// Copyright (c) 2010 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // PagedArray implements an array stored using many fixed-size pages. // // PagedArray is a work-around to allow large arrays to be allocated when there // is too much address space fragmentation for allocating the large arrays as // contigous arrays. #ifndef COURGETTE_BSDIFF_PAGED_ARRAY_H_ #define COURGETTE_BSDIFF_PAGED_ARRAY_H_ // For std::nothrow: #include #include "base/basictypes.h" namespace courgette { // PagedArray implements an array stored using many fixed-size pages. template class PagedArray { enum { // Page size in elements. Page size of 2^18 * sizeof(T) is 1MB for T = int. kLogPageSize = 18, kPageSize = 1 << kLogPageSize }; public: PagedArray() : pages_(NULL), page_count_(0) {} ~PagedArray() { clear(); } T& operator[](size_t i) { size_t page = i >> kLogPageSize; size_t offset = i & (kPageSize - 1); // It is tempting to add a DCHECK(page < page_count_), but that makes // bsdiff_create run 2x slower (even when compiled optimized.) return pages_[page][offset]; } // Allocates storage for |size| elements. Returns true on success and false if // allocation fails. bool Allocate(size_t size) { clear(); size_t pages_needed = (size + kPageSize - 1) >> kLogPageSize; pages_ = new(std::nothrow) T*[pages_needed]; if (pages_ == NULL) return false; for (page_count_ = 0; page_count_ < pages_needed; ++page_count_) { T* block = new(std::nothrow) T[kPageSize]; if (block == NULL) { clear(); return false; } pages_[page_count_] = block; } return true; } // Releases all storage. May be called more than once. void clear() { if (pages_ != NULL) { while (page_count_ != 0) { --page_count_; delete[] pages_[page_count_]; } delete[] pages_; pages_ = NULL; } } private: T** pages_; size_t page_count_; DISALLOW_COPY_AND_ASSIGN(PagedArray); }; } // namespace #endif // COURGETTE_BSDIFF_PAGED_ARRAY_H_