/*************************************************************************** copyright : (C) 2002 - 2008 by Scott Wheeler email : wheeler@kde.org ***************************************************************************/ /*************************************************************************** * This library is free software; you can redistribute it and/or modify * * it under the terms of the GNU Lesser General Public License version * * 2.1 as published by the Free Software Foundation. * * * * 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 * * Lesser General Public License for more details. * * * * You should have received a copy of the GNU Lesser General Public * * License along with this library; if not, write to the Free Software * * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * * 02110-1301 USA * * * * Alternatively, this file is available under the Mozilla Public * * License Version 1.1. You may obtain a copy of the License at * * http://www.mozilla.org/MPL/ * ***************************************************************************/ #ifndef TAGLIB_MAP_H #define TAGLIB_MAP_H #include #include "taglib.h" namespace TagLib { //! A generic, implicitly shared map. /*! * This implements a standard map container that associates a key with a value * and has fast key-based lookups. This map is also implicitly shared making * it suitable for pass-by-value usage. */ template class Map { public: #ifndef DO_NOT_DOCUMENT #ifdef WANT_CLASS_INSTANTIATION_OF_MAP // Some STL implementations get snippy over the use of the // class keyword to distinguish different templates; Sun Studio // in particular finds multiple specializations in certain rare // cases and complains about that. GCC doesn't seem to mind, // and uses the typedefs further below without the class keyword. // Not all the specializations of Map can use the class keyword // (when T is not actually a class type), so don't apply this // generally. typedef typename std::map::iterator Iterator; typedef typename std::map::const_iterator ConstIterator; #else typedef typename std::map::iterator Iterator; typedef typename std::map::const_iterator ConstIterator; #endif #endif /*! * Constructs an empty Map. */ Map(); /*! * Make a shallow, implicitly shared, copy of \a m. Because this is * implicitly shared, this method is lightweight and suitable for * pass-by-value usage. */ Map(const Map &m); /*! * Destroys this instance of the Map. */ virtual ~Map(); /*! * Returns an STL style iterator to the beginning of the map. See * std::map::iterator for the semantics. */ Iterator begin(); /*! * Returns an STL style iterator to the beginning of the map. See * std::map::const_iterator for the semantics. */ ConstIterator begin() const; /*! * Returns an STL style iterator to the end of the map. See * std::map::iterator for the semantics. */ Iterator end(); /*! * Returns an STL style iterator to the end of the map. See * std::map::const_iterator for the semantics. */ ConstIterator end() const; /*! * Inserts \a value under \a key in the map. If a value for \a key already * exists it will be overwritten. */ Map &insert(const Key &key, const T &value); /*! * Removes all of the elements from elements from the map. This however * will not delete pointers if the mapped type is a pointer type. */ Map &clear(); /*! * The number of elements in the map. * * \see isEmpty() */ unsigned int size() const; /*! * Returns true if the map is empty. * * \see size() */ bool isEmpty() const; /*! * Find the first occurrence of \a key. */ Iterator find(const Key &key); /*! * Find the first occurrence of \a key. */ ConstIterator find(const Key &key) const; /*! * Returns true if the map contains an instance of \a key. */ bool contains(const Key &key) const; /*! * Erase the item at \a it from the list. */ Map &erase(Iterator it); /*! * Erase the item with \a key from the list. */ Map &erase(const Key &key); /*! * Returns a reference to the value associated with \a key. * * \note This has undefined behavior if the key is not present in the map. */ const T &operator[](const Key &key) const; /*! * Returns a reference to the value associated with \a key. * * \note This has undefined behavior if the key is not present in the map. */ T &operator[](const Key &key); /*! * Make a shallow, implicitly shared, copy of \a m. Because this is * implicitly shared, this method is lightweight and suitable for * pass-by-value usage. */ Map &operator=(const Map &m); /*! * Exchanges the content of this map by the content of \a m. */ void swap(Map &m); protected: /* * If this List is being shared via implicit sharing, do a deep copy of the * data and separate from the shared members. This should be called by all * non-const subclass members. */ void detach(); private: #ifndef DO_NOT_DOCUMENT template class MapPrivate; MapPrivate *d; #endif }; } // Since GCC doesn't support the "export" keyword, we have to include the // implementation. #include "tmap.tcc" #endif