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//===- llvm/Support/type_traits.h - Simplfied type traits -------*- 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 a template class that determines if a type is a class or
// not. The basic mechanism, based on using the pointer to member function of
// a zero argument to a function was "boosted" from the boost type_traits
// library. See http://www.boost.org/ for all the gory details.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_SUPPORT_TYPE_TRAITS_H
#define LLVM_SUPPORT_TYPE_TRAITS_H
#include <utility>
// This is actually the conforming implementation which works with abstract
// classes. However, enough compilers have trouble with it that most will use
// the one in boost/type_traits/object_traits.hpp. This implementation actually
// works with VC7.0, but other interactions seem to fail when we use it.
namespace llvm {
namespace dont_use
{
// These two functions should never be used. They are helpers to
// the is_class template below. They cannot be located inside
// is_class because doing so causes at least GCC to think that
// the value of the "value" enumerator is not constant. Placing
// them out here (for some strange reason) allows the sizeof
// operator against them to magically be constant. This is
// important to make the is_class<T>::value idiom zero cost. it
// evaluates to a constant 1 or 0 depending on whether the
// parameter T is a class or not (respectively).
template<typename T> char is_class_helper(void(T::*)());
template<typename T> double is_class_helper(...);
}
template <typename T>
struct is_class
{
// is_class<> metafunction due to Paul Mensonides (leavings@attbi.com). For
// more details:
// http://groups.google.com/groups?hl=en&selm=000001c1cc83%24e154d5e0%247772e50c%40c161550a&rnum=1
public:
enum { value = sizeof(char) == sizeof(dont_use::is_class_helper<T>(0)) };
};
/// isPodLike - This is a type trait that is used to determine whether a given
/// type can be copied around with memcpy instead of running ctors etc.
template <typename T>
struct isPodLike {
// If we don't know anything else, we can (at least) assume that all non-class
// types are PODs.
static const bool value = !is_class<T>::value;
};
// std::pair's are pod-like if their elements are.
template<typename T, typename U>
struct isPodLike<std::pair<T, U> > {
static const bool value = isPodLike<T>::value & isPodLike<U>::value;
};
/// \brief Metafunction that determines whether the two given types are
/// equivalent.
template<typename T, typename U>
struct is_same {
static const bool value = false;
};
template<typename T>
struct is_same<T, T> {
static const bool value = true;
};
// enable_if_c - Enable/disable a template based on a metafunction
template<bool Cond, typename T = void>
struct enable_if_c {
typedef T type;
};
template<typename T> struct enable_if_c<false, T> { };
// enable_if - Enable/disable a template based on a metafunction
template<typename Cond, typename T = void>
struct enable_if : public enable_if_c<Cond::value, T> { };
namespace dont_use {
template<typename Base> char base_of_helper(const volatile Base*);
template<typename Base> double base_of_helper(...);
}
/// is_base_of - Metafunction to determine whether one type is a base class of
/// (or identical to) another type.
template<typename Base, typename Derived>
struct is_base_of {
static const bool value
= is_class<Base>::value && is_class<Derived>::value &&
sizeof(char) == sizeof(dont_use::base_of_helper<Base>((Derived*)0));
};
// remove_pointer - Metafunction to turn Foo* into Foo. Defined in
// C++0x [meta.trans.ptr].
template <typename T> struct remove_pointer { typedef T type; };
template <typename T> struct remove_pointer<T*> { typedef T type; };
template <typename T> struct remove_pointer<T*const> { typedef T type; };
template <typename T> struct remove_pointer<T*volatile> { typedef T type; };
template <typename T> struct remove_pointer<T*const volatile> {
typedef T type; };
template <bool, typename T, typename F>
struct conditional { typedef T type; };
template <typename T, typename F>
struct conditional<false, T, F> { typedef F type; };
}
#endif
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