/* * Copyright (C) 2008, 2009 Paul Pedriana . All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef FastAllocBase_h #define FastAllocBase_h // Provides customizable overrides of fastMalloc/fastFree and operator new/delete // // Provided functionality: // namespace WTF { // class FastAllocBase; // // T* fastNew(); // T* fastNew(arg); // T* fastNew(arg, arg); // T* fastNewArray(count); // void fastDelete(T* p); // void fastDeleteArray(T* p); // void fastNonNullDelete(T* p); // void fastNonNullDeleteArray(T* p); // } // // FastDelete assumes that the underlying // // Example usage: // class Widget : public FastAllocBase { ... }; // // char* charPtr = fastNew(); // fastDelete(charPtr); // // char* charArrayPtr = fastNewArray(37); // fastDeleteArray(charArrayPtr); // // void** voidPtrPtr = fastNew(); // fastDelete(voidPtrPtr); // // void** voidPtrArrayPtr = fastNewArray(37); // fastDeleteArray(voidPtrArrayPtr); // // POD* podPtr = fastNew(); // fastDelete(podPtr); // // POD* podArrayPtr = fastNewArray(37); // fastDeleteArray(podArrayPtr); // // Object* objectPtr = fastNew(); // fastDelete(objectPtr); // // Object* objectArrayPtr = fastNewArray(37); // fastDeleteArray(objectArrayPtr); // #include #include #include #include #include "Assertions.h" #include "FastMalloc.h" #include "TypeTraits.h" namespace WTF { class FastAllocBase { public: // Placement operator new. void* operator new(size_t, void* p) { return p; } void* operator new[](size_t, void* p) { return p; } void* operator new(size_t size) { void* p = fastMalloc(size); fastMallocMatchValidateMalloc(p, Internal::AllocTypeClassNew); return p; } void operator delete(void* p) { fastMallocMatchValidateFree(p, Internal::AllocTypeClassNew); fastFree(p); } void* operator new[](size_t size) { void* p = fastMalloc(size); fastMallocMatchValidateMalloc(p, Internal::AllocTypeClassNewArray); return p; } void operator delete[](void* p) { fastMallocMatchValidateFree(p, Internal::AllocTypeClassNewArray); fastFree(p); } }; // fastNew / fastDelete template inline T* fastNew() { void* p = fastMalloc(sizeof(T)); if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNew); return ::new(p) T; } template inline T* fastNew(Arg1 arg1) { void* p = fastMalloc(sizeof(T)); if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNew); return ::new(p) T(arg1); } template inline T* fastNew(Arg1 arg1, Arg2 arg2) { void* p = fastMalloc(sizeof(T)); if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNew); return ::new(p) T(arg1, arg2); } template inline T* fastNew(Arg1 arg1, Arg2 arg2, Arg3 arg3) { void* p = fastMalloc(sizeof(T)); if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNew); return ::new(p) T(arg1, arg2, arg3); } template inline T* fastNew(Arg1 arg1, Arg2 arg2, Arg3 arg3, Arg4 arg4) { void* p = fastMalloc(sizeof(T)); if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNew); return ::new(p) T(arg1, arg2, arg3, arg4); } template inline T* fastNew(Arg1 arg1, Arg2 arg2, Arg3 arg3, Arg4 arg4, Arg5 arg5) { void* p = fastMalloc(sizeof(T)); if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNew); return ::new(p) T(arg1, arg2, arg3, arg4, arg5); } namespace Internal { // We define a union of pointer to an integer and pointer to T. // When non-POD arrays are allocated we add a few leading bytes to tell what // the size of the array is. We return to the user the pointer to T. // The way to think of it is as if we allocate a struct like so: // struct Array { // AllocAlignmentInteger m_size; // T m_T[array count]; // }; template union ArraySize { AllocAlignmentInteger* size; T* t; }; // This is a support template for fastNewArray. // This handles the case wherein T has a trivial ctor and a trivial dtor. template struct NewArrayImpl { static T* fastNewArray(size_t count) { T* p = static_cast(fastMalloc(sizeof(T) * count)); fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNewArray); return p; } }; // This is a support template for fastNewArray. // This handles the case wherein T has a non-trivial ctor and a trivial dtor. template struct NewArrayImpl { static T* fastNewArray(size_t count) { T* p = static_cast(fastMalloc(sizeof(T) * count)); if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNewArray); for (T* pObject = p, *pObjectEnd = pObject + count; pObject != pObjectEnd; ++pObject) ::new(pObject) T; return p; } }; // This is a support template for fastNewArray. // This handles the case wherein T has a trivial ctor and a non-trivial dtor. template struct NewArrayImpl { static T* fastNewArray(size_t count) { void* p = fastMalloc(sizeof(AllocAlignmentInteger) + (sizeof(T) * count)); ArraySize a = { static_cast(p) }; if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNewArray); *a.size++ = count; // No need to construct the objects in this case. return a.t; } }; // This is a support template for fastNewArray. // This handles the case wherein T has a non-trivial ctor and a non-trivial dtor. template struct NewArrayImpl { static T* fastNewArray(size_t count) { void* p = fastMalloc(sizeof(AllocAlignmentInteger) + (sizeof(T) * count)); ArraySize a = { static_cast(p) }; if (!p) return 0; fastMallocMatchValidateMalloc(p, Internal::AllocTypeFastNewArray); *a.size++ = count; for (T* pT = a.t, *pTEnd = pT + count; pT != pTEnd; ++pT) ::new(pT) T; return a.t; } }; } // namespace Internal template inline T* fastNewArray(size_t count) { return Internal::NewArrayImpl::value, WTF::HasTrivialDestructor::value>::fastNewArray(count); } template inline void fastDelete(T* p) { if (!p) return; fastMallocMatchValidateFree(p, Internal::AllocTypeFastNew); p->~T(); fastFree(p); } namespace Internal { // This is a support template for fastDeleteArray. // This handles the case wherein T has a trivial dtor. template struct DeleteArrayImpl { static void fastDeleteArray(void* p) { // No need to destruct the objects in this case. // We expect that fastFree checks for null. fastMallocMatchValidateFree(p, Internal::AllocTypeFastNewArray); fastFree(p); } }; // This is a support template for fastDeleteArray. // This handles the case wherein T has a non-trivial dtor. template struct DeleteArrayImpl { static void fastDeleteArray(T* p) { if (!p) return; ArraySize a; a.t = p; a.size--; // Decrement size pointer T* pEnd = p + *a.size; while (pEnd-- != p) pEnd->~T(); fastMallocMatchValidateFree(a.size, Internal::AllocTypeFastNewArray); fastFree(a.size); } }; } // namespace Internal template void fastDeleteArray(T* p) { Internal::DeleteArrayImpl::value>::fastDeleteArray(p); } template inline void fastNonNullDelete(T* p) { fastMallocMatchValidateFree(p, Internal::AllocTypeFastNew); p->~T(); fastFree(p); } namespace Internal { // This is a support template for fastDeleteArray. // This handles the case wherein T has a trivial dtor. template struct NonNullDeleteArrayImpl { static void fastNonNullDeleteArray(void* p) { fastMallocMatchValidateFree(p, Internal::AllocTypeFastNewArray); // No need to destruct the objects in this case. fastFree(p); } }; // This is a support template for fastDeleteArray. // This handles the case wherein T has a non-trivial dtor. template struct NonNullDeleteArrayImpl { static void fastNonNullDeleteArray(T* p) { ArraySize a; a.t = p; a.size--; T* pEnd = p + *a.size; while (pEnd-- != p) pEnd->~T(); fastMallocMatchValidateFree(a.size, Internal::AllocTypeFastNewArray); fastFree(a.size); } }; } // namespace Internal template void fastNonNullDeleteArray(T* p) { Internal::NonNullDeleteArrayImpl::value>::fastNonNullDeleteArray(p); } } // namespace WTF // Using WTF::FastAllocBase to avoid using FastAllocBase's explicit qualification by WTF::. using WTF::FastAllocBase; #endif // FastAllocBase_h