// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only #ifndef QTCONCURRENT_FILTER_H #define QTCONCURRENT_FILTER_H #if 0 #pragma qt_class(QtConcurrentFilter) #endif #include #if !defined(QT_NO_CONCURRENT) || defined(Q_QDOC) #include #include QT_BEGIN_NAMESPACE namespace QtConcurrent { //! [QtConcurrent-1] template ThreadEngineStarter filterInternal(QThreadPool *pool, Sequence &sequence, KeepFunctor &&keep, ReduceFunctor &&reduce) { typedef FilterKernel, std::decay_t> KernelType; return startThreadEngine(new KernelType(pool, sequence, std::forward(keep), std::forward(reduce))); } // filter() on sequences template QFuture filter(QThreadPool *pool, Sequence &sequence, KeepFunctor &&keep) { return filterInternal(pool, sequence, std::forward(keep), QtPrivate::PushBackWrapper()); } template QFuture filter(Sequence &sequence, KeepFunctor &&keep) { return filterInternal(QThreadPool::globalInstance(), sequence, std::forward(keep), QtPrivate::PushBackWrapper()); } // filteredReduced() on sequences template QFuture filteredReduced(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced(pool, std::forward(sequence), std::forward(keep), std::forward(reduce), options); } template QFuture filteredReduced(Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( QThreadPool::globalInstance(), std::forward(sequence), std::forward(keep), std::forward(reduce), options); } #ifdef Q_QDOC template #else template , int> = 0> #endif QFuture filteredReduced(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( pool, std::forward(sequence), std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); } #ifdef Q_QDOC template #else template , int> = 0> #endif QFuture filteredReduced(Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( QThreadPool::globalInstance(), std::forward(sequence), std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); } #ifndef Q_QDOC template ::value, int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type> QFuture filteredReduced(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced(pool, std::forward(sequence), std::forward(keep), std::forward(reduce), options); } template ::value, int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type> QFuture filteredReduced(Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( QThreadPool::globalInstance(), std::forward(sequence), std::forward(keep), std::forward(reduce), options); } template ::value, int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type, std::enable_if_t, int> = 0> QFuture filteredReduced(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( pool, std::forward(sequence), std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); } template ::value, int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type, std::enable_if_t, int> = 0> QFuture filteredReduced(Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( QThreadPool::globalInstance(), std::forward(sequence), std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); } #endif // filteredReduced() on iterators template QFuture filteredReduced(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced(pool, begin, end, std::forward(keep), std::forward(reduce), options); } template QFuture filteredReduced(Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced(QThreadPool::globalInstance(), begin, end, std::forward(keep), std::forward(reduce), options); } #ifdef Q_QDOC template #else template , int> = 0> #endif QFuture filteredReduced(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( pool, begin, end, std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); } #ifdef Q_QDOC template #else template , int> = 0> #endif QFuture filteredReduced(Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( QThreadPool::globalInstance(), begin, end, std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); } #ifndef Q_QDOC template ::type> QFuture filteredReduced(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced(pool, begin, end, std::forward(keep), std::forward(reduce), options); } template ::type> QFuture filteredReduced(Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced(QThreadPool::globalInstance(), begin, end, std::forward(keep), std::forward(reduce), options); } template ::type, typename InitialValueType, std::enable_if_t, int> = 0> QFuture filteredReduced(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( pool, begin, end, std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); } template , int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type, typename InitialValueType, std::enable_if_t, int> = 0> QFuture filteredReduced(Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { return startFilteredReduced( QThreadPool::globalInstance(), begin, end, std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); } #endif // filtered() on sequences template QFuture::value_type> filtered(QThreadPool *pool,Sequence &&sequence, KeepFunctor &&keep) { return startFiltered(pool, std::forward(sequence), std::forward(keep)); } template QFuture::value_type> filtered(Sequence &&sequence, KeepFunctor &&keep) { return startFiltered(QThreadPool::globalInstance(), std::forward(sequence), std::forward(keep)); } // filtered() on iterators template QFuture::value_type> filtered(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep) { return startFiltered(pool, begin, end, std::forward(keep)); } template QFuture::value_type> filtered(Iterator begin, Iterator end, KeepFunctor &&keep) { return startFiltered(QThreadPool::globalInstance(), begin, end, std::forward(keep)); } // blocking filter() on sequences template void blockingFilter(QThreadPool *pool, Sequence &sequence, KeepFunctor &&keep) { QFuture future = filter(pool, sequence, std::forward(keep)); future.waitForFinished(); } template void blockingFilter(Sequence &sequence, KeepFunctor &&keep) { QFuture future = filter(sequence, std::forward(keep)); future.waitForFinished(); } // blocking filteredReduced() on sequences template ResultType blockingFilteredReduced(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( pool, std::forward(sequence), std::forward(keep), std::forward(reduce), options); return future.takeResult(); } template ResultType blockingFilteredReduced(Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( std::forward(sequence), std::forward(keep), std::forward(reduce), options); return future.takeResult(); } #ifdef Q_QDOC template #else template , int> = 0> #endif ResultType blockingFilteredReduced(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( pool, std::forward(sequence), std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); return future.takeResult(); } #ifdef Q_QDOC template #else template , int> = 0> #endif ResultType blockingFilteredReduced(Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( std::forward(sequence), std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); return future.takeResult(); } #ifndef Q_QDOC template ::value, int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type> ResultType blockingFilteredReduced(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( pool, std::forward(sequence), std::forward(keep), std::forward(reduce), options); return future.takeResult(); } template ::value, int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type> ResultType blockingFilteredReduced(Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( std::forward(sequence), std::forward(keep), std::forward(reduce), options); return future.takeResult(); } template ::value, int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type, std::enable_if_t, int> = 0> ResultType blockingFilteredReduced(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( pool, std::forward(sequence), std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); return future.takeResult(); } template ::value, int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type, std::enable_if_t, int> = 0> ResultType blockingFilteredReduced(Sequence &&sequence, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( std::forward(sequence), std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); return future.takeResult(); } #endif // blocking filteredReduced() on iterators template ResultType blockingFilteredReduced(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced(pool, begin, end, std::forward(keep), std::forward(reduce), options); return future.takeResult(); } template ResultType blockingFilteredReduced(Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced(begin, end, std::forward(keep), std::forward(reduce), options); return future.takeResult(); } #ifdef Q_QDOC template #else template , int> = 0> #endif ResultType blockingFilteredReduced(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( pool, begin, end, std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); return future.takeResult(); } #ifdef Q_QDOC template #else template , int> = 0> #endif ResultType blockingFilteredReduced(Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( begin, end, std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); return future.takeResult(); } #ifndef Q_QDOC template ::type> ResultType blockingFilteredReduced(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced(pool, begin, end, std::forward(keep), std::forward(reduce), options); return future.takeResult(); } template ::type> ResultType blockingFilteredReduced(Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced(begin, end, std::forward(keep), std::forward(reduce), options); return future.takeResult(); } template ::type, typename InitialValueType, std::enable_if_t, int> = 0> ResultType blockingFilteredReduced(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( pool, begin, end, std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); return future.takeResult(); } template , int> = 0, typename ResultType = typename QtPrivate::ReduceResultTypeHelper::type, typename InitialValueType, std::enable_if_t, int> = 0> ResultType blockingFilteredReduced(Iterator begin, Iterator end, KeepFunctor &&keep, ReduceFunctor &&reduce, InitialValueType &&initialValue, ReduceOptions options = ReduceOptions(UnorderedReduce | SequentialReduce)) { QFuture future = filteredReduced( begin, end, std::forward(keep), std::forward(reduce), ResultType(std::forward(initialValue)), options); return future.takeResult(); } #endif // blocking filtered() on sequences template std::decay_t blockingFiltered(QThreadPool *pool, Sequence &&sequence, KeepFunctor &&keep) { return blockingFilteredReduced>( pool, std::forward(sequence), std::forward(keep), QtPrivate::PushBackWrapper(), OrderedReduce); } template std::decay_t blockingFiltered(Sequence &&sequence, KeepFunctor &&keep) { return blockingFilteredReduced>( QThreadPool::globalInstance(), std::forward(sequence), std::forward(keep), QtPrivate::PushBackWrapper(), OrderedReduce); } // blocking filtered() on iterators template OutputSequence blockingFiltered(QThreadPool *pool, Iterator begin, Iterator end, KeepFunctor &&keep) { return blockingFilteredReduced(pool, begin, end, std::forward(keep), QtPrivate::PushBackWrapper(), OrderedReduce); } template OutputSequence blockingFiltered(Iterator begin, Iterator end, KeepFunctor &&keep) { return blockingFilteredReduced(QThreadPool::globalInstance(), begin, end, std::forward(keep), QtPrivate::PushBackWrapper(), OrderedReduce); } } // namespace QtConcurrent QT_END_NAMESPACE #endif // QT_NO_CONCURRENT #endif