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//===--- TemplateName.h - C++ Template Name Representation-------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the TemplateName interface and subclasses.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_AST_TEMPLATENAME_H
#define LLVM_CLANG_AST_TEMPLATENAME_H
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/PointerUnion.h"
#include "clang/Basic/OperatorKinds.h"
namespace llvm {
class raw_ostream;
}
namespace clang {
class DependentTemplateName;
class DiagnosticBuilder;
class IdentifierInfo;
class NestedNameSpecifier;
struct PrintingPolicy;
class QualifiedTemplateName;
class NamedDecl;
class TemplateDecl;
/// \brief A structure for storing the information associated with an
/// overloaded template name.
class OverloadedTemplateStorage {
union {
unsigned Size;
NamedDecl *Storage[1];
};
friend class ASTContext;
OverloadedTemplateStorage(unsigned Size) : Size(Size) {}
NamedDecl **getStorage() {
return &Storage[1];
}
NamedDecl * const *getStorage() const {
return &Storage[1];
}
public:
typedef NamedDecl *const *iterator;
unsigned size() const { return Size; }
iterator begin() const { return getStorage(); }
iterator end() const { return getStorage() + size(); }
};
/// \brief Represents a C++ template name within the type system.
///
/// A C++ template name refers to a template within the C++ type
/// system. In most cases, a template name is simply a reference to a
/// class template, e.g.
///
/// \code
/// template<typename T> class X { };
///
/// X<int> xi;
/// \endcode
///
/// Here, the 'X' in \c X<int> is a template name that refers to the
/// declaration of the class template X, above. Template names can
/// also refer to function templates, C++0x template aliases, etc.
///
/// Some template names are dependent. For example, consider:
///
/// \code
/// template<typename MetaFun, typename T1, typename T2> struct apply2 {
/// typedef typename MetaFun::template apply<T1, T2>::type type;
/// };
/// \endcode
///
/// Here, "apply" is treated as a template name within the typename
/// specifier in the typedef. "apply" is a nested template, and can
/// only be understood in the context of
class TemplateName {
typedef llvm::PointerUnion4<TemplateDecl *,
OverloadedTemplateStorage *,
QualifiedTemplateName *,
DependentTemplateName *> StorageType;
StorageType Storage;
explicit TemplateName(void *Ptr) {
Storage = StorageType::getFromOpaqueValue(Ptr);
}
public:
TemplateName() : Storage() { }
explicit TemplateName(TemplateDecl *Template) : Storage(Template) { }
explicit TemplateName(OverloadedTemplateStorage *Storage)
: Storage(Storage) { }
explicit TemplateName(QualifiedTemplateName *Qual) : Storage(Qual) { }
explicit TemplateName(DependentTemplateName *Dep) : Storage(Dep) { }
/// \brief Determine whether this template name is NULL.
bool isNull() const { return Storage.isNull(); }
/// \brief Retrieve the the underlying template declaration that
/// this template name refers to, if known.
///
/// \returns The template declaration that this template name refers
/// to, if any. If the template name does not refer to a specific
/// declaration because it is a dependent name, or if it refers to a
/// set of function templates, returns NULL.
TemplateDecl *getAsTemplateDecl() const;
/// \brief Retrieve the the underlying, overloaded function template
// declarations that this template name refers to, if known.
///
/// \returns The set of overloaded function templates that this template
/// name refers to, if known. If the template name does not refer to a
/// specific set of function templates because it is a dependent name or
/// refers to a single template, returns NULL.
OverloadedTemplateStorage *getAsOverloadedTemplate() const {
return Storage.dyn_cast<OverloadedTemplateStorage *>();
}
/// \brief Retrieve the underlying qualified template name
/// structure, if any.
QualifiedTemplateName *getAsQualifiedTemplateName() const {
return Storage.dyn_cast<QualifiedTemplateName *>();
}
/// \brief Retrieve the underlying dependent template name
/// structure, if any.
DependentTemplateName *getAsDependentTemplateName() const {
return Storage.dyn_cast<DependentTemplateName *>();
}
/// \brief Determines whether this is a dependent template name.
bool isDependent() const;
/// \brief Print the template name.
///
/// \param OS the output stream to which the template name will be
/// printed.
///
/// \param SuppressNNS if true, don't print the
/// nested-name-specifier that precedes the template name (if it has
/// one).
void print(llvm::raw_ostream &OS, const PrintingPolicy &Policy,
bool SuppressNNS = false) const;
/// \brief Debugging aid that dumps the template name to standard
/// error.
void dump() const;
void Profile(llvm::FoldingSetNodeID &ID) {
ID.AddPointer(Storage.getOpaqueValue());
}
/// \brief Retrieve the template name as a void pointer.
void *getAsVoidPointer() const { return Storage.getOpaqueValue(); }
/// \brief Build a template name from a void pointer.
static TemplateName getFromVoidPointer(void *Ptr) {
return TemplateName(Ptr);
}
};
/// Insertion operator for diagnostics. This allows sending TemplateName's
/// into a diagnostic with <<.
const DiagnosticBuilder &operator<<(const DiagnosticBuilder &DB,
TemplateName N);
/// \brief Represents a template name that was expressed as a
/// qualified name.
///
/// This kind of template name refers to a template name that was
/// preceded by a nested name specifier, e.g., \c std::vector. Here,
/// the nested name specifier is "std::" and the template name is the
/// declaration for "vector". The QualifiedTemplateName class is only
/// used to provide "sugar" for template names that were expressed
/// with a qualified name, and has no semantic meaning. In this
/// manner, it is to TemplateName what QualifiedNameType is to Type,
/// providing extra syntactic sugar for downstream clients.
class QualifiedTemplateName : public llvm::FoldingSetNode {
/// \brief The nested name specifier that qualifies the template name.
///
/// The bit is used to indicate whether the "template" keyword was
/// present before the template name itself. Note that the
/// "template" keyword is always redundant in this case (otherwise,
/// the template name would be a dependent name and we would express
/// this name with DependentTemplateName).
llvm::PointerIntPair<NestedNameSpecifier *, 1> Qualifier;
/// \brief The template declaration or set of overloaded function templates
/// that this qualified name refers to.
TemplateDecl *Template;
friend class ASTContext;
QualifiedTemplateName(NestedNameSpecifier *NNS, bool TemplateKeyword,
TemplateDecl *Template)
: Qualifier(NNS, TemplateKeyword? 1 : 0),
Template(Template) { }
public:
/// \brief Return the nested name specifier that qualifies this name.
NestedNameSpecifier *getQualifier() const { return Qualifier.getPointer(); }
/// \brief Whether the template name was prefixed by the "template"
/// keyword.
bool hasTemplateKeyword() const { return Qualifier.getInt(); }
/// \brief The template declaration that this qualified name refers
/// to.
TemplateDecl *getDecl() const { return Template; }
/// \brief The template declaration to which this qualified name
/// refers.
TemplateDecl *getTemplateDecl() const { return Template; }
void Profile(llvm::FoldingSetNodeID &ID) {
Profile(ID, getQualifier(), hasTemplateKeyword(), getTemplateDecl());
}
static void Profile(llvm::FoldingSetNodeID &ID, NestedNameSpecifier *NNS,
bool TemplateKeyword, TemplateDecl *Template) {
ID.AddPointer(NNS);
ID.AddBoolean(TemplateKeyword);
ID.AddPointer(Template);
}
};
/// \brief Represents a dependent template name that cannot be
/// resolved prior to template instantiation.
///
/// This kind of template name refers to a dependent template name,
/// including its nested name specifier (if any). For example,
/// DependentTemplateName can refer to "MetaFun::template apply",
/// where "MetaFun::" is the nested name specifier and "apply" is the
/// template name referenced. The "template" keyword is implied.
class DependentTemplateName : public llvm::FoldingSetNode {
/// \brief The nested name specifier that qualifies the template
/// name.
///
/// The bit stored in this qualifier describes whether the \c Name field
/// is interpreted as an IdentifierInfo pointer (when clear) or as an
/// overloaded operator kind (when set).
llvm::PointerIntPair<NestedNameSpecifier *, 1, bool> Qualifier;
/// \brief The dependent template name.
union {
/// \brief The identifier template name.
///
/// Only valid when the bit on \c Qualifier is clear.
const IdentifierInfo *Identifier;
/// \brief The overloaded operator name.
///
/// Only valid when the bit on \c Qualifier is set.
OverloadedOperatorKind Operator;
};
/// \brief The canonical template name to which this dependent
/// template name refers.
///
/// The canonical template name for a dependent template name is
/// another dependent template name whose nested name specifier is
/// canonical.
TemplateName CanonicalTemplateName;
friend class ASTContext;
DependentTemplateName(NestedNameSpecifier *Qualifier,
const IdentifierInfo *Identifier)
: Qualifier(Qualifier, false), Identifier(Identifier),
CanonicalTemplateName(this) { }
DependentTemplateName(NestedNameSpecifier *Qualifier,
const IdentifierInfo *Identifier,
TemplateName Canon)
: Qualifier(Qualifier, false), Identifier(Identifier),
CanonicalTemplateName(Canon) { }
DependentTemplateName(NestedNameSpecifier *Qualifier,
OverloadedOperatorKind Operator)
: Qualifier(Qualifier, true), Operator(Operator),
CanonicalTemplateName(this) { }
DependentTemplateName(NestedNameSpecifier *Qualifier,
OverloadedOperatorKind Operator,
TemplateName Canon)
: Qualifier(Qualifier, true), Operator(Operator),
CanonicalTemplateName(Canon) { }
public:
/// \brief Return the nested name specifier that qualifies this name.
NestedNameSpecifier *getQualifier() const { return Qualifier.getPointer(); }
/// \brief Determine whether this template name refers to an identifier.
bool isIdentifier() const { return !Qualifier.getInt(); }
/// \brief Returns the identifier to which this template name refers.
const IdentifierInfo *getIdentifier() const {
assert(isIdentifier() && "Template name isn't an identifier?");
return Identifier;
}
/// \brief Determine whether this template name refers to an overloaded
/// operator.
bool isOverloadedOperator() const { return Qualifier.getInt(); }
/// \brief Return the overloaded operator to which this template name refers.
OverloadedOperatorKind getOperator() const {
assert(isOverloadedOperator() &&
"Template name isn't an overloaded operator?");
return Operator;
}
void Profile(llvm::FoldingSetNodeID &ID) {
if (isIdentifier())
Profile(ID, getQualifier(), getIdentifier());
else
Profile(ID, getQualifier(), getOperator());
}
static void Profile(llvm::FoldingSetNodeID &ID, NestedNameSpecifier *NNS,
const IdentifierInfo *Identifier) {
ID.AddPointer(NNS);
ID.AddBoolean(false);
ID.AddPointer(Identifier);
}
static void Profile(llvm::FoldingSetNodeID &ID, NestedNameSpecifier *NNS,
OverloadedOperatorKind Operator) {
ID.AddPointer(NNS);
ID.AddBoolean(true);
ID.AddInteger(Operator);
}
};
} // end namespace clang.
namespace llvm {
/// \brief The clang::TemplateName class is effectively a pointer.
template<>
class PointerLikeTypeTraits<clang::TemplateName> {
public:
static inline void *getAsVoidPointer(clang::TemplateName TN) {
return TN.getAsVoidPointer();
}
static inline clang::TemplateName getFromVoidPointer(void *Ptr) {
return clang::TemplateName::getFromVoidPointer(Ptr);
}
// No bits are available!
enum { NumLowBitsAvailable = 0 };
};
} // end namespace llvm.
#endif
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