portable-devtools / qt /6.8.1 /msvc2022_64 /include /QtConcurrent /qtconcurrentmapkernel.h
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// 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_MAPKERNEL_H
#define QTCONCURRENT_MAPKERNEL_H
#include <QtConcurrent/qtconcurrent_global.h>
#if !defined(QT_NO_CONCURRENT) || defined (Q_QDOC)
#include <QtConcurrent/qtconcurrentiteratekernel.h>
#include <QtConcurrent/qtconcurrentreducekernel.h>
#include <QtConcurrent/qtconcurrentfunctionwrappers.h>
QT_BEGIN_NAMESPACE
namespace QtConcurrent {
// map kernel, works with both parallel-for and parallel-while
template <typename Iterator, typename MapFunctor>
class MapKernel : public IterateKernel<Iterator, void>
{
MapFunctor map;
public:
typedef void ReturnType;
template <typename F = MapFunctor>
MapKernel(QThreadPool *pool, Iterator begin, Iterator end, F &&_map)
: IterateKernel<Iterator, void>(pool, begin, end), map(std::forward<F>(_map))
{ }
bool runIteration(Iterator it, int, void *) override
{
std::invoke(map, *it);
return false;
}
bool runIterations(Iterator sequenceBeginIterator, int beginIndex, int endIndex, void *) override
{
Iterator it = sequenceBeginIterator;
std::advance(it, beginIndex);
for (int i = beginIndex; i < endIndex; ++i) {
runIteration(it, i, nullptr);
std::advance(it, 1);
}
return false;
}
};
template <typename ReducedResultType,
typename Iterator,
typename MapFunctor,
typename ReduceFunctor,
typename Reducer = ReduceKernel<ReduceFunctor,
ReducedResultType,
QtPrivate::MapResultType<Iterator, MapFunctor>>>
class MappedReducedKernel : public IterateKernel<Iterator, ReducedResultType>
{
ReducedResultType &reducedResult;
MapFunctor map;
ReduceFunctor reduce;
Reducer reducer;
using IntermediateResultsType = QtPrivate::MapResultType<Iterator, MapFunctor>;
public:
typedef ReducedResultType ReturnType;
template<typename F1 = MapFunctor, typename F2 = ReduceFunctor>
MappedReducedKernel(QThreadPool *pool, Iterator begin, Iterator end, F1 &&_map, F2 &&_reduce,
ReduceOptions reduceOptions)
: IterateKernel<Iterator, ReducedResultType>(pool, begin, end),
reducedResult(this->defaultValue.value),
map(std::forward<F1>(_map)),
reduce(std::forward<F2>(_reduce)),
reducer(pool, reduceOptions)
{ }
template<typename F1 = MapFunctor, typename F2 = ReduceFunctor>
MappedReducedKernel(QThreadPool *pool, Iterator begin, Iterator end, F1 &&_map, F2 &&_reduce,
ReducedResultType &&initialValue, ReduceOptions reduceOptions)
: IterateKernel<Iterator, ReducedResultType>(pool, begin, end,
std::forward<ReducedResultType>(initialValue)),
reducedResult(this->defaultValue.value),
map(std::forward<F1>(_map)),
reduce(std::forward<F2>(_reduce)),
reducer(pool, reduceOptions)
{
}
bool runIteration(Iterator it, int index, ReducedResultType *) override
{
IntermediateResults<IntermediateResultsType> results;
results.begin = index;
results.end = index + 1;
results.vector.append(std::invoke(map, *it));
reducer.runReduce(reduce, reducedResult, results);
return false;
}
bool runIterations(Iterator sequenceBeginIterator, int beginIndex, int endIndex, ReducedResultType *) override
{
IntermediateResults<IntermediateResultsType> results;
results.begin = beginIndex;
results.end = endIndex;
results.vector.reserve(endIndex - beginIndex);
Iterator it = sequenceBeginIterator;
std::advance(it, beginIndex);
for (int i = beginIndex; i < endIndex; ++i) {
results.vector.append(std::invoke(map, *it));
std::advance(it, 1);
}
reducer.runReduce(reduce, reducedResult, results);
return false;
}
void finish() override
{
reducer.finish(reduce, reducedResult);
}
bool shouldThrottleThread() override
{
return IterateKernel<Iterator, ReducedResultType>::shouldThrottleThread() || reducer.shouldThrottle();
}
bool shouldStartThread() override
{
return IterateKernel<Iterator, ReducedResultType>::shouldStartThread() && reducer.shouldStartThread();
}
typedef ReducedResultType ResultType;
ReducedResultType *result() override
{
return &reducedResult;
}
};
template <typename Iterator, typename MapFunctor>
class MappedEachKernel : public IterateKernel<Iterator, QtPrivate::MapResultType<Iterator, MapFunctor>>
{
MapFunctor map;
using T = QtPrivate::MapResultType<Iterator, MapFunctor>;
public:
template <typename F = MapFunctor>
MappedEachKernel(QThreadPool *pool, Iterator begin, Iterator end, F &&_map)
: IterateKernel<Iterator, T>(pool, begin, end), map(std::forward<F>(_map))
{ }
bool runIteration(Iterator it, int, T *result) override
{
*result = std::invoke(map, *it);
return true;
}
bool runIterations(Iterator sequenceBeginIterator, int beginIndex, int endIndex, T *results) override
{
Iterator it = sequenceBeginIterator;
std::advance(it, beginIndex);
for (int i = beginIndex; i < endIndex; ++i) {
runIteration(it, i, results + (i - beginIndex));
std::advance(it, 1);
}
return true;
}
};
//! [qtconcurrentmapkernel-1]
template <typename Iterator, typename Functor>
inline ThreadEngineStarter<void> startMap(QThreadPool *pool, Iterator begin,
Iterator end, Functor &&functor)
{
return startThreadEngine(new MapKernel<Iterator, std::decay_t<Functor>>(
pool, begin, end, std::forward<Functor>(functor)));
}
//! [qtconcurrentmapkernel-2]
template <typename T, typename Iterator, typename Functor>
inline ThreadEngineStarter<T> startMapped(QThreadPool *pool, Iterator begin,
Iterator end, Functor &&functor)
{
return startThreadEngine(new MappedEachKernel<Iterator, std::decay_t<Functor>>(
pool, begin, end, std::forward<Functor>(functor)));
}
/*
The SequnceHolder class is used to hold a reference to the
sequence we are working on.
*/
template <typename Sequence, typename Base, typename Functor>
struct SequenceHolder1 : private QtPrivate::SequenceHolder<Sequence>, public Base
{
template<typename S = Sequence, typename F = Functor>
SequenceHolder1(QThreadPool *pool, S &&_sequence, F &&functor)
: QtPrivate::SequenceHolder<Sequence>(std::forward<S>(_sequence)),
Base(pool, this->sequence.cbegin(), this->sequence.cend(), std::forward<F>(functor))
{ }
void finish() override
{
Base::finish();
// Clear the sequence to make sure all temporaries are destroyed
// before finished is signaled.
this->sequence = Sequence();
}
};
//! [qtconcurrentmapkernel-3]
template <typename T, typename Sequence, typename Functor>
inline ThreadEngineStarter<T> startMapped(QThreadPool *pool, Sequence &&sequence,
Functor &&functor)
{
using DecayedSequence = std::decay_t<Sequence>;
using DecayedFunctor = std::decay_t<Functor>;
using SequenceHolderType = SequenceHolder1<
DecayedSequence,
MappedEachKernel<typename DecayedSequence::const_iterator, DecayedFunctor>,
DecayedFunctor>;
return startThreadEngine(new SequenceHolderType(pool, std::forward<Sequence>(sequence),
std::forward<Functor>(functor)));
}
//! [qtconcurrentmapkernel-4]
template <typename IntermediateType, typename ResultType, typename Sequence, typename MapFunctor,
typename ReduceFunctor>
inline ThreadEngineStarter<ResultType> startMappedReduced(QThreadPool *pool,
Sequence &&sequence,
MapFunctor &&mapFunctor,
ReduceFunctor &&reduceFunctor,
ReduceOptions options)
{
using DecayedSequence = std::decay_t<Sequence>;
using DecayedMapFunctor = std::decay_t<MapFunctor>;
using DecayedReduceFunctor = std::decay_t<ReduceFunctor>;
using Iterator = typename DecayedSequence::const_iterator;
using Reducer = ReduceKernel<DecayedReduceFunctor, ResultType, IntermediateType>;
using MappedReduceType = MappedReducedKernel<ResultType, Iterator, DecayedMapFunctor,
DecayedReduceFunctor, Reducer>;
using SequenceHolderType = SequenceHolder2<DecayedSequence, MappedReduceType, DecayedMapFunctor,
DecayedReduceFunctor>;
return startThreadEngine(new SequenceHolderType(pool, std::forward<Sequence>(sequence),
std::forward<MapFunctor>(mapFunctor),
std::forward<ReduceFunctor>(reduceFunctor),
options));
}
//! [qtconcurrentmapkernel-5]
template <typename IntermediateType, typename ResultType, typename Iterator, typename MapFunctor,
typename ReduceFunctor>
inline ThreadEngineStarter<ResultType> startMappedReduced(QThreadPool *pool,
Iterator begin,
Iterator end,
MapFunctor &&mapFunctor,
ReduceFunctor &&reduceFunctor,
ReduceOptions options)
{
using Reducer =
ReduceKernel<std::decay_t<ReduceFunctor>, std::decay_t<ResultType>, IntermediateType>;
using MappedReduceType = MappedReducedKernel<ResultType, Iterator, std::decay_t<MapFunctor>,
std::decay_t<ReduceFunctor>, Reducer>;
return startThreadEngine(new MappedReduceType(pool, begin, end,
std::forward<MapFunctor>(mapFunctor),
std::forward<ReduceFunctor>(reduceFunctor),
options));
}
//! [qtconcurrentmapkernel-6]
template <typename IntermediateType, typename ResultType, typename Sequence, typename MapFunctor,
typename ReduceFunctor>
inline ThreadEngineStarter<ResultType> startMappedReduced(QThreadPool *pool,
Sequence &&sequence,
MapFunctor &&mapFunctor,
ReduceFunctor &&reduceFunctor,
ResultType &&initialValue,
ReduceOptions options)
{
using DecayedSequence = std::decay_t<Sequence>;
using DecayedMapFunctor = std::decay_t<MapFunctor>;
using DecayedReduceFunctor = std::decay_t<ReduceFunctor>;
using Iterator = typename DecayedSequence::const_iterator;
using Reducer = ReduceKernel<DecayedReduceFunctor, ResultType, IntermediateType>;
using MappedReduceType = MappedReducedKernel<ResultType, Iterator, DecayedMapFunctor,
DecayedReduceFunctor, Reducer>;
using SequenceHolderType = SequenceHolder2<DecayedSequence, MappedReduceType, DecayedMapFunctor,
DecayedReduceFunctor>;
return startThreadEngine(
new SequenceHolderType(pool, std::forward<Sequence>(sequence),
std::forward<MapFunctor>(mapFunctor),
std::forward<ReduceFunctor>(reduceFunctor),
std::forward<ResultType>(initialValue), options));
}
//! [qtconcurrentmapkernel-7]
template <typename IntermediateType, typename ResultType, typename Iterator, typename MapFunctor,
typename ReduceFunctor>
inline ThreadEngineStarter<ResultType> startMappedReduced(QThreadPool *pool,
Iterator begin,
Iterator end,
MapFunctor &&mapFunctor,
ReduceFunctor &&reduceFunctor,
ResultType &&initialValue,
ReduceOptions options)
{
using Reducer = ReduceKernel<std::decay_t<ReduceFunctor>, ResultType, IntermediateType>;
using MappedReduceType = MappedReducedKernel<ResultType, Iterator, std::decay_t<MapFunctor>,
std::decay_t<ReduceFunctor>, Reducer>;
return startThreadEngine(new MappedReduceType(pool, begin, end,
std::forward<MapFunctor>(mapFunctor),
std::forward<ReduceFunctor>(reduceFunctor),
std::forward<ResultType>(initialValue), options));
}
} // namespace QtConcurrent
QT_END_NAMESPACE
#endif // QT_NO_CONCURRENT
#endif