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| #ifndef QTCONCURRENT_REDUCEKERNEL_H
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| #define QTCONCURRENT_REDUCEKERNEL_H
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| #include <QtConcurrent/qtconcurrent_global.h>
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| #if !defined(QT_NO_CONCURRENT) || defined(Q_QDOC)
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|
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| #include <QtCore/qatomic.h>
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| #include <QtCore/qlist.h>
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| #include <QtCore/qmap.h>
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| #include <QtCore/qmutex.h>
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| #include <QtCore/qthread.h>
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| #include <QtCore/qthreadpool.h>
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| #include <mutex>
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| QT_BEGIN_NAMESPACE
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|
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| namespace QtPrivate {
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|
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| template<typename Sequence>
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| struct SequenceHolder
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| {
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| SequenceHolder(const Sequence &s) : sequence(s) { }
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| SequenceHolder(Sequence &&s) : sequence(std::move(s)) { }
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| Sequence sequence;
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| };
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|
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| }
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|
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| namespace QtConcurrent {
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| |
| |
| |
| |
| |
| |
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| #ifdef Q_QDOC
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| enum ReduceQueueLimits {
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| ReduceQueueStartLimit = 20,
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| ReduceQueueThrottleLimit = 30
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| };
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| #else
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| enum {
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| ReduceQueueStartLimit = 20,
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| ReduceQueueThrottleLimit = 30
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| };
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| #endif
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| template <typename T>
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| class IntermediateResults
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| {
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| public:
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| int begin, end;
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| QList<T> vector;
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| };
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|
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| enum ReduceOption {
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| UnorderedReduce = 0x1,
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| OrderedReduce = 0x2,
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| SequentialReduce = 0x4
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|
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| };
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| Q_DECLARE_FLAGS(ReduceOptions, ReduceOption)
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| #ifndef Q_QDOC
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| Q_DECLARE_OPERATORS_FOR_FLAGS(ReduceOptions)
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| #endif
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| template <typename ReduceFunctor, typename ReduceResultType, typename T>
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| class ReduceKernel
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| {
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| typedef QMap<int, IntermediateResults<T> > ResultsMap;
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| const ReduceOptions reduceOptions;
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| QMutex mutex;
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| int progress, resultsMapSize;
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| const int threadCount;
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| ResultsMap resultsMap;
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| bool canReduce(int begin) const
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| {
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| return (((reduceOptions & UnorderedReduce)
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| && progress == 0)
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| || ((reduceOptions & OrderedReduce)
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| && progress == begin));
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| }
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| void reduceResult(ReduceFunctor &reduce,
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| ReduceResultType &r,
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| const IntermediateResults<T> &result)
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| {
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| for (int i = 0; i < result.vector.size(); ++i) {
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| std::invoke(reduce, r, result.vector.at(i));
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| }
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| }
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| void reduceResults(ReduceFunctor &reduce,
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| ReduceResultType &r,
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| ResultsMap &map)
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| {
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| typename ResultsMap::iterator it = map.begin();
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| while (it != map.end()) {
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| reduceResult(reduce, r, it.value());
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| ++it;
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| }
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| }
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| public:
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| ReduceKernel(QThreadPool *pool, ReduceOptions _reduceOptions)
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| : reduceOptions(_reduceOptions), progress(0), resultsMapSize(0),
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| threadCount(std::max(pool->maxThreadCount(), 1))
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| { }
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| void runReduce(ReduceFunctor &reduce,
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| ReduceResultType &r,
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| const IntermediateResults<T> &result)
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| {
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| std::unique_lock<QMutex> locker(mutex);
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| if (!canReduce(result.begin)) {
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| ++resultsMapSize;
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| resultsMap.insert(result.begin, result);
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| return;
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| }
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| if (reduceOptions & UnorderedReduce) {
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| progress = -1;
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| locker.unlock();
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| reduceResult(reduce, r, result);
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| locker.lock();
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| while (!resultsMap.isEmpty()) {
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| ResultsMap resultsMapCopy = resultsMap;
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| resultsMap.clear();
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| locker.unlock();
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| reduceResults(reduce, r, resultsMapCopy);
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| locker.lock();
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| resultsMapSize -= resultsMapCopy.size();
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| }
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| progress = 0;
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| } else {
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| locker.unlock();
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| reduceResult(reduce, r, result);
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| locker.lock();
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| progress += result.end - result.begin;
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| typename ResultsMap::iterator it = resultsMap.begin();
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| while (it != resultsMap.end()) {
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| if (it.value().begin != progress)
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| break;
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| locker.unlock();
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| reduceResult(reduce, r, it.value());
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| locker.lock();
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| --resultsMapSize;
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| progress += it.value().end - it.value().begin;
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| it = resultsMap.erase(it);
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| }
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| }
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| }
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| void finish(ReduceFunctor &reduce, ReduceResultType &r)
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| {
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| reduceResults(reduce, r, resultsMap);
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| }
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|
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| inline bool shouldThrottle()
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| {
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| std::lock_guard<QMutex> locker(mutex);
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| return (resultsMapSize > (ReduceQueueThrottleLimit * threadCount));
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| }
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| inline bool shouldStartThread()
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| {
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| std::lock_guard<QMutex> locker(mutex);
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| return (resultsMapSize <= (ReduceQueueStartLimit * threadCount));
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| }
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| };
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|
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| template <typename Sequence, typename Base, typename Functor1, typename Functor2>
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| struct SequenceHolder2 : private QtPrivate::SequenceHolder<Sequence>, public Base
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| {
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| template<typename S = Sequence, typename F1 = Functor1, typename F2 = Functor2>
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| SequenceHolder2(QThreadPool *pool, S &&_sequence, F1 &&functor1, F2 &&functor2,
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| ReduceOptions reduceOptions)
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| : QtPrivate::SequenceHolder<Sequence>(std::forward<S>(_sequence)),
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| Base(pool, this->sequence.cbegin(), this->sequence.cend(),
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| std::forward<F1>(functor1), std::forward<F2>(functor2), reduceOptions)
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| { }
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|
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| template<typename InitialValueType, typename S = Sequence,
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| typename F1 = Functor1, typename F2 = Functor2>
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| SequenceHolder2(QThreadPool *pool, S &&_sequence, F1 &&functor1, F2 &&functor2,
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| InitialValueType &&initialValue, ReduceOptions reduceOptions)
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| : QtPrivate::SequenceHolder<Sequence>(std::forward<S>(_sequence)),
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| Base(pool, this->sequence.cbegin(), this->sequence.cend(),
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| std::forward<F1>(functor1), std::forward<F2>(functor2),
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| std::forward<InitialValueType>(initialValue), reduceOptions)
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| { }
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|
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| void finish() override
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| {
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| Base::finish();
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| this->sequence = Sequence();
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| }
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| };
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|
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| }
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| QT_END_NAMESPACE
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|
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| #endif
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|
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| #endif
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