FIXME: Check for C++0x scoped enums
else if (DeclKind == Decl::LinkageSpec)
return true;
else if (DeclKind >= Decl::RecordFirst && DeclKind <= Decl::RecordLast)
return cast<RecordDecl>(this)->isAnonymousStructOrUnion();
else if (DeclKind == Decl::Namespace)
return false; // FIXME: Check for C++0x inline namespaces
return false;
}
DeclContext *DeclContext::getPrimaryContext() {
switch (DeclKind) {
case Decl::TranslationUnit:
case Decl::LinkageSpec:
case Decl::Block:
// There is only one DeclContext for these entities.
return this;
case Decl::Namespace:
// The original namespace is our primary context.
return static_cast<NamespaceDecl*>(this)->getOriginalNamespace();
case Decl::ObjCMethod:
return this;
case Decl::ObjCInterface:
case Decl::ObjCProtocol:
case Decl::ObjCCategory:
// FIXME: Can Objective-C interfaces be forward-declared?
return this;
case Decl::ObjCImplementation:
case Decl::ObjCCategoryImpl:
return this;
default:
if (DeclKind >= Decl::TagFirst && DeclKind <= Decl::TagLast) {
// If this is a tag type that has a definition or is currently
// being defined, that definition is our primary context.
if (const TagType *TagT =cast<TagDecl>(this)->TypeForDecl->getAsTagType())
if (TagT->isBeingDefined() ||
(TagT->getDecl() && TagT->getDecl()->isDefinition()))
return TagT->getDecl();
return this;
}
assert(DeclKind >= Decl::FunctionFirst && DeclKind <= Decl::FunctionLast &&
"Unknown DeclContext kind");
return this;
}
}
DeclContext *DeclContext::getNextContext() {
switch (DeclKind) {
case Decl::Namespace:
// Return the next namespace
return static_cast<NamespaceDecl*>(this)->getNextNamespace();
default:
return 0;
}
}
/// \brief Load the declarations within this lexical storage from an
/// external source.
void
DeclContext::LoadLexicalDeclsFromExternalStorage(ASTContext &Context) const {
ExternalASTSource *Source = Context.getExternalSource();
assert(hasExternalLexicalStorage() && Source && "No external storage?");
llvm::SmallVector<unsigned, 64> Decls;
if (Source->ReadDeclsLexicallyInContext(const_cast<DeclContext *>(this),
Decls))
return;
// There is no longer any lexical storage in this context
ExternalLexicalStorage = false;
if (Decls.empty())
return;
// Resolve all of the declaration IDs into declarations, building up
// a chain of declarations via the Decl::NextDeclInContext field.
Decl *FirstNewDecl = 0;
Decl *PrevDecl = 0;
for (unsigned I = 0, N = Decls.size(); I != N; ++I) {
Decl *D = Source->GetDecl(Decls[I]);
if (PrevDecl)
PrevDecl->NextDeclInContext = D;
else
FirstNewDecl = D;
PrevDecl = D;
}
// Splice the newly-read declarations into the beginning of the list
// of declarations.
PrevDecl->NextDeclInContext = FirstDecl;
FirstDecl = FirstNewDecl;
if (!LastDecl)
LastDecl = PrevDecl;
}
void
DeclContext::LoadVisibleDeclsFromExternalStorage(ASTContext &Context) const {
DeclContext *This = const_cast<DeclContext *>(this);
ExternalASTSource *Source = Context.getExternalSource();
assert(hasExternalVisibleStorage() && Source && "No external storage?");
llvm::SmallVector<VisibleDeclaration, 64> Decls;
if (Source->ReadDeclsVisibleInContext(This, Decls))
return;
// There is no longer any visible storage in this context
ExternalVisibleStorage = false;
// Load the declaration IDs for all of the names visible in this
// context.
assert(!LookupPtr && "Have a lookup map before de-serialization?");
StoredDeclsMap *Map = new StoredDeclsMap;
LookupPtr = Map;
for (unsigned I = 0, N = Decls.size(); I != N; ++I) {
(*Map)[Decls[I].Name].setFromDeclIDs(Decls[I].Declarations);
}
}
DeclContext::decl_iterator DeclContext::decls_begin(ASTContext &Context) const {
if (hasExternalLexicalStorage())
LoadLexicalDeclsFromExternalStorage(Context);
// FIXME: Check whether we need to load some declarations from
// external storage.
return decl_iterator(FirstDecl);
}
DeclContext::decl_iterator DeclContext::decls_end(ASTContext &Context) const {
if (hasExternalLexicalStorage())
LoadLexicalDeclsFromExternalStorage(Context);
return decl_iterator();
}
void DeclContext::addDecl(ASTContext &Context, Decl *D) {
assert(D->getLexicalDeclContext() == this &&
"Decl inserted into wrong lexical context");
assert(!D->getNextDeclInContext() && D != LastDecl &&
"Decl already inserted into a DeclContext");
if (FirstDecl) {
LastDecl->NextDeclInContext = D;
LastDecl = D;
} else {
FirstDecl = LastDecl = D;
}
if (NamedDecl *ND = dyn_cast<NamedDecl>(D))
ND->getDeclContext()->makeDeclVisibleInContext(Context, ND);
}
/// buildLookup - Build the lookup data structure with all of the
/// declarations in DCtx (and any other contexts linked to it or
/// transparent contexts nested within it).
void DeclContext::buildLookup(ASTContext &Context, DeclContext *DCtx) {
for (; DCtx; DCtx = DCtx->getNextContext()) {
for (decl_iterator D = DCtx->decls_begin(Context),
DEnd = DCtx->decls_end(Context);
D != DEnd; ++D) {
// Insert this declaration into the lookup structure
if (NamedDecl *ND = dyn_cast<NamedDecl>(*D))
makeDeclVisibleInContextImpl(Context, ND);
// If this declaration is itself a transparent declaration context,
// add its members (recursively).
if (DeclContext *InnerCtx = dyn_cast<DeclContext>(*D))
if (InnerCtx->isTransparentContext())
buildLookup(Context, InnerCtx->getPrimaryContext());
}
}
}
DeclContext::lookup_result
DeclContext::lookup(ASTContext &Context, DeclarationName Name) {
DeclContext *PrimaryContext = getPrimaryContext();
if (PrimaryContext != this)
return PrimaryContext->lookup(Context, Name);
if (hasExternalVisibleStorage())
LoadVisibleDeclsFromExternalStorage(Context);
/// If there is no lookup data structure, build one now by walking
/// all of the linked DeclContexts (in declaration order!) and
/// inserting their values.
if (!LookupPtr) {
buildLookup(Context, this);
if (!LookupPtr)
return lookup_result(0, 0);
}
StoredDeclsMap *Map = static_cast<StoredDeclsMap*>(LookupPtr);
StoredDeclsMap::iterator Pos = Map->find(Name);
if (Pos == Map->end())
return lookup_result(0, 0);
return Pos->second.getLookupResult(Context);
}
DeclContext::lookup_const_result
DeclContext::lookup(ASTContext &Context, DeclarationName Name) const {
return const_cast<DeclContext*>(this)->lookup(Context, Name);
}
DeclContext *DeclContext::getLookupContext() {
DeclContext *Ctx = this;
// Skip through transparent contexts.
while (Ctx->isTransparentContext())
Ctx = Ctx->getParent();
return Ctx;
}
DeclContext *DeclContext::getEnclosingNamespaceContext() {
DeclContext *Ctx = this;
// Skip through non-namespace, non-translation-unit contexts.
while (!Ctx->isFileContext() || Ctx->isTransparentContext())
Ctx = Ctx->getParent();
return Ctx->getPrimaryContext();
}
void DeclContext::makeDeclVisibleInContext(ASTContext &Context, NamedDecl *D) {
// FIXME: This feels like a hack. Should DeclarationName support
// template-ids, or is there a better way to keep specializations
// from being visible?
if (isa<ClassTemplateSpecializationDecl>(D))
return;
DeclContext *PrimaryContext = getPrimaryContext();
if (PrimaryContext != this) {
PrimaryContext->makeDeclVisibleInContext(Context, D);
return;
}
// If we already have a lookup data structure, perform the insertion
// into it. Otherwise, be lazy and don't build that structure until
// someone asks for it.
if (LookupPtr)
makeDeclVisibleInContextImpl(Context, D);
// If we are a transparent context, insert into our parent context,
// too. This operation is recursive.
if (isTransparentContext())
getParent()->makeDeclVisibleInContext(Context, D);
}
void DeclContext::makeDeclVisibleInContextImpl(ASTContext &Context,
NamedDecl *D) {
// Skip unnamed declarations.
if (!D->getDeclName())
return;
// FIXME: This feels like a hack. Should DeclarationName support
// template-ids, or is there a better way to keep specializations
// from being visible?
if (isa<ClassTemplateSpecializationDecl>(D))
return;
if (!LookupPtr)
LookupPtr = new StoredDeclsMap;
// Insert this declaration into the map.
StoredDeclsMap &Map = *static_cast<StoredDeclsMap*>(LookupPtr);
StoredDeclsList &DeclNameEntries = Map[D->getDeclName()];
if (DeclNameEntries.isNull()) {
DeclNameEntries.setOnlyValue(D);
return;
}
// If it is possible that this is a redeclaration, check to see if there is
// already a decl for which declarationReplaces returns true. If there is
// one, just replace it and return.
if (DeclNameEntries.HandleRedeclaration(Context, D))
return;
// Put this declaration into the appropriate slot.
DeclNameEntries.AddSubsequentDecl(D);
}
/// Returns iterator range [First, Last) of UsingDirectiveDecls stored within
/// this context.
DeclContext::udir_iterator_range
DeclContext::getUsingDirectives(ASTContext &Context) const {
lookup_const_result Result = lookup(Context, UsingDirectiveDecl::getName());
return udir_iterator_range(reinterpret_cast<udir_iterator>(Result.first),
reinterpret_cast<udir_iterator>(Result.second));
}
void StoredDeclsList::materializeDecls(ASTContext &Context) {
if (isNull())
return;
switch ((DataKind)(Data & 0x03)) {
case DK_Decl:
case DK_Decl_Vector:
break;
case DK_DeclID: {
// Resolve this declaration ID to an actual declaration by
// querying the external AST source.
unsigned DeclID = Data >> 2;
ExternalASTSource *Source = Context.getExternalSource();
assert(Source && "No external AST source available!");
Data = reinterpret_cast<uintptr_t>(Source->GetDecl(DeclID));
break;
}
case DK_ID_Vector: {
// We have a vector of declaration IDs. Resolve all of them to
// actual declarations.
VectorTy &Vector = *getAsVector();
ExternalASTSource *Source = Context.getExternalSource();
assert(Source && "No external AST source available!");
for (unsigned I = 0, N = Vector.size(); I != N; ++I)
Vector[I] = reinterpret_cast<uintptr_t>(Source->GetDecl(Vector[I]));
Data = (Data & ~0x03) | DK_Decl_Vector;
break;
}
}
}