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/*
* Copyright (C) 2006, 2007, 2008 Apple Inc. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*
*/
#ifndef WTF_VectorTraits_h
#define WTF_VectorTraits_h
#include "wtf/OwnPtr.h"
#include "wtf/RefPtr.h"
#include "wtf/TypeTraits.h"
#include <utility>
using std::pair;
namespace WTF {
class AtomicString;
template<typename T>
struct VectorTraitsBase
{
static const bool needsDestruction = !IsTriviallyDestructible<T>::value;
static const bool canInitializeWithMemset = IsTriviallyDefaultConstructible<T>::value;
static const bool canMoveWithMemcpy = IsTriviallyMoveAssignable<T>::value;
static const bool canCopyWithMemcpy = IsTriviallyCopyAssignable<T>::value;
static const bool canFillWithMemset = IsTriviallyDefaultConstructible<T>::value && (sizeof(T) == sizeof(char));
static const bool canCompareWithMemcmp = IsScalar<T>::value; // Types without padding.
template<typename U = void>
struct NeedsTracingLazily {
static const bool value = NeedsTracing<T>::value;
};
static const WeakHandlingFlag weakHandlingFlag = NoWeakHandlingInCollections; // We don't support weak handling in vectors.
};
template<typename T>
struct VectorTraits : VectorTraitsBase<T> { };
// Classes marked with SimpleVectorTraits will use memmov, memcpy, memcmp
// instead of constructors, copy operators, etc for initialization, move
// and comparison.
template<typename T>
struct SimpleClassVectorTraits : VectorTraitsBase<T>
{
static const bool canInitializeWithMemset = true;
static const bool canMoveWithMemcpy = true;
static const bool canCompareWithMemcmp = true;
};
// We know OwnPtr and RefPtr are simple enough that initializing to 0 and
// moving with memcpy (and then not destructing the original) will totally
// work.
template<typename P>
struct VectorTraits<RefPtr<P>> : SimpleClassVectorTraits<RefPtr<P>> { };
template<typename P>
struct VectorTraits<OwnPtr<P>> : SimpleClassVectorTraits<OwnPtr<P>> {
// OwnPtr -> PassOwnPtr has a very particular structure that
// tricks the normal type traits into thinking that the class
// is "trivially copyable".
static const bool canCopyWithMemcpy = false;
};
static_assert(VectorTraits<RefPtr<int>>::canInitializeWithMemset, "inefficient RefPtr Vector");
static_assert(VectorTraits<RefPtr<int>>::canMoveWithMemcpy, "inefficient RefPtr Vector");
static_assert(VectorTraits<RefPtr<int>>::canCompareWithMemcmp, "inefficient RefPtr Vector");
static_assert(VectorTraits<OwnPtr<int>>::canInitializeWithMemset, "inefficient OwnPtr Vector");
static_assert(VectorTraits<OwnPtr<int>>::canMoveWithMemcpy, "inefficient OwnPtr Vector");
static_assert(VectorTraits<OwnPtr<int>>::canCompareWithMemcmp, "inefficient OwnPtr Vector");
template<typename First, typename Second>
struct VectorTraits<pair<First, Second>>
{
typedef VectorTraits<First> FirstTraits;
typedef VectorTraits<Second> SecondTraits;
static const bool needsDestruction = FirstTraits::needsDestruction || SecondTraits::needsDestruction;
static const bool canInitializeWithMemset = FirstTraits::canInitializeWithMemset && SecondTraits::canInitializeWithMemset;
static const bool canMoveWithMemcpy = FirstTraits::canMoveWithMemcpy && SecondTraits::canMoveWithMemcpy;
static const bool canCopyWithMemcpy = FirstTraits::canCopyWithMemcpy && SecondTraits::canCopyWithMemcpy;
static const bool canFillWithMemset = false;
static const bool canCompareWithMemcmp = FirstTraits::canCompareWithMemcmp && SecondTraits::canCompareWithMemcmp;
template <typename U = void>
struct NeedsTracingLazily {
static const bool value = ShouldBeTraced<FirstTraits>::value || ShouldBeTraced<SecondTraits>::value;
};
static const WeakHandlingFlag weakHandlingFlag = NoWeakHandlingInCollections; // We don't support weak handling in vectors.
};
} // namespace WTF
#define WTF_ALLOW_MOVE_INIT_AND_COMPARE_WITH_MEM_FUNCTIONS(ClassName) \
namespace WTF { \
static_assert(!IsTriviallyDefaultConstructible<ClassName>::value || !IsTriviallyCopyAssignable<ClassName>::value, "macro not needed"); \
template<> \
struct VectorTraits<ClassName> : SimpleClassVectorTraits<ClassName> { }; \
}
#define WTF_ALLOW_MOVE_AND_INIT_WITH_MEM_FUNCTIONS(ClassName) \
namespace WTF { \
static_assert(!WTF::IsTriviallyDefaultConstructible<ClassName>::value || !IsTriviallyCopyAssignable<ClassName>::value, "macro not needed"); \
template<> \
struct VectorTraits<ClassName> : VectorTraitsBase<ClassName> \
{ \
static const bool canInitializeWithMemset = true; \
static const bool canMoveWithMemcpy = true; \
}; \
}
#define WTF_ALLOW_INIT_WITH_MEM_FUNCTIONS(ClassName) \
namespace WTF { \
static_assert(!WTF::IsTriviallyDefaultConstructible<ClassName>::value, "macro not needed"); \
template<> \
struct VectorTraits<ClassName> : VectorTraitsBase<ClassName> \
{ \
static const bool canInitializeWithMemset = true; \
}; \
}
using WTF::VectorTraits;
using WTF::SimpleClassVectorTraits;
#endif // WTF_VectorTraits_h
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