// Copyright 2013 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. #ifndef BASE_CONTAINERS_SCOPED_PTR_HASH_MAP_H_ #define BASE_CONTAINERS_SCOPED_PTR_HASH_MAP_H_ #include #include #include "base/basictypes.h" #include "base/containers/hash_tables.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/stl_util.h" namespace base { // This type acts like a hash_map >, based on top of // base::hash_map. The ScopedPtrHashMap has ownership of all values in the data // structure. template class ScopedPtrHashMap { typedef base::hash_map Container; public: typedef typename Container::iterator iterator; typedef typename Container::const_iterator const_iterator; ScopedPtrHashMap() {} ~ScopedPtrHashMap() { clear(); } void swap(ScopedPtrHashMap& other) { data_.swap(other.data_); } std::pair insert( std::pair > pair) { return data_.insert( std::pair(pair.first, pair.second.release())); } // Replaces value but not key if key is already present. std::pair set(Key key, scoped_ptr data) { iterator it = find(key); if (it != end()) erase(it); Value* raw_ptr = data.release(); return data_.insert(std::pair(key, raw_ptr)); } // Does nothing if key is already present std::pair add(Key key, scoped_ptr data) { Value* raw_ptr = data.release(); return data_.insert(std::pair(key, raw_ptr)); } void erase(iterator it) { if (it->second) delete it->second; data_.erase(it); } size_t erase(const Key& k) { iterator it = data_.find(k); if (it == data_.end()) return 0; erase(it); return 1; } scoped_ptr take(iterator it) { DCHECK(it != data_.end()); if (it == data_.end()) return scoped_ptr(); Key key = it->first; scoped_ptr ret(it->second); data_.erase(it); data_.insert(std::pair(key, static_cast(NULL))); return ret.Pass(); } scoped_ptr take(const Key& k) { iterator it = find(k); if (it == data_.end()) return scoped_ptr(); return take(it); } scoped_ptr take_and_erase(iterator it) { DCHECK(it != data_.end()); if (it == data_.end()) return scoped_ptr(); scoped_ptr ret(it->second); data_.erase(it); return ret.Pass(); } scoped_ptr take_and_erase(const Key& k) { iterator it = find(k); if (it == data_.end()) return scoped_ptr(); return take_and_erase(it); } // Returns the first element in the hash_map that matches the given key. // If no such element exists it returns NULL. Value* get(const Key& k) const { const_iterator it = find(k); if (it == end()) return 0; return it->second; } inline bool contains(const Key& k) const { return data_.count(k) > 0; } inline void clear() { STLDeleteValues(&data_); } inline const_iterator find(const Key& k) const { return data_.find(k); } inline iterator find(const Key& k) { return data_.find(k); } inline size_t count(const Key& k) const { return data_.count(k); } inline std::pair equal_range( const Key& k) const { return data_.equal_range(k); } inline std::pair equal_range(const Key& k) { return data_.equal_range(k); } inline size_t size() const { return data_.size(); } inline size_t max_size() const { return data_.max_size(); } inline bool empty() const { return data_.empty(); } inline size_t bucket_count() const { return data_.bucket_count(); } inline void resize(size_t size) { return data_.resize(size); } inline iterator begin() { return data_.begin(); } inline const_iterator begin() const { return data_.begin(); } inline iterator end() { return data_.end(); } inline const_iterator end() const { return data_.end(); } private: Container data_; DISALLOW_COPY_AND_ASSIGN(ScopedPtrHashMap); }; } // namespace base #endif // BASE_CONTAINERS_SCOPED_PTR_HASH_MAP_H_