/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Qt Software Information (qt-info@nokia.com) ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. 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Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at qt-sales@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef QTCONCURRENT_RESULTSTORE_H #define QTCONCURRENT_RESULTSTORE_H #include #ifndef QT_NO_QFUTURE #include #include QT_BEGIN_HEADER QT_BEGIN_NAMESPACE QT_MODULE(Core) /* ResultStore stores indexed results. Results can be added and retrieved either individually batched in a QVector. Retriveing results and checking which indexes are in the store can be done either by iterating or by random accees. In addition results kan be removed from the front of the store, either individually or in batches. */ #ifndef qdoc namespace QtConcurrent { class ResultItem { public: ResultItem(const void *_result, int _count) : m_count(_count), result(_result) { } // contruct with vector of results ResultItem(const void *_result) : m_count(0), result(_result) { } // construct with result ResultItem() : m_count(0), result(0) { } bool isValid() const { return result != 0; } bool isVector() const { return m_count != 0; } int count() const { return (m_count == 0) ? 1 : m_count; } int m_count; // result is either a pointer to a result or to a vector of results, const void *result; // if count is 0 it's a result, otherwise it's a vector. }; class Q_CORE_EXPORT ResultIteratorBase { public: ResultIteratorBase(); ResultIteratorBase(QMap::const_iterator _mapIterator, int _vectorIndex = 0); int vectorIndex() const; int resultIndex() const; ResultIteratorBase operator++(); int batchSize() const; void batchedAdvance(); bool operator==(const ResultIteratorBase &other) const; bool operator!=(const ResultIteratorBase &other) const; bool isVector() const; bool canIncrementVectorIndex() const; protected: QMap::const_iterator mapIterator; int m_vectorIndex; }; template class ResultIterator : public ResultIteratorBase { public: ResultIterator(const ResultIteratorBase &base) : ResultIteratorBase(base) { } const T &value() const { return *pointer(); } const T *pointer() const { if (mapIterator.value().isVector()) return &(reinterpret_cast *>(mapIterator.value().result)->at(m_vectorIndex)); else return reinterpret_cast(mapIterator.value().result); } }; class Q_CORE_EXPORT ResultStoreBase { public: ResultStoreBase(); void setFilterMode(bool enable); bool filterMode() const; int addResult(int index, const void *result); int addResults(int index, const void *results, int vectorSize, int logicalCount); ResultIteratorBase begin() const; ResultIteratorBase end() const; bool hasNextResult() const; ResultIteratorBase resultAt(int index) const; bool contains(int index) const; int count() const; virtual ~ResultStoreBase() { }; protected: int insertResultItem(int index, ResultItem &resultItem); void insertResultItemIfValid(int index, ResultItem &resultItem); void syncPendingResults(); void syncResultCount(); int updateInsertIndex(int index, int _count); QMap m_results; int insertIndex; // The index where the next results(s) will be inserted. int resultCount; // The number of consecutive results stored, starting at index 0. bool m_filterMode; QMap pendingResults; int filteredResults; }; template class ResultStore : public ResultStoreBase { public: ResultStore() { } ResultStore(const ResultStoreBase &base) : ResultStoreBase(base) { } int addResult(int index, const T *result) { if (result == 0) return ResultStoreBase::addResult(index, result); else return ResultStoreBase::addResult(index, new T(*result)); } int addResults(int index, const QVector *results) { return ResultStoreBase::addResults(index, new QVector(*results), results->count(), results->count()); } int addResults(int index, const QVector *results, int totalCount) { return ResultStoreBase::addResults(index, new QVector(*results), results->count(), totalCount); } int addCanceledResult(int index) { return addResult(index, 0); } int addCanceledResults(int index, int _count) { QVector empty; return addResults(index, &empty, _count); } ResultIterator begin() const { return static_cast >(ResultStoreBase::begin()); } ResultIterator end() const { return static_cast >(ResultStoreBase::end()); } ResultIterator resultAt(int index) const { return static_cast >(ResultStoreBase::resultAt(index)); } void clear() { QMap::const_iterator mapIterator = m_results.constBegin(); while (mapIterator != m_results.constEnd()) { if (mapIterator.value().isVector()) delete reinterpret_cast *>(mapIterator.value().result); else delete reinterpret_cast(mapIterator.value().result); ++mapIterator; } resultCount = 0; m_results.clear(); } ~ResultStore() { clear(); } }; } // namespace QtConcurrent #endif //qdoc QT_END_NAMESPACE QT_END_HEADER #endif // QT_NO_CONCURRENT #endif