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//===------- SemaTemplate.h - C++ Templates ---------------------*- C++ -*-===/
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//===----------------------------------------------------------------------===/
//
// This file provides types used in the semantic analysis of C++ templates.
//
//===----------------------------------------------------------------------===/
#ifndef LLVM_CLANG_SEMA_TEMPLATE_H
#define LLVM_CLANG_SEMA_TEMPLATE_H
#include "clang/AST/DeclTemplate.h"
#include "llvm/ADT/SmallVector.h"
#include <cassert>
namespace clang {
/// \brief Data structure that captures multiple levels of template argument
/// lists for use in template instantiation.
///
/// Multiple levels of template arguments occur when instantiating the
/// definitions of member templates. For example:
///
/// \code
/// template<typename T>
/// struct X {
/// template<T Value>
/// struct Y {
/// void f();
/// };
/// };
/// \endcode
///
/// When instantiating X<int>::Y<17>::f, the multi-level template argument
/// list will contain a template argument list (int) at depth 0 and a
/// template argument list (17) at depth 1.
struct MultiLevelTemplateArgumentList {
/// \brief The template argument lists, stored from the innermost template
/// argument list (first) to the outermost template argument list (last).
llvm::SmallVector<const TemplateArgumentList *, 4> TemplateArgumentLists;
public:
/// \brief Construct an empty set of template argument lists.
MultiLevelTemplateArgumentList() { }
/// \brief Construct a single-level template argument list.
explicit
MultiLevelTemplateArgumentList(const TemplateArgumentList &TemplateArgs) {
TemplateArgumentLists.push_back(&TemplateArgs);
}
/// \brief Determine the number of levels in this template argument
/// list.
unsigned getNumLevels() const { return TemplateArgumentLists.size(); }
/// \brief Retrieve the template argument at a given depth and index.
const TemplateArgument &operator()(unsigned Depth, unsigned Index) const {
assert(Depth < TemplateArgumentLists.size());
assert(Index < TemplateArgumentLists[getNumLevels() - Depth - 1]->size());
return TemplateArgumentLists[getNumLevels() - Depth - 1]->get(Index);
}
/// \brief Determine whether there is a non-NULL template argument at the
/// given depth and index.
///
/// There must exist a template argument list at the given depth.
bool hasTemplateArgument(unsigned Depth, unsigned Index) const {
assert(Depth < TemplateArgumentLists.size());
if (Index >= TemplateArgumentLists[getNumLevels() - Depth - 1]->size())
return false;
return !(*this)(Depth, Index).isNull();
}
/// \brief Add a new outermost level to the multi-level template argument
/// list.
void addOuterTemplateArguments(const TemplateArgumentList *TemplateArgs) {
TemplateArgumentLists.push_back(TemplateArgs);
}
/// \brief Retrieve the innermost template argument list.
const TemplateArgumentList &getInnermost() const {
return *TemplateArgumentLists.front();
}
};
/// \brief The context in which partial ordering of function templates occurs.
enum TemplatePartialOrderingContext {
/// \brief Partial ordering of function templates for a function call.
TPOC_Call,
/// \brief Partial ordering of function templates for a call to a
/// conversion function.
TPOC_Conversion,
/// \brief Partial ordering of function templates in other contexts, e.g.,
/// taking the address of a function template or matching a function
/// template specialization to a function template.
TPOC_Other
};
/// \brief Captures a template argument whose value has been deduced
/// via c++ template argument deduction.
class DeducedTemplateArgument : public TemplateArgument {
/// \brief For a non-type template argument, whether the value was
/// deduced from an array bound.
bool DeducedFromArrayBound;
public:
DeducedTemplateArgument()
: TemplateArgument(), DeducedFromArrayBound(false) { }
DeducedTemplateArgument(const TemplateArgument &Arg,
bool DeducedFromArrayBound = false)
: TemplateArgument(Arg), DeducedFromArrayBound(DeducedFromArrayBound) { }
/// \brief Construct an integral non-type template argument that
/// has been deduced, possible from an array bound.
DeducedTemplateArgument(const llvm::APSInt &Value,
QualType ValueType,
bool DeducedFromArrayBound)
: TemplateArgument(Value, ValueType),
DeducedFromArrayBound(DeducedFromArrayBound) { }
/// \brief For a non-type template argument, determine whether the
/// template argument was deduced from an array bound.
bool wasDeducedFromArrayBound() const { return DeducedFromArrayBound; }
/// \brief Specify whether the given non-type template argument
/// was deduced from an array bound.
void setDeducedFromArrayBound(bool Deduced) {
DeducedFromArrayBound = Deduced;
}
};
}
#endif // LLVM_CLANG_SEMA_TEMPLATE_H