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llvm-capstone/clang/lib/Sema/Scope.cpp
Akira Hatanaka 10aced824a [Parser] Clear the TemplateParamScope bit of the current scope's flag 
if we are parsing a template specialization.

This commit makes changes to clear the TemplateParamScope bit and set
the TemplateParamParent field of the current scope to null if a template
specialization is being parsed.

Before this commit, Sema::ActOnStartOfLambdaDefinition would check
whether the parent template scope had any decls to determine whether
or not a template specialization was being parsed. This wasn't correct
since it couldn't distinguish between a real template specialization and
a template defintion with an unnamed template parameter (only template
parameters with names are added to the scope's decl list). To fix the
bug, this commit changes the code to check the pointer to the parent
template scope rather than the decl list.

rdar://problem/23440346

Differential Revision: http://reviews.llvm.org/D19175

llvm-svn: 267975
2016-04-29 02:24:14 +00:00

229 lines
7.0 KiB
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//===- Scope.cpp - Lexical scope information --------------------*- C++ -*-===//
//
// 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 Scope class, which is used for recording
// information about a lexical scope.
//
//===----------------------------------------------------------------------===//
#include "clang/Sema/Scope.h"
#include "clang/AST/Decl.h"
#include "llvm/Support/raw_ostream.h"
using namespace clang;
void Scope::setFlags(Scope *parent, unsigned flags) {
AnyParent = parent;
Flags = flags;
if (parent && !(flags & FnScope)) {
BreakParent = parent->BreakParent;
ContinueParent = parent->ContinueParent;
} else {
// Control scopes do not contain the contents of nested function scopes for
// control flow purposes.
BreakParent = ContinueParent = nullptr;
}
if (parent) {
Depth = parent->Depth + 1;
PrototypeDepth = parent->PrototypeDepth;
PrototypeIndex = 0;
FnParent = parent->FnParent;
BlockParent = parent->BlockParent;
TemplateParamParent = parent->TemplateParamParent;
MSLastManglingParent = parent->MSLastManglingParent;
MSCurManglingNumber = getMSLastManglingNumber();
if ((Flags & (FnScope | ClassScope | BlockScope | TemplateParamScope |
FunctionPrototypeScope | AtCatchScope | ObjCMethodScope)) ==
0)
Flags |= parent->getFlags() & OpenMPSimdDirectiveScope;
} else {
Depth = 0;
PrototypeDepth = 0;
PrototypeIndex = 0;
MSLastManglingParent = FnParent = BlockParent = nullptr;
TemplateParamParent = nullptr;
MSLastManglingNumber = 1;
MSCurManglingNumber = 1;
}
// If this scope is a function or contains breaks/continues, remember it.
if (flags & FnScope) FnParent = this;
// The MS mangler uses the number of scopes that can hold declarations as
// part of an external name.
if (Flags & (ClassScope | FnScope)) {
MSLastManglingNumber = getMSLastManglingNumber();
MSLastManglingParent = this;
MSCurManglingNumber = 1;
}
if (flags & BreakScope) BreakParent = this;
if (flags & ContinueScope) ContinueParent = this;
if (flags & BlockScope) BlockParent = this;
if (flags & TemplateParamScope) TemplateParamParent = this;
// If this is a prototype scope, record that.
if (flags & FunctionPrototypeScope) PrototypeDepth++;
if (flags & DeclScope) {
if (flags & FunctionPrototypeScope)
; // Prototype scopes are uninteresting.
else if ((flags & ClassScope) && getParent()->isClassScope())
; // Nested class scopes aren't ambiguous.
else if ((flags & ClassScope) && getParent()->getFlags() == DeclScope)
; // Classes inside of namespaces aren't ambiguous.
else if ((flags & EnumScope))
; // Don't increment for enum scopes.
else
incrementMSManglingNumber();
}
}
void Scope::Init(Scope *parent, unsigned flags) {
setFlags(parent, flags);
DeclsInScope.clear();
UsingDirectives.clear();
Entity = nullptr;
ErrorTrap.reset();
NRVO.setPointerAndInt(nullptr, 0);
}
bool Scope::containedInPrototypeScope() const {
const Scope *S = this;
while (S) {
if (S->isFunctionPrototypeScope())
return true;
S = S->getParent();
}
return false;
}
void Scope::AddFlags(unsigned FlagsToSet) {
assert((FlagsToSet & ~(BreakScope | ContinueScope)) == 0 &&
"Unsupported scope flags");
if (FlagsToSet & BreakScope) {
assert((Flags & BreakScope) == 0 && "Already set");
BreakParent = this;
}
if (FlagsToSet & ContinueScope) {
assert((Flags & ContinueScope) == 0 && "Already set");
ContinueParent = this;
}
Flags |= FlagsToSet;
}
void Scope::mergeNRVOIntoParent() {
if (VarDecl *Candidate = NRVO.getPointer()) {
if (isDeclScope(Candidate))
Candidate->setNRVOVariable(true);
}
if (getEntity())
return;
if (NRVO.getInt())
getParent()->setNoNRVO();
else if (NRVO.getPointer())
getParent()->addNRVOCandidate(NRVO.getPointer());
}
LLVM_DUMP_METHOD void Scope::dump() const { dumpImpl(llvm::errs()); }
void Scope::dumpImpl(raw_ostream &OS) const {
unsigned Flags = getFlags();
bool HasFlags = Flags != 0;
if (HasFlags)
OS << "Flags: ";
while (Flags) {
if (Flags & FnScope) {
OS << "FnScope";
Flags &= ~FnScope;
} else if (Flags & BreakScope) {
OS << "BreakScope";
Flags &= ~BreakScope;
} else if (Flags & ContinueScope) {
OS << "ContinueScope";
Flags &= ~ContinueScope;
} else if (Flags & DeclScope) {
OS << "DeclScope";
Flags &= ~DeclScope;
} else if (Flags & ControlScope) {
OS << "ControlScope";
Flags &= ~ControlScope;
} else if (Flags & ClassScope) {
OS << "ClassScope";
Flags &= ~ClassScope;
} else if (Flags & BlockScope) {
OS << "BlockScope";
Flags &= ~BlockScope;
} else if (Flags & TemplateParamScope) {
OS << "TemplateParamScope";
Flags &= ~TemplateParamScope;
} else if (Flags & FunctionPrototypeScope) {
OS << "FunctionPrototypeScope";
Flags &= ~FunctionPrototypeScope;
} else if (Flags & FunctionDeclarationScope) {
OS << "FunctionDeclarationScope";
Flags &= ~FunctionDeclarationScope;
} else if (Flags & AtCatchScope) {
OS << "AtCatchScope";
Flags &= ~AtCatchScope;
} else if (Flags & ObjCMethodScope) {
OS << "ObjCMethodScope";
Flags &= ~ObjCMethodScope;
} else if (Flags & SwitchScope) {
OS << "SwitchScope";
Flags &= ~SwitchScope;
} else if (Flags & TryScope) {
OS << "TryScope";
Flags &= ~TryScope;
} else if (Flags & FnTryCatchScope) {
OS << "FnTryCatchScope";
Flags &= ~FnTryCatchScope;
} else if (Flags & SEHTryScope) {
OS << "SEHTryScope";
Flags &= ~SEHTryScope;
} else if (Flags & SEHExceptScope) {
OS << "SEHExceptScope";
Flags &= ~SEHExceptScope;
} else if (Flags & OpenMPDirectiveScope) {
OS << "OpenMPDirectiveScope";
Flags &= ~OpenMPDirectiveScope;
} else if (Flags & OpenMPLoopDirectiveScope) {
OS << "OpenMPLoopDirectiveScope";
Flags &= ~OpenMPLoopDirectiveScope;
} else if (Flags & OpenMPSimdDirectiveScope) {
OS << "OpenMPSimdDirectiveScope";
Flags &= ~OpenMPSimdDirectiveScope;
}
if (Flags)
OS << " | ";
}
if (HasFlags)
OS << '\n';
if (const Scope *Parent = getParent())
OS << "Parent: (clang::Scope*)" << Parent << '\n';
OS << "Depth: " << Depth << '\n';
OS << "MSLastManglingNumber: " << getMSLastManglingNumber() << '\n';
OS << "MSCurManglingNumber: " << getMSCurManglingNumber() << '\n';
if (const DeclContext *DC = getEntity())
OS << "Entity : (clang::DeclContext*)" << DC << '\n';
if (NRVO.getInt())
OS << "NRVO not allowed\n";
else if (NRVO.getPointer())
OS << "NRVO candidate : (clang::VarDecl*)" << NRVO.getPointer() << '\n';
}
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