// Copyright (C) 2020 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 QFUTUREINTERFACE_H #define QFUTUREINTERFACE_H #include #include #ifndef QT_NO_EXCEPTIONS #include #endif #include QT_REQUIRE_CONFIG(future); QT_FORWARD_DECLARE_CLASS(QRunnable) QT_FORWARD_DECLARE_CLASS(QException) QT_BEGIN_NAMESPACE template class QFuture; class QThreadPool; class QFutureInterfaceBasePrivate; class QFutureWatcherBase; class QFutureWatcherBasePrivate; namespace QtPrivate { template class Continuation; class ExceptionStore; template class CanceledHandler; #ifndef QT_NO_EXCEPTIONS template class FailureHandler; #endif } class Q_CORE_EXPORT QFutureInterfaceBase { public: enum State { NoState = 0x00, Running = 0x01, Started = 0x02, Finished = 0x04, Canceled = 0x08, Suspending = 0x10, Suspended = 0x20, Throttled = 0x40, // Pending means that the future depends on another one, which is not finished yet Pending = 0x80, }; QFutureInterfaceBase(State initialState = NoState); QFutureInterfaceBase(const QFutureInterfaceBase &other); QFutureInterfaceBase(QFutureInterfaceBase &&other) noexcept : d(std::exchange(other.d, nullptr)) {} QFutureInterfaceBase &operator=(const QFutureInterfaceBase &other); QT_MOVE_ASSIGNMENT_OPERATOR_IMPL_VIA_MOVE_AND_SWAP(QFutureInterfaceBase) virtual ~QFutureInterfaceBase(); // reporting functions available to the engine author: void reportStarted(); void reportFinished(); void reportCanceled(); #ifndef QT_NO_EXCEPTIONS void reportException(const QException &e); #if QT_VERSION < QT_VERSION_CHECK(7, 0, 0) void reportException(std::exception_ptr e); #else void reportException(const std::exception_ptr &e); #endif #endif void reportResultsReady(int beginIndex, int endIndex); void setRunnable(QRunnable *runnable); void setThreadPool(QThreadPool *pool); QThreadPool *threadPool() const; void setFilterMode(bool enable); void setProgressRange(int minimum, int maximum); int progressMinimum() const; int progressMaximum() const; bool isProgressUpdateNeeded() const; void setProgressValue(int progressValue); int progressValue() const; void setProgressValueAndText(int progressValue, const QString &progressText); QString progressText() const; void setExpectedResultCount(int resultCount); int expectedResultCount(); int resultCount() const; bool queryState(State state) const; bool isRunning() const; bool isStarted() const; bool isCanceled() const; bool isFinished() const; #if QT_DEPRECATED_SINCE(6, 0) QT_DEPRECATED_VERSION_X_6_0("Use isSuspending() or isSuspended() instead.") bool isPaused() const; QT_DEPRECATED_VERSION_X_6_0("Use setSuspended() instead.") void setPaused(bool paused) { setSuspended(paused); } QT_DEPRECATED_VERSION_X_6_0("Use toggleSuspended() instead.") void togglePaused() { toggleSuspended(); } #endif bool isSuspending() const; bool isSuspended() const; bool isThrottled() const; bool isResultReadyAt(int index) const; bool isValid() const; int loadState() const; void cancel(); void cancelAndFinish() { cancel(CancelMode::CancelAndFinish); } void setSuspended(bool suspend); void toggleSuspended(); void reportSuspended() const; void setThrottled(bool enable); void waitForFinished(); bool waitForNextResult(); void waitForResult(int resultIndex); void waitForResume(); void suspendIfRequested(); QMutex &mutex() const; bool hasException() const; QtPrivate::ExceptionStore &exceptionStore(); QtPrivate::ResultStoreBase &resultStoreBase(); const QtPrivate::ResultStoreBase &resultStoreBase() const; inline bool operator==(const QFutureInterfaceBase &other) const { return d == other.d; } inline bool operator!=(const QFutureInterfaceBase &other) const { return d != other.d; } // ### Qt 7: inline void swap(QFutureInterfaceBase &other) noexcept; template static QFutureInterfaceBase get(const QFuture &future); // implemented in qfuture.h bool isChainCanceled() const; protected: // ### Qt 7: remove const from refT/derefT bool refT() const noexcept; bool derefT() const noexcept; void reset(); void rethrowPossibleException(); public: #ifndef QFUTURE_TEST private: #endif QFutureInterfaceBasePrivate *d; private: friend class QFutureWatcherBase; friend class QFutureWatcherBasePrivate; template friend class QtPrivate::Continuation; template friend class QtPrivate::CanceledHandler; #ifndef QT_NO_EXCEPTIONS template friend class QtPrivate::FailureHandler; #endif template friend class QPromise; protected: void setContinuation(std::function func); void setContinuation(std::function func, QFutureInterfaceBasePrivate *continuationFutureData); void cleanContinuation(); void runContinuation() const; void setLaunchAsync(bool value); bool launchAsync() const; bool isRunningOrPending() const; enum class CancelMode { CancelOnly, CancelAndFinish }; void cancel(CancelMode mode); }; inline void swap(QFutureInterfaceBase &lhs, QFutureInterfaceBase &rhs) noexcept { lhs.swap(rhs); } template class QFutureInterface : public QFutureInterfaceBase { public: QFutureInterface(State initialState = NoState) : QFutureInterfaceBase(initialState) { refT(); } QFutureInterface(const QFutureInterface &other) : QFutureInterfaceBase(other) { refT(); } QFutureInterface(const QFutureInterfaceBase &dd) : QFutureInterfaceBase(dd) { refT(); } QFutureInterface(QFutureInterfaceBase &&dd) noexcept : QFutureInterfaceBase(std::move(dd)) { refT(); } QFutureInterface &operator=(const QFutureInterface &other) { QFutureInterface copy(other); swap(copy); return *this; } QFutureInterface(QFutureInterface &&other) = default; QT_MOVE_ASSIGNMENT_OPERATOR_IMPL_VIA_MOVE_AND_SWAP(QFutureInterface) ~QFutureInterface() { if (!derefT() && !hasException()) resultStoreBase().template clear(); } static QFutureInterface canceledResult() { return QFutureInterface(State(Started | Finished | Canceled)); } inline QFuture future(); // implemented in qfuture.h inline bool reportResult(const T *result, int index = -1); inline bool reportAndMoveResult(T &&result, int index = -1); inline bool reportResult(T &&result, int index = -1); inline bool reportResult(const T &result, int index = -1); inline bool reportResults(const QList &results, int beginIndex = -1, int count = -1); inline bool reportFinished(const T *result); void reportFinished() { QFutureInterfaceBase::reportFinished(); QFutureInterfaceBase::runContinuation(); } inline const T &resultReference(int index) const; inline const T *resultPointer(int index) const; inline QList results(); T takeResult(); #if 0 // TODO: Enable and make it return a QList, when QList is fixed to support move-only types std::vector takeResults(); #endif #ifndef QT_NO_EXCEPTIONS void reportException(const std::exception_ptr &e) { if (hasException()) return; resultStoreBase().template clear(); QFutureInterfaceBase::reportException(e); } void reportException(const QException &e) { if (hasException()) return; resultStoreBase().template clear(); QFutureInterfaceBase::reportException(e); } #endif }; template inline bool QFutureInterface::reportResult(const T *result, int index) { QMutexLocker locker{&mutex()}; if (this->queryState(Canceled) || this->queryState(Finished)) return false; Q_ASSERT(!hasException()); QtPrivate::ResultStoreBase &store = resultStoreBase(); const int resultCountBefore = store.count(); const int insertIndex = store.addResult(index, result); if (insertIndex == -1) return false; if (store.filterMode()) { this->reportResultsReady(resultCountBefore, store.count()); } else { this->reportResultsReady(insertIndex, insertIndex + 1); } return true; } template bool QFutureInterface::reportAndMoveResult(T &&result, int index) { QMutexLocker locker{&mutex()}; if (queryState(Canceled) || queryState(Finished)) return false; Q_ASSERT(!hasException()); QtPrivate::ResultStoreBase &store = resultStoreBase(); const int oldResultCount = store.count(); const int insertIndex = store.moveResult(index, std::forward(result)); // Let's make sure it's not in pending results. if (insertIndex != -1 && (!store.filterMode() || oldResultCount < store.count())) reportResultsReady(insertIndex, store.count()); return insertIndex != -1; } template bool QFutureInterface::reportResult(T &&result, int index) { return reportAndMoveResult(std::move(result), index); } template inline bool QFutureInterface::reportResult(const T &result, int index) { return reportResult(&result, index); } template inline bool QFutureInterface::reportResults(const QList &_results, int beginIndex, int count) { QMutexLocker locker{&mutex()}; if (this->queryState(Canceled) || this->queryState(Finished)) return false; Q_ASSERT(!hasException()); auto &store = resultStoreBase(); const int resultCountBefore = store.count(); const int insertIndex = store.addResults(beginIndex, &_results, count); if (insertIndex == -1) return false; if (store.filterMode()) { this->reportResultsReady(resultCountBefore, store.count()); } else { this->reportResultsReady(insertIndex, insertIndex + _results.count()); } return true; } template inline bool QFutureInterface::reportFinished(const T *result) { bool resultReported = false; if (result) resultReported = reportResult(result); reportFinished(); return resultReported; } template inline const T &QFutureInterface::resultReference(int index) const { Q_ASSERT(!hasException()); QMutexLocker locker{&mutex()}; return resultStoreBase().resultAt(index).template value(); } template inline const T *QFutureInterface::resultPointer(int index) const { Q_ASSERT(!hasException()); QMutexLocker locker{&mutex()}; return resultStoreBase().resultAt(index).template pointer(); } template inline QList QFutureInterface::results() { if (this->isCanceled()) { rethrowPossibleException(); return QList(); } QFutureInterfaceBase::waitForResult(-1); QList res; QMutexLocker locker{&mutex()}; QtPrivate::ResultIteratorBase it = resultStoreBase().begin(); while (it != resultStoreBase().end()) { res.append(it.value()); ++it; } return res; } template T QFutureInterface::takeResult() { Q_ASSERT(isValid()); // Note: we wait for all, this is intentional, // not to mess with other unready results. waitForResult(-1); Q_ASSERT(!hasException()); const QMutexLocker locker{&mutex()}; QtPrivate::ResultIteratorBase position = resultStoreBase().resultAt(0); T ret(std::move_if_noexcept(position.value())); reset(); resultStoreBase().template clear(); return ret; } #if 0 template std::vector QFutureInterface::takeResults() { Q_ASSERT(isValid()); waitForResult(-1); Q_ASSERT(!hasException()); std::vector res; res.reserve(resultCount()); const QMutexLocker locker{&mutex()}; QtPrivate::ResultIteratorBase it = resultStoreBase().begin(); for (auto endIt = resultStoreBase().end(); it != endIt; ++it) res.push_back(std::move_if_noexcept(it.value())); reset(); resultStoreBase().template clear(); return res; } #endif template <> class QFutureInterface : public QFutureInterfaceBase { public: explicit QFutureInterface(State initialState = NoState) : QFutureInterfaceBase(initialState) { } QFutureInterface(const QFutureInterfaceBase &dd) : QFutureInterfaceBase(dd) { } static QFutureInterface canceledResult() { return QFutureInterface(State(Started | Finished | Canceled)); } inline QFuture future(); // implemented in qfuture.h bool reportResult(const void *, int) { return false; } bool reportResults(const QList &, int) { return false; } bool reportFinished(const void *) { reportFinished(); return false; } void reportFinished() { QFutureInterfaceBase::reportFinished(); QFutureInterfaceBase::runContinuation(); } }; template inline void swap(QFutureInterface &a, QFutureInterface &b) noexcept { a.swap(b); } QT_END_NAMESPACE #endif // QFUTUREINTERFACE_H