qt6windows7/tests/auto/concurrent/qtconcurrentmap/tst_qtconcurrentmap.cpp

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2023-10-30 06:33:08 +08:00
// Copyright (C) 2016 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
#include <qtconcurrentmap.h>
#include <qexception.h>
#include <qdebug.h>
#include <QThread>
#include <QMutex>
#include <QTest>
#include <QSet>
#include <QRandomGenerator>
#include "../testhelper_functions.h"
class tst_QtConcurrentMap : public QObject
{
Q_OBJECT
private slots:
void map();
void blockingMap();
void mapOnRvalue();
void mapped();
void mappedThreadPool();
void mappedWithMoveOnlyCallable();
void mappedReduced();
void mappedReducedThreadPool();
void mappedReducedWithMoveOnlyCallable();
void mappedReducedDifferentType();
void mappedReducedInitialValue();
void mappedReducedInitialValueThreadPool();
void mappedReducedInitialValueWithMoveOnlyCallable();
void mappedReducedDifferentTypeInitialValue();
void mappedReduceOptionConvertableToResultType();
void assignResult();
void functionOverloads();
void noExceptFunctionOverloads();
#ifndef QT_NO_EXCEPTIONS
void exceptions();
#endif
void incrementalResults();
void noDetach();
void stlContainers();
void stlContainersLambda();
void qFutureAssignmentLeak();
void stressTest();
void persistentResultTest();
public slots:
void throttling();
};
using namespace QtConcurrent;
void multiplyBy2Immutable(int x)
{
x *= 2;
}
class MultiplyBy2Immutable
{
public:
void operator()(int x)
{
x *= 2;
}
};
void multiplyBy2InPlace(int &x)
{
x *= 2;
}
class MultiplyBy2InPlace
{
public:
void operator()(int &x)
{
x *= 2;
}
};
class MultiplyBy2InPlaceMoveOnly
{
public:
MultiplyBy2InPlaceMoveOnly() = default;
MultiplyBy2InPlaceMoveOnly(MultiplyBy2InPlaceMoveOnly &&) = default;
MultiplyBy2InPlaceMoveOnly &operator=(MultiplyBy2InPlaceMoveOnly &&other) = default;
MultiplyBy2InPlaceMoveOnly(const MultiplyBy2InPlaceMoveOnly &) = delete;
MultiplyBy2InPlaceMoveOnly &operator=(const MultiplyBy2InPlaceMoveOnly &) = delete;
void operator()(int &x) { x *= 2; }
};
Q_DECLARE_METATYPE(QList<Number>);
void tst_QtConcurrentMap::map()
{
// functors take arguments by reference, modifying the sequence in place
{
QList<int> list;
list << 1 << 2 << 3;
// functor
QtConcurrent::map(list, MultiplyBy2InPlace()).waitForFinished();
QCOMPARE(list, QList<int>() << 2 << 4 << 6);
QtConcurrent::map(list.begin(), list.end(), MultiplyBy2InPlace()).waitForFinished();
QCOMPARE(list, QList<int>() << 4 << 8 << 12);
// function
QtConcurrent::map(list, multiplyBy2InPlace).waitForFinished();
QCOMPARE(list, QList<int>() << 8 << 16 << 24);
QtConcurrent::map(list.begin(), list.end(), multiplyBy2InPlace).waitForFinished();
QCOMPARE(list, QList<int>() << 16 << 32 << 48);
// bound function
QtConcurrent::map(list, multiplyBy2InPlace).waitForFinished();
QCOMPARE(list, QList<int>() << 32 << 64 << 96);
QtConcurrent::map(list.begin(), list.end(), multiplyBy2InPlace).waitForFinished();
QCOMPARE(list, QList<int>() << 64 << 128 << 192);
// member function
QList<Number> numberList;
numberList << 1 << 2 << 3;
QtConcurrent::map(numberList, &Number::multiplyBy2).waitForFinished();
QCOMPARE(numberList, QList<Number>() << 2 << 4 << 6);
QtConcurrent::map(numberList.begin(), numberList.end(), &Number::multiplyBy2).waitForFinished();
QCOMPARE(numberList, QList<Number>() << 4 << 8 << 12);
// lambda
QtConcurrent::map(list, [](int &x){x *= 2;}).waitForFinished();
QCOMPARE(list, QList<int>() << 128 << 256 << 384);
QtConcurrent::map(list.begin(), list.end(), [](int &x){x *= 2;}).waitForFinished();
QCOMPARE(list, QList<int>() << 256 << 512 << 768);
// move-only functor
QtConcurrent::map(list, MultiplyBy2InPlaceMoveOnly()).waitForFinished();
QCOMPARE(list, QList<int>() << 512 << 1024 << 1536);
QtConcurrent::map(list.begin(), list.end(), MultiplyBy2InPlaceMoveOnly()).waitForFinished();
QCOMPARE(list, QList<int>() << 1024 << 2048 << 3072);
}
// functors don't take arguments by reference, making these no-ops
{
QList<int> list;
list << 1 << 2 << 3;
// functor
QtConcurrent::map(list, MultiplyBy2Immutable()).waitForFinished();
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
QtConcurrent::map(list.begin(), list.end(), MultiplyBy2Immutable()).waitForFinished();
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
// function
QtConcurrent::map(list, multiplyBy2Immutable).waitForFinished();
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
QtConcurrent::map(list.begin(), list.end(), multiplyBy2Immutable).waitForFinished();
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
// bound function
QtConcurrent::map(list, multiplyBy2Immutable).waitForFinished();
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
QtConcurrent::map(list.begin(), list.end(), multiplyBy2Immutable).waitForFinished();
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
// lambda
QtConcurrent::map(list, [](int x){x *= 2;}).waitForFinished();
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
QtConcurrent::map(list.begin(), list.end(), [](int x){x *= 2;}).waitForFinished();
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
}
// functors take arguments by reference, modifying the move-only sequence in place
{
MoveOnlyVector<int> moveOnlyVector({ 1, 2, 3 });
// functor
QtConcurrent::map(moveOnlyVector, MultiplyBy2InPlace()).waitForFinished();
QCOMPARE(moveOnlyVector, MoveOnlyVector<int>({ 2, 4, 6 }));
}
// non-template sequences
{
NonTemplateSequence list { 1, 2, 3 };
QtConcurrent::map(list, multiplyBy2InPlace).waitForFinished();
QCOMPARE(list, NonTemplateSequence({ 2, 4, 6 }));
}
#if 0
// not allowed: map() with immutable sequences makes no sense
{
const QList<int> list = QList<int>() << 1 << 2 << 3;
QtConcurrent::map(list, MultiplyBy2Immutable());
QtConcurrent::map(list, multiplyBy2Immutable);
QtConcurrent::map(list, multiplyBy2Immutable);
}
#endif
#if 0
// not allowed: in place modification of a temp copy (since temp copy goes out of scope)
{
QList<int> list;
list << 1 << 2 << 3;
QtConcurrent::map(QList<int>(list), MultiplyBy2InPlace());
QtConcurrent::map(QList<int>(list), multiplyBy2);
QtConcurrent::map(QList<int>(list), multiplyBy2InPlace);
QList<Number> numberList;
numberList << 1 << 2 << 3;
QtConcurrent::map(QList<Number>(numberList), &Number::multiplyBy2);
}
#endif
#if 0
// not allowed: map() on a const list, where functors try to modify the items in the list
{
const QList<int> list = QList<int>() << 1 << 2 << 3;;
QtConcurrent::map(list, MultiplyBy2InPlace());
QtConcurrent::map(list, multiplyBy2InPlace);
QtConcurrent::map(list, multiplyBy2InPlace);
const QList<Number> numberList = QList<Number>() << 1 << 2 << 3;
QtConcurrent::map(numberList, &Number::multiplyBy2);
}
#endif
}
void tst_QtConcurrentMap::blockingMap()
{
// functors take arguments by reference, modifying the sequence in place
{
QList<int> list;
list << 1 << 2 << 3;
// functor
QtConcurrent::blockingMap(list, MultiplyBy2InPlace());
QCOMPARE(list, QList<int>() << 2 << 4 << 6);
QtConcurrent::blockingMap(list.begin(), list.end(), MultiplyBy2InPlace());
QCOMPARE(list, QList<int>() << 4 << 8 << 12);
// function
QtConcurrent::blockingMap(list, multiplyBy2InPlace);
QCOMPARE(list, QList<int>() << 8 << 16 << 24);
QtConcurrent::blockingMap(list.begin(), list.end(), multiplyBy2InPlace);
QCOMPARE(list, QList<int>() << 16 << 32 << 48);
// bound function
QtConcurrent::blockingMap(list, multiplyBy2InPlace);
QCOMPARE(list, QList<int>() << 32 << 64 << 96);
QtConcurrent::blockingMap(list.begin(), list.end(), multiplyBy2InPlace);
QCOMPARE(list, QList<int>() << 64 << 128 << 192);
// member function
QList<Number> numberList;
numberList << 1 << 2 << 3;
QtConcurrent::blockingMap(numberList, &Number::multiplyBy2);
QCOMPARE(numberList, QList<Number>() << 2 << 4 << 6);
QtConcurrent::blockingMap(numberList.begin(), numberList.end(), &Number::multiplyBy2);
QCOMPARE(numberList, QList<Number>() << 4 << 8 << 12);
// lambda
QtConcurrent::blockingMap(list, [](int &x) { x *= 2; });
QCOMPARE(list, QList<int>() << 128 << 256 << 384);
QtConcurrent::blockingMap(list.begin(), list.end(), [](int &x) { x *= 2; });
QCOMPARE(list, QList<int>() << 256 << 512 << 768);
// move-only functor
QtConcurrent::blockingMap(list, MultiplyBy2InPlaceMoveOnly());
QCOMPARE(list, QList<int>() << 512 << 1024 << 1536);
QtConcurrent::blockingMap(list.begin(), list.end(), MultiplyBy2InPlaceMoveOnly());
QCOMPARE(list, QList<int>() << 1024 << 2048 << 3072);
}
// functors take arguments by reference, modifying the move-only sequence in place
{
MoveOnlyVector<int> moveOnlyVector({ 1, 2, 3 });
// functor
QtConcurrent::blockingMap(moveOnlyVector, MultiplyBy2InPlace());
QCOMPARE(moveOnlyVector, MoveOnlyVector<int>({ 2, 4, 6 }));
QtConcurrent::blockingMap(moveOnlyVector.begin(), moveOnlyVector.end(),
MultiplyBy2InPlace());
QCOMPARE(moveOnlyVector, MoveOnlyVector<int>({ 4, 8, 12 }));
}
// functors don't take arguments by reference, making these no-ops
{
QList<int> list;
list << 1 << 2 << 3;
// functor
QtConcurrent::blockingMap(list, MultiplyBy2Immutable());
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
QtConcurrent::blockingMap(list.begin(), list.end(), MultiplyBy2Immutable());
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
// function
QtConcurrent::blockingMap(list, multiplyBy2Immutable);
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
QtConcurrent::blockingMap(list.begin(), list.end(), multiplyBy2Immutable);
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
// bound function
QtConcurrent::blockingMap(list, multiplyBy2Immutable);
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
QtConcurrent::blockingMap(list.begin(), list.end(), multiplyBy2Immutable);
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
// lambda
QtConcurrent::blockingMap(list, [](int x) { x *= 2; });
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
QtConcurrent::blockingMap(list.begin(), list.end(), [](int x) { x *= 2; });
QCOMPARE(list, QList<int>() << 1 << 2 << 3);
}
// non-template sequences
{
NonTemplateSequence list { 1, 2, 3 };
QtConcurrent::blockingMap(list, multiplyBy2InPlace);
QCOMPARE(list, NonTemplateSequence({ 2, 4, 6 }));
}
#if 0
// not allowed: map() with immutable sequences makes no sense
{
const QList<int> list = QList<int>() << 1 << 2 << 3;
QtConcurrent::blockingMap(list, MultiplyBy2Immutable());
QtConcurrent::blockkng::map(list, multiplyBy2Immutable);
QtConcurrent::blockingMap(list, multiplyBy2Immutable);
}
#endif
#if 0
// not allowed: in place modification of a temp copy (since temp copy goes out of scope)
{
QList<int> list;
list << 1 << 2 << 3;
QtConcurrent::blockingMap(QList<int>(list), MultiplyBy2InPlace());
QtConcurrent::blockingMap(QList<int>(list), multiplyBy2);
QtConcurrent::blockingMap(QList<int>(list), multiplyBy2InPlace);
QList<Number> numberList;
numberList << 1 << 2 << 3;
QtConcurrent::blockingMap(QList<Number>(numberList), &Number::multiplyBy2);
}
#endif
#if 0
// not allowed: map() on a const list, where functors try to modify the items in the list
{
const QList<int> list = QList<int>() << 1 << 2 << 3;;
QtConcurrent::blockingMap(list, MultiplyBy2InPlace());
QtConcurrent::blockingMap(list, multiplyBy2InPlace);
QtConcurrent::blockingMap(list, multiplyBy2InPlace);
const QList<Number> numberList = QList<Number>() << 1 << 2 << 3;
QtConcurrent::blockingMap(numberList, &Number::multiplyBy2);
}
#endif
}
void tst_QtConcurrentMap::mapOnRvalue()
{
struct ListRange
{
using iterator = QList<int>::iterator;
ListRange(iterator b, iterator e) : m_begin(b), m_end(e) { }
iterator begin() const { return m_begin; }
iterator end() const { return m_end; }
private:
iterator m_begin;
iterator m_end;
};
const QList expected { 1, 4, 6, 4 };
{
QList list { 1, 2, 3, 4 };
auto future =
QtConcurrent::map(ListRange(list.begin() + 1, list.end() - 1), multiplyBy2InPlace);
future.waitForFinished();
QCOMPARE(list, expected);
}
{
QList list { 1, 2, 3, 4 };
QThreadPool pool;
auto future = QtConcurrent::map(&pool, ListRange(list.begin() + 1, list.end() - 1),
multiplyBy2InPlace);
future.waitForFinished();
QCOMPARE(list, expected);
}
{
QList list { 1, 2, 3, 4 };
QtConcurrent::blockingMap(ListRange(list.begin() + 1, list.end() - 1), multiplyBy2InPlace);
QCOMPARE(list, expected);
}
{
QList list { 1, 2, 3, 4 };
QThreadPool pool;
QtConcurrent::blockingMap(&pool, ListRange(list.begin() + 1, list.end() - 1),
multiplyBy2InPlace);
QCOMPARE(list, expected);
}
}
int multiplyBy2(int x)
{
int y = x * 2;
return y;
}
class MultiplyBy2
{
public:
int operator()(int x) const
{
int y = x * 2;
return y;
}
};
class MultiplyBy2MoveOnly
{
public:
MultiplyBy2MoveOnly() = default;
MultiplyBy2MoveOnly(MultiplyBy2MoveOnly &&) = default;
MultiplyBy2MoveOnly &operator=(MultiplyBy2MoveOnly &&other) = default;
MultiplyBy2MoveOnly(const MultiplyBy2MoveOnly &) = delete;
MultiplyBy2MoveOnly &operator=(const MultiplyBy2MoveOnly &) = delete;
int operator()(int x) const
{
int y = x * 2;
return y;
}
};
double intToDouble(int x)
{
return double(x);
}
class IntToDouble
{
public:
double operator()(int x) const
{
return double(x);
}
};
int stringToInt(const QString &string)
{
return string.toInt();
}
class StringToInt
{
public:
int operator()(const QString &string) const
{
return string.toInt();
}
};
#define CHECK_FAIL(message) \
do {\
if (QTest::currentTestFailed())\
QFAIL("failed one line above on " message);\
} while (false)
template <typename SourceObject, typename ResultObject, typename MapObject>
void testMapped(const QList<SourceObject> &sourceObjectList, const QList<ResultObject> &expectedResult, MapObject mapObject)
{
const QList<ResultObject> result1 = QtConcurrent::mapped(
sourceObjectList, mapObject).results();
QCOMPARE(result1, expectedResult);
const QList<ResultObject> result2 = QtConcurrent::mapped(
sourceObjectList.constBegin(), sourceObjectList.constEnd(), mapObject).results();
QCOMPARE(result2, expectedResult);
const QList<ResultObject> result3 = QtConcurrent::blockingMapped(
sourceObjectList, mapObject);
QCOMPARE(result3, expectedResult);
const QList<ResultObject> result4 = QtConcurrent::blockingMapped<QList<ResultObject>>(
sourceObjectList.constBegin(), sourceObjectList.constEnd(), mapObject);
QCOMPARE(result4, expectedResult);
}
void tst_QtConcurrentMap::mapped()
{
const QList<int> intList {1, 2, 3};
const QList<Number> numberList {1, 2, 3};
const QList<QString> stringList {"1", "2", "3"};
const QList<double> doubleList {1.0, 2.0, 3.0};
const QList<int> intListMultipiedBy2 {2, 4, 6};
const QList<Number> numberListMultipiedBy2 {2, 4, 6};
auto lambdaMultiplyBy2 = [](int x) {
return 2 * x;
};
auto lambdaIntToDouble = [](int x) {
return double(x);
};
auto lambdaStringToInt = [](const QString &string) {
return string.toInt();
};
testMapped(intList, intListMultipiedBy2, MultiplyBy2());
CHECK_FAIL("functor");
testMapped(intList, intListMultipiedBy2, multiplyBy2);
CHECK_FAIL("function");
testMapped(numberList, numberListMultipiedBy2, &Number::multipliedBy2);
CHECK_FAIL("member");
testMapped(intList, intListMultipiedBy2, lambdaMultiplyBy2);
CHECK_FAIL("lambda");
// change the value_type, same container
testMapped(intList, doubleList, IntToDouble());
CHECK_FAIL("functor");
testMapped(intList, doubleList, intToDouble);
CHECK_FAIL("function");
testMapped(numberList, stringList, &Number::toString);
CHECK_FAIL("member");
testMapped(intList, doubleList, lambdaIntToDouble);
CHECK_FAIL("lambda");
// change the value_type
testMapped(stringList, intList, StringToInt());
CHECK_FAIL("functor");
testMapped(stringList, intList, stringToInt);
CHECK_FAIL("function");
testMapped(numberList, intList, &Number::toInt);
CHECK_FAIL("member");
testMapped(stringList, intList, lambdaStringToInt);
CHECK_FAIL("lambda");
// not allowed: const member function where all arguments have default values
#if 0
testMapped(stringList, intList, &QString::toInt);
CHECK_FAIL("member");
#endif
{
// non-template sequences
NonTemplateSequence list { 1, 2, 3 };
auto future = QtConcurrent::mapped(list, multiplyBy2);
QCOMPARE(future.results(), QList({ 2, 4, 6 }));
auto result = QtConcurrent::blockingMapped(list, multiplyBy2);
QCOMPARE(result, NonTemplateSequence({ 2, 4, 6 }));
}
{
// rvalue sequences
auto future = QtConcurrent::mapped(std::vector { 1, 2, 3 }, multiplyBy2);
QCOMPARE(future.results(), QList<int>({ 2, 4, 6 }));
auto result = QtConcurrent::blockingMapped(std::vector { 1, 2, 3 }, multiplyBy2);
QCOMPARE(result, std::vector<int>({ 2, 4, 6 }));
}
{
// move only sequences
auto future = QtConcurrent::mapped(MoveOnlyVector<int>({ 1, 2, 3 }), multiplyBy2);
QCOMPARE(future.results(), QList<int>({ 2, 4, 6 }));
auto result = QtConcurrent::blockingMapped<std::vector<int>>(
MoveOnlyVector<int>({ 1, 2, 3 }), multiplyBy2);
QCOMPARE(result, std::vector<int>({ 2, 4, 6 }));
}
}
static QSemaphore semaphore(1);
static QSet<QThread *> workingThreads;
void storeCurrentThread()
{
semaphore.acquire();
workingThreads.insert(QThread::currentThread());
semaphore.release();
}
int threadCount()
{
semaphore.acquire();
const int count = workingThreads.size();
semaphore.release();
return count;
}
template <typename SourceObject, typename ResultObject, typename MapObject>
void testMappedThreadPool(QThreadPool *pool,
const QList<SourceObject> &sourceObjectList,
const QList<ResultObject> &expectedResult,
MapObject mapObject)
{
const QList<ResultObject> result1 = QtConcurrent::mapped(pool,
sourceObjectList, mapObject).results();
QCOMPARE(result1, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const QList<ResultObject> result2 = QtConcurrent::mapped(pool,
sourceObjectList.constBegin(), sourceObjectList.constEnd(), mapObject).results();
QCOMPARE(result2, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const QList<ResultObject> result3 = QtConcurrent::blockingMapped(pool,
sourceObjectList, mapObject);
QCOMPARE(result3, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const QList<ResultObject> result4 = QtConcurrent::blockingMapped<QList<ResultObject>>(pool,
sourceObjectList.constBegin(), sourceObjectList.constEnd(), mapObject);
QCOMPARE(result4, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
}
int multiplyBy3(int x)
{
storeCurrentThread();
return x * 3;
}
class MultiplyBy3
{
public:
int operator()(int x) const
{
storeCurrentThread();
return x * 3;
}
};
void tst_QtConcurrentMap::mappedThreadPool()
{
const QList<int> intList {1, 2, 3};
const QList<int> intListMultipiedBy3 {3, 6, 9};
auto lambdaMultiplyBy3 = [](int x) {
storeCurrentThread();
return x * 3;
};
QThreadPool pool;
pool.setMaxThreadCount(1);
QCOMPARE(semaphore.available(), 1);
workingThreads.clear();
testMappedThreadPool(&pool, intList, intListMultipiedBy3, MultiplyBy3());
CHECK_FAIL("functor");
testMappedThreadPool(&pool, intList, intListMultipiedBy3, multiplyBy3);
CHECK_FAIL("function");
testMappedThreadPool(&pool, intList, intListMultipiedBy3, lambdaMultiplyBy3);
CHECK_FAIL("lambda");
{
// non-template sequences
NonTemplateSequence list { 1, 2, 3 };
auto future = QtConcurrent::mapped(&pool, list, multiplyBy2);
QCOMPARE(future.results(), QList({ 2, 4, 6 }));
auto result = QtConcurrent::blockingMapped(&pool, list, multiplyBy2);
QCOMPARE(result, NonTemplateSequence({ 2, 4, 6 }));
}
{
// rvalue sequences
auto future = QtConcurrent::mapped(&pool, std::vector { 1, 2, 3 }, multiplyBy2);
QCOMPARE(future.results(), QList<int>({ 2, 4, 6 }));
auto result = QtConcurrent::blockingMapped<std::vector<int>>(&pool, std::vector { 1, 2, 3 },
multiplyBy2);
QCOMPARE(result, std::vector<int>({ 2, 4, 6 }));
}
{
// move only sequences
auto future = QtConcurrent::mapped(&pool, MoveOnlyVector<int>({ 1, 2, 3 }), multiplyBy2);
QCOMPARE(future.results(), QList<int>({ 2, 4, 6 }));
auto result = QtConcurrent::blockingMapped<std::vector<int>>(
&pool, MoveOnlyVector<int>({ 1, 2, 3 }), multiplyBy2);
QCOMPARE(result, std::vector<int>({ 2, 4, 6 }));
}
}
void tst_QtConcurrentMap::mappedWithMoveOnlyCallable()
{
const QList<int> intList { 1, 2, 3 };
const QList<int> intListMultipiedBy2 { 2, 4, 6 };
{
const auto result = QtConcurrent::mapped(intList, MultiplyBy2()).results();
QCOMPARE(result, intListMultipiedBy2);
}
{
const auto result =
QtConcurrent::mapped(intList.begin(), intList.end(), MultiplyBy2()).results();
QCOMPARE(result, intListMultipiedBy2);
}
{
const auto result = QtConcurrent::blockingMapped(intList, MultiplyBy2());
QCOMPARE(result, intListMultipiedBy2);
}
{
const auto result = QtConcurrent::blockingMapped<QList<int>>(intList.begin(), intList.end(),
MultiplyBy2());
QCOMPARE(result, intListMultipiedBy2);
}
QThreadPool pool;
{
const auto result = QtConcurrent::mapped(&pool, intList, MultiplyBy2()).results();
QCOMPARE(result, intListMultipiedBy2);
}
{
const auto result = QtConcurrent::mapped(
&pool, intList.begin(), intList.end(), MultiplyBy2()).results();
QCOMPARE(result, intListMultipiedBy2);
}
{
const auto result = QtConcurrent::blockingMapped(&pool, intList, MultiplyBy2());
QCOMPARE(result, intListMultipiedBy2);
}
{
const auto result = QtConcurrent::blockingMapped<QList<int>>(&pool, intList.begin(),
intList.end(), MultiplyBy2());
QCOMPARE(result, intListMultipiedBy2);
}
}
int intSquare(int x)
{
return x * x;
}
class IntSquare
{
public:
int operator()(int x)
{
return x * x;
}
};
Number numberSquare(Number x)
{
return Number(x.toInt() * x.toInt());
}
class NumberSquare
{
public:
Number operator()(Number x)
{
return Number(x.toInt() * x.toInt());
}
};
template <typename SourceObject, typename ResultObject, typename MapObject, typename ReduceObject>
void testMappedReduced(const QList<SourceObject> &sourceObjectList, const ResultObject &expectedResult, MapObject mapObject, ReduceObject reduceObject)
{
// Result type is passed explicitly
{
const ResultObject result1 = QtConcurrent::mappedReduced<ResultObject>(
sourceObjectList, mapObject, reduceObject).result();
QCOMPARE(result1, expectedResult);
const ResultObject result2 = QtConcurrent::mappedReduced<ResultObject>(
sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject).result();
QCOMPARE(result2, expectedResult);
const ResultObject result3 = QtConcurrent::blockingMappedReduced<ResultObject>(
sourceObjectList, mapObject, reduceObject);
QCOMPARE(result3, expectedResult);
const ResultObject result4 = QtConcurrent::blockingMappedReduced<ResultObject>(
sourceObjectList.constBegin(), sourceObjectList.constEnd(), mapObject, reduceObject);
QCOMPARE(result4, expectedResult);
}
// Result type is deduced
{
const ResultObject result1 = QtConcurrent::mappedReduced(
sourceObjectList, mapObject, reduceObject).result();
QCOMPARE(result1, expectedResult);
const ResultObject result2 = QtConcurrent::mappedReduced(
sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject).result();
QCOMPARE(result2, expectedResult);
const ResultObject result3 = QtConcurrent::blockingMappedReduced(
sourceObjectList, mapObject, reduceObject);
QCOMPARE(result3, expectedResult);
const ResultObject result4 = QtConcurrent::blockingMappedReduced(
sourceObjectList.constBegin(), sourceObjectList.constEnd(), mapObject, reduceObject);
QCOMPARE(result4, expectedResult);
}
}
template <typename SourceObject, typename ResultObject, typename MapObject, typename ReduceObject>
void testMappedReduced(const QList<SourceObject> &sourceObjectList, const ResultObject &expectedResult, MapObject mapObject, ReduceObject reduceObject, QtConcurrent::ReduceOptions options)
{
const ResultObject result1 = QtConcurrent::mappedReduced(
sourceObjectList, mapObject, reduceObject, options).result();
QCOMPARE(result1, expectedResult);
const ResultObject result2 =
QtConcurrent::mappedReduced(sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject, options).result();
QCOMPARE(result2, expectedResult);
const ResultObject result3 = QtConcurrent::blockingMappedReduced(
sourceObjectList, mapObject, reduceObject, options);
QCOMPARE(result3, expectedResult);
const ResultObject result4 = QtConcurrent::blockingMappedReduced(
sourceObjectList.constBegin(), sourceObjectList.constEnd(), mapObject, reduceObject, options);
QCOMPARE(result4, expectedResult);
}
void tst_QtConcurrentMap::mappedReduced()
{
const QList<int> intList {1, 2, 3};
const QList<int> intListOfSquares {1, 4, 9};
const QList<Number> numberList {1, 2, 3};
const int sum = 6;
const int sumOfSquares = 14;
void (QList<int>::*push_back)(QList<int>::parameter_type) = &QList<int>::push_back;
auto lambdaSquare = [](int x) {
return x * x;
};
auto lambdaSumReduce = [](int &sum, int x) {
sum += x;
};
// FUNCTOR-other
testMappedReduced(intList, sumOfSquares, IntSquare(), IntSumReduce());
CHECK_FAIL("functor-functor");
testMappedReduced(intList, sumOfSquares, IntSquare(), intSumReduce);
CHECK_FAIL("functor-function");
testMappedReduced(intList, intListOfSquares, IntSquare(), push_back, OrderedReduce);
CHECK_FAIL("functor-member");
testMappedReduced(intList, sumOfSquares, IntSquare(), lambdaSumReduce);
CHECK_FAIL("functor-lambda");
// FUNCTION-other
testMappedReduced(intList, sumOfSquares, intSquare, IntSumReduce());
CHECK_FAIL("function-functor");
testMappedReduced(intList, sumOfSquares, intSquare, intSumReduce);
CHECK_FAIL("function-function");
testMappedReduced(intList, intListOfSquares, intSquare, push_back, OrderedReduce);
CHECK_FAIL("function-member");
testMappedReduced(intList, sumOfSquares, intSquare, lambdaSumReduce);
CHECK_FAIL("function-lambda");
// MEMBER-other
testMappedReduced(numberList, sum, &Number::toInt, IntSumReduce());
CHECK_FAIL("member-functor");
testMappedReduced(numberList, sum, &Number::toInt, intSumReduce);
CHECK_FAIL("member-function");
testMappedReduced(numberList, intList, &Number::toInt, push_back, OrderedReduce);
CHECK_FAIL("member-member");
testMappedReduced(numberList, sum, &Number::toInt, lambdaSumReduce);
CHECK_FAIL("member-lambda");
// LAMBDA-other
testMappedReduced(intList, sumOfSquares, lambdaSquare, IntSumReduce());
CHECK_FAIL("lambda-functor");
testMappedReduced(intList, sumOfSquares, lambdaSquare, intSumReduce);
CHECK_FAIL("lambda-function");
testMappedReduced(intList, intListOfSquares, lambdaSquare, push_back, OrderedReduce);
CHECK_FAIL("lambda-member");
testMappedReduced(intList, sumOfSquares, lambdaSquare, lambdaSumReduce);
CHECK_FAIL("lambda-lambda");
{
// non-template sequences
NonTemplateSequence list { 1, 2, 3 };
auto future = QtConcurrent::mappedReduced(list, multiplyBy2, intSumReduce);
QCOMPARE(future.result(), 12);
auto result = QtConcurrent::blockingMappedReduced(list, multiplyBy2, intSumReduce);
QCOMPARE(result, 12);
}
{
// rvalue sequences
auto future = QtConcurrent::mappedReduced(std::vector { 1, 2, 3 }, intSquare, intSumReduce);
QCOMPARE(future.result(), sumOfSquares);
auto result = QtConcurrent::blockingMappedReduced(std::vector { 1, 2, 3 }, intSquare,
intSumReduce);
QCOMPARE(result, sumOfSquares);
}
{
// move only sequences
auto future =
QtConcurrent::mappedReduced(MoveOnlyVector<int>({ 1, 2, 3 }), intSquare, intSumReduce);
QCOMPARE(future.result(), sumOfSquares);
auto result = QtConcurrent::blockingMappedReduced(MoveOnlyVector<int>({ 1, 2, 3 }),
intSquare, intSumReduce);
QCOMPARE(result, sumOfSquares);
}
}
template <typename SourceObject, typename ResultObject, typename MapObject, typename ReduceObject>
void testMappedReducedThreadPool(QThreadPool *pool,
const QList<SourceObject> &sourceObjectList,
const ResultObject &expectedResult,
MapObject mapObject,
ReduceObject reduceObject)
{
// Result type is passed explicitly
{
const ResultObject result1 = QtConcurrent::mappedReduced<ResultObject>(
pool, sourceObjectList, mapObject, reduceObject).result();
QCOMPARE(result1, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result2 =
QtConcurrent::mappedReduced<ResultObject>(pool, sourceObjectList.constBegin(),
sourceObjectList.constEnd(), mapObject,
reduceObject).result();
QCOMPARE(result2, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result3 = QtConcurrent::blockingMappedReduced<ResultObject>(
pool, sourceObjectList, mapObject, reduceObject);
QCOMPARE(result3, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result4 = QtConcurrent::blockingMappedReduced<ResultObject>(
pool, sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject);
QCOMPARE(result4, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
}
// Result type is deduced
{
const ResultObject result1 = QtConcurrent::mappedReduced(
pool, sourceObjectList, mapObject, reduceObject).result();
QCOMPARE(result1, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result2 =
QtConcurrent::mappedReduced(pool, sourceObjectList.constBegin(),
sourceObjectList.constEnd(), mapObject,
reduceObject).result();
QCOMPARE(result2, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result3 = QtConcurrent::blockingMappedReduced(
pool, sourceObjectList, mapObject, reduceObject);
QCOMPARE(result3, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result4 = QtConcurrent::blockingMappedReduced(
pool, sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject);
QCOMPARE(result4, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
}
}
int intCube(int x)
{
storeCurrentThread();
return x * x * x;
}
class IntCube
{
public:
int operator()(int x)
{
storeCurrentThread();
return x * x * x;
}
};
void tst_QtConcurrentMap::mappedReducedThreadPool()
{
const QList<int> intList {1, 2, 3};
const int sumOfCubes = 36;
auto lambdaCube = [](int x) {
return x * x * x;
};
auto lambdaSumReduce = [](int &sum, int x) {
sum += x;
};
QThreadPool pool;
pool.setMaxThreadCount(1);
QCOMPARE(semaphore.available(), 1);
workingThreads.clear();
// FUNCTOR-other
testMappedReducedThreadPool(&pool, intList, sumOfCubes, IntCube(), IntSumReduce());
CHECK_FAIL("functor-functor");
testMappedReducedThreadPool(&pool, intList, sumOfCubes, IntCube(), intSumReduce);
CHECK_FAIL("functor-function");
testMappedReducedThreadPool(&pool, intList, sumOfCubes, IntCube(), lambdaSumReduce);
CHECK_FAIL("functor-lambda");
// FUNCTION-other
testMappedReducedThreadPool(&pool, intList, sumOfCubes, intCube, IntSumReduce());
CHECK_FAIL("function-functor");
testMappedReducedThreadPool(&pool, intList, sumOfCubes, intCube, intSumReduce);
CHECK_FAIL("function-function");
testMappedReducedThreadPool(&pool, intList, sumOfCubes, intCube, lambdaSumReduce);
CHECK_FAIL("function-lambda");
// LAMBDA-other
testMappedReducedThreadPool(&pool, intList, sumOfCubes, lambdaCube, IntSumReduce());
CHECK_FAIL("lambda-functor");
testMappedReducedThreadPool(&pool, intList, sumOfCubes, lambdaCube, intSumReduce);
CHECK_FAIL("lambda-function");
testMappedReducedThreadPool(&pool, intList, sumOfCubes, lambdaCube, lambdaSumReduce);
CHECK_FAIL("lambda-lambda");
{
// non-template sequences
NonTemplateSequence list { 1, 2, 3 };
auto future = QtConcurrent::mappedReduced(&pool, list, multiplyBy2, intSumReduce);
QCOMPARE(future.result(), 12);
auto result = QtConcurrent::blockingMappedReduced(&pool, list, multiplyBy2, intSumReduce);
QCOMPARE(result, 12);
}
{
// rvalue sequences
auto future =
QtConcurrent::mappedReduced(&pool, std::vector { 1, 2, 3 }, intCube, intSumReduce);
QCOMPARE(future.result(), sumOfCubes);
auto result = QtConcurrent::blockingMappedReduced(&pool, std::vector { 1, 2, 3 }, intCube,
intSumReduce);
QCOMPARE(result, sumOfCubes);
}
{
// move only sequences
auto future = QtConcurrent::mappedReduced(&pool, MoveOnlyVector<int>({ 1, 2, 3 }), intCube,
intSumReduce);
QCOMPARE(future.result(), sumOfCubes);
auto result = QtConcurrent::blockingMappedReduced(&pool, MoveOnlyVector<int>({ 1, 2, 3 }),
intCube, intSumReduce);
QCOMPARE(result, sumOfCubes);
}
}
void tst_QtConcurrentMap::mappedReducedWithMoveOnlyCallable()
{
const QList<int> intList { 1, 2, 3 };
const auto sum = 12;
{
const auto result = QtConcurrent::mappedReduced(
intList, MultiplyBy2(), IntSumReduceMoveOnly()).result();
QCOMPARE(result, sum);
}
{
const auto result =
QtConcurrent::mappedReduced(intList.begin(), intList.end(),
MultiplyBy2(), IntSumReduceMoveOnly()).result();
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::blockingMappedReduced(intList, MultiplyBy2(),
IntSumReduceMoveOnly());
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::blockingMappedReduced(
intList.begin(), intList.end(), MultiplyBy2(), IntSumReduceMoveOnly());
QCOMPARE(result, sum);
}
QThreadPool pool;
{
const auto result = QtConcurrent::mappedReduced(&pool, intList, MultiplyBy2(),
IntSumReduceMoveOnly()).result();
QCOMPARE(result, sum);
}
{
const auto result =
QtConcurrent::mappedReduced(&pool, intList.begin(), intList.end(),
MultiplyBy2(), IntSumReduceMoveOnly()).result();
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::blockingMappedReduced(&pool, intList, MultiplyBy2(),
IntSumReduceMoveOnly());
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::blockingMappedReduced(
&pool, intList.begin(), intList.end(), MultiplyBy2(), IntSumReduceMoveOnly());
QCOMPARE(result, sum);
}
}
void tst_QtConcurrentMap::mappedReducedDifferentType()
{
const QList<int> intList {1, 2, 3};
const QList<Number> numberList {1, 2, 3};
const int sumOfSquares = 14;
auto lambdaSquare = [](Number x) {
return Number(x.toInt() * x.toInt());
};
auto lambdaSumReduce = [](int &sum, Number x) {
sum += x.toInt();
};
// Test the case where reduce function of the form:
// V function(T &result, const U &intermediate)
// has T and U types different.
// FUNCTOR-other
testMappedReduced(intList, sumOfSquares, NumberSquare(), NumberSumReduce());
CHECK_FAIL("functor-functor");
testMappedReduced(intList, sumOfSquares, NumberSquare(), numberSumReduce);
CHECK_FAIL("functor-function");
testMappedReduced(intList, sumOfSquares, NumberSquare(), lambdaSumReduce);
CHECK_FAIL("functor-lambda");
// FUNCTION-other
testMappedReduced(intList, sumOfSquares, numberSquare, NumberSumReduce());
CHECK_FAIL("function-functor");
testMappedReduced(intList, sumOfSquares, numberSquare, numberSumReduce);
CHECK_FAIL("function-function");
testMappedReduced(intList, sumOfSquares, numberSquare, lambdaSumReduce);
CHECK_FAIL("function-lambda");
// MEMBER-other
testMappedReduced(numberList, sumOfSquares, &Number::squared, NumberSumReduce());
CHECK_FAIL("member-functor");
testMappedReduced(numberList, sumOfSquares, &Number::squared, numberSumReduce);
CHECK_FAIL("member-function");
testMappedReduced(numberList, sumOfSquares, &Number::squared, lambdaSumReduce);
CHECK_FAIL("member-lambda");
// LAMBDA-other
testMappedReduced(intList, sumOfSquares, lambdaSquare, NumberSumReduce());
CHECK_FAIL("lambda-functor");
testMappedReduced(intList, sumOfSquares, lambdaSquare, numberSumReduce);
CHECK_FAIL("lambda-function");
testMappedReduced(intList, sumOfSquares, lambdaSquare, lambdaSumReduce);
CHECK_FAIL("lambda-lambda");
}
template <typename SourceObject, typename ResultObject, typename InitialObject, typename MapObject, typename ReduceObject>
void testMappedReducedInitialValue(const QList<SourceObject> &sourceObjectList,
const ResultObject &expectedResult,
MapObject mapObject,
ReduceObject reduceObject,
InitialObject &&initialObject)
{
// Result type is passed explicitly
{
const ResultObject result1 =
QtConcurrent::mappedReduced<ResultObject>(sourceObjectList, mapObject, reduceObject,
initialObject).result();
QCOMPARE(result1, expectedResult);
const ResultObject result2 = QtConcurrent::mappedReduced<ResultObject>(
sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject, initialObject).result();
QCOMPARE(result2, expectedResult);
const ResultObject result3 = QtConcurrent::blockingMappedReduced<ResultObject>(
sourceObjectList, mapObject, reduceObject, initialObject);
QCOMPARE(result3, expectedResult);
const ResultObject result4 = QtConcurrent::blockingMappedReduced<ResultObject>(
sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject, initialObject);
QCOMPARE(result4, expectedResult);
}
// Result type is deduced
{
const ResultObject result1 =
QtConcurrent::mappedReduced(sourceObjectList, mapObject, reduceObject,
initialObject).result();
QCOMPARE(result1, expectedResult);
const ResultObject result2 = QtConcurrent::mappedReduced(
sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject, initialObject).result();
QCOMPARE(result2, expectedResult);
const ResultObject result3 = QtConcurrent::blockingMappedReduced(
sourceObjectList, mapObject, reduceObject, initialObject);
QCOMPARE(result3, expectedResult);
const ResultObject result4 = QtConcurrent::blockingMappedReduced(
sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject, initialObject);
QCOMPARE(result4, expectedResult);
}
}
template <typename SourceObject, typename ResultObject, typename InitialObject, typename MapObject, typename ReduceObject>
void testMappedReducedInitialValue(const QList<SourceObject> &sourceObjectList,
const ResultObject &expectedResult,
MapObject mapObject,
ReduceObject reduceObject,
InitialObject &&initialObject,
QtConcurrent::ReduceOptions options)
{
const ResultObject result1 = QtConcurrent::mappedReduced(
sourceObjectList, mapObject, reduceObject, initialObject, options).result();
QCOMPARE(result1, expectedResult);
const ResultObject result2 =
QtConcurrent::mappedReduced(sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject, initialObject, options).result();
QCOMPARE(result2, expectedResult);
const ResultObject result3 = QtConcurrent::blockingMappedReduced(
sourceObjectList, mapObject, reduceObject, initialObject, options);
QCOMPARE(result3, expectedResult);
const ResultObject result4 = QtConcurrent::blockingMappedReduced(
sourceObjectList.constBegin(), sourceObjectList.constEnd(), mapObject, reduceObject, initialObject, options);
QCOMPARE(result4, expectedResult);
}
void tst_QtConcurrentMap::mappedReducedInitialValue()
{
// This is a copy of tst_QtConcurrentMap::mappedReduced with the initial value parameter added
const QList<int> intList {1, 2, 3};
const QList<int> intListInitial {10};
const QList<int> intListAppended {10, 1, 2, 3};
const QList<int> intListSquaresAppended {10, 1, 4, 9};
const QList<Number> numberList {1, 2, 3};
const int sum = 16;
const int sumOfSquares = 24;
const int intInitial = 10;
void (QList<int>::*push_back)(QList<int>::parameter_type) = &QList<int>::push_back;
auto lambdaSquare = [](int x) {
return x * x;
};
auto lambdaSumReduce = [](int &sum, int x) {
sum += x;
};
// FUNCTOR-other
testMappedReducedInitialValue(intList, sumOfSquares, IntSquare(), IntSumReduce(), intInitial);
CHECK_FAIL("functor-functor");
testMappedReducedInitialValue(intList, sumOfSquares, IntSquare(), intSumReduce, intInitial);
CHECK_FAIL("functor-function");
testMappedReducedInitialValue(intList, intListSquaresAppended, IntSquare(), push_back, intListInitial, OrderedReduce);
CHECK_FAIL("functor-member");
testMappedReducedInitialValue(intList, sumOfSquares, IntSquare(), lambdaSumReduce, intInitial);
CHECK_FAIL("functor-lambda");
// FUNCTION-other
testMappedReducedInitialValue(intList, sumOfSquares, intSquare, IntSumReduce(), intInitial);
CHECK_FAIL("function-functor");
testMappedReducedInitialValue(intList, sumOfSquares, intSquare, intSumReduce, intInitial);
CHECK_FAIL("function-function");
testMappedReducedInitialValue(intList, intListSquaresAppended, intSquare, push_back, intListInitial, OrderedReduce);
CHECK_FAIL("function-member");
testMappedReducedInitialValue(intList, sumOfSquares, intSquare, lambdaSumReduce, intInitial);
CHECK_FAIL("function-lambda");
// MEMBER-other
testMappedReducedInitialValue(numberList, sum, &Number::toInt, IntSumReduce(), intInitial);
CHECK_FAIL("member-functor");
testMappedReducedInitialValue(numberList, sum, &Number::toInt, intSumReduce, intInitial);
CHECK_FAIL("member-function");
testMappedReducedInitialValue(numberList, intListAppended, &Number::toInt, push_back, intListInitial, OrderedReduce);
CHECK_FAIL("member-member");
testMappedReducedInitialValue(numberList, sum, &Number::toInt, lambdaSumReduce, intInitial);
CHECK_FAIL("member-lambda");
// LAMBDA-other
testMappedReducedInitialValue(intList, sumOfSquares, lambdaSquare, IntSumReduce(), intInitial);
CHECK_FAIL("lambda-functor");
testMappedReducedInitialValue(intList, sumOfSquares, lambdaSquare, intSumReduce, intInitial);
CHECK_FAIL("lambda-function");
testMappedReducedInitialValue(intList, intListSquaresAppended, lambdaSquare, push_back, intListInitial, OrderedReduce);
CHECK_FAIL("lambda-member");
testMappedReducedInitialValue(intList, sumOfSquares, lambdaSquare, lambdaSumReduce, intInitial);
CHECK_FAIL("lambda-lambda");
{
// non-template sequences
NonTemplateSequence list { 1, 2, 3 };
auto future = QtConcurrent::mappedReduced(list, multiplyBy2, intSumReduce, intInitial);
QCOMPARE(future.result(), intInitial + 12);
auto result =
QtConcurrent::blockingMappedReduced(list, multiplyBy2, intSumReduce, intInitial);
QCOMPARE(result, intInitial + 12);
}
{
// rvalue sequences
auto future = QtConcurrent::mappedReduced(std::vector { 1, 2, 3 }, intSquare, intSumReduce,
intInitial);
QCOMPARE(future.result(), sumOfSquares);
auto result = QtConcurrent::blockingMappedReduced(std::vector { 1, 2, 3 }, intSquare,
intSumReduce, intInitial);
QCOMPARE(result, sumOfSquares);
}
{
// move only sequences
auto future = QtConcurrent::mappedReduced(MoveOnlyVector<int>({ 1, 2, 3 }), intSquare,
intSumReduce, intInitial);
QCOMPARE(future.result(), sumOfSquares);
auto result = QtConcurrent::blockingMappedReduced(MoveOnlyVector<int>({ 1, 2, 3 }),
intSquare, intSumReduce, intInitial);
QCOMPARE(result, sumOfSquares);
}
}
template <typename SourceObject, typename ResultObject, typename InitialObject, typename MapObject, typename ReduceObject>
void testMappedReducedInitialValueThreadPool(QThreadPool *pool,
const QList<SourceObject> &sourceObjectList,
const ResultObject &expectedResult,
MapObject mapObject,
ReduceObject reduceObject,
InitialObject &&initialObject)
{
// Result type is passed explicitly
{
const ResultObject result1 = QtConcurrent::mappedReduced<ResultObject>(
pool, sourceObjectList, mapObject, reduceObject, initialObject).result();
QCOMPARE(result1, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result2 =
QtConcurrent::mappedReduced<ResultObject>(pool, sourceObjectList.constBegin(),
sourceObjectList.constEnd(), mapObject,
reduceObject, initialObject).result();
QCOMPARE(result2, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result3 = QtConcurrent::blockingMappedReduced<ResultObject>(
pool, sourceObjectList, mapObject, reduceObject, initialObject);
QCOMPARE(result3, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result4 = QtConcurrent::blockingMappedReduced<ResultObject>(
pool, sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject, initialObject);
QCOMPARE(result4, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
}
// Result type is deduced
{
const ResultObject result1 = QtConcurrent::mappedReduced(
pool, sourceObjectList, mapObject, reduceObject, initialObject).result();
QCOMPARE(result1, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result2 =
QtConcurrent::mappedReduced(pool, sourceObjectList.constBegin(),
sourceObjectList.constEnd(), mapObject,
reduceObject, initialObject).result();
QCOMPARE(result2, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result3 = QtConcurrent::blockingMappedReduced(
pool, sourceObjectList, mapObject, reduceObject, initialObject);
QCOMPARE(result3, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
const ResultObject result4 = QtConcurrent::blockingMappedReduced(
pool, sourceObjectList.constBegin(), sourceObjectList.constEnd(),
mapObject, reduceObject, initialObject);
QCOMPARE(result4, expectedResult);
QCOMPARE(threadCount(), 1); // ensure the only one thread was working
}
}
void tst_QtConcurrentMap::mappedReducedInitialValueThreadPool()
{
// This is a copy of tst_QtConcurrentMap::mappedReduced with the initial value parameter added
const QList<int> intList {1, 2, 3};
const int sumOfCubes = 46;
const int intInitial = 10;
auto lambdaCube = [](int x) {
return x * x * x;
};
auto lambdaSumReduce = [](int &sum, int x) {
sum += x;
};
QThreadPool pool;
pool.setMaxThreadCount(1);
QCOMPARE(semaphore.available(), 1);
workingThreads.clear();
// FUNCTOR-other
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, IntCube(),
IntSumReduce(), intInitial);
CHECK_FAIL("functor-functor");
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, IntCube(),
intSumReduce, intInitial);
CHECK_FAIL("functor-function");
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, IntCube(),
lambdaSumReduce, intInitial);
CHECK_FAIL("functor-lambda");
// FUNCTION-other
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, intCube,
IntSumReduce(), intInitial);
CHECK_FAIL("function-functor");
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, intCube,
intSumReduce, intInitial);
CHECK_FAIL("function-function");
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, intCube,
lambdaSumReduce, intInitial);
CHECK_FAIL("function-lambda");
// LAMBDA-other
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, lambdaCube,
IntSumReduce(), intInitial);
CHECK_FAIL("lambda-functor");
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, lambdaCube,
intSumReduce, intInitial);
CHECK_FAIL("lambda-function");
testMappedReducedInitialValueThreadPool(&pool, intList, sumOfCubes, lambdaCube,
lambdaSumReduce, intInitial);
CHECK_FAIL("lambda-lambda");
{
// non-template sequences
NonTemplateSequence list { 1, 2, 3 };
auto future =
QtConcurrent::mappedReduced(&pool, list, multiplyBy2, intSumReduce, intInitial);
QCOMPARE(future.result(), intInitial + 12);
auto result = QtConcurrent::blockingMappedReduced(&pool, list, multiplyBy2, intSumReduce,
intInitial);
QCOMPARE(result, intInitial + 12);
}
{
// rvalue sequences
auto future = QtConcurrent::mappedReduced(&pool, std::vector { 1, 2, 3 }, intCube,
intSumReduce, intInitial);
QCOMPARE(future.result(), sumOfCubes);
auto result = QtConcurrent::blockingMappedReduced(&pool, std::vector { 1, 2, 3 }, intCube,
intSumReduce, intInitial);
QCOMPARE(result, sumOfCubes);
}
{
// move only sequences
auto future = QtConcurrent::mappedReduced(&pool, MoveOnlyVector<int>({ 1, 2, 3 }), intCube,
intSumReduce, intInitial);
QCOMPARE(future.result(), sumOfCubes);
auto result = QtConcurrent::blockingMappedReduced(&pool, MoveOnlyVector<int>({ 1, 2, 3 }),
intCube, intSumReduce, intInitial);
QCOMPARE(result, sumOfCubes);
}
}
void tst_QtConcurrentMap::mappedReducedInitialValueWithMoveOnlyCallable()
{
const QList<int> intList { 1, 2, 3 };
const auto initialValue = 10;
const auto sum = 22;
{
const auto result =
QtConcurrent::mappedReduced(intList, MultiplyBy2(),
IntSumReduceMoveOnly(), initialValue).result();
QCOMPARE(result, sum);
}
{
const auto result =
QtConcurrent::mappedReduced(intList.begin(), intList.end(), MultiplyBy2(),
IntSumReduceMoveOnly(), initialValue).result();
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::blockingMappedReduced(
intList, MultiplyBy2(), IntSumReduceMoveOnly(), initialValue);
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::blockingMappedReduced(
intList.begin(), intList.end(), MultiplyBy2(), IntSumReduceMoveOnly(),
initialValue);
QCOMPARE(result, sum);
}
QThreadPool pool;
{
const auto result =
QtConcurrent::mappedReduced(&pool, intList, MultiplyBy2(),
IntSumReduceMoveOnly(), initialValue).result();
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::mappedReduced(&pool, intList.begin(), intList.end(),
MultiplyBy2(), IntSumReduceMoveOnly(),
initialValue).result();
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::blockingMappedReduced(
&pool, intList, MultiplyBy2(), IntSumReduceMoveOnly(), initialValue);
QCOMPARE(result, sum);
}
{
const auto result = QtConcurrent::blockingMappedReduced(
&pool, intList.begin(), intList.end(), MultiplyBy2(), IntSumReduceMoveOnly(),
initialValue);
QCOMPARE(result, sum);
}
}
void tst_QtConcurrentMap::mappedReducedDifferentTypeInitialValue()
{
// This is a copy of tst_QtConcurrentMap::mappedReducedDifferentType
// with the initial value parameter added
const QList<Number> numberList {1, 2, 3};
const int sumOfSquares = 24;
const int intInitial = 10;
auto lambdaSquare = [](Number x) {
return Number(x.toInt() * x.toInt());
};
auto lambdaSumReduce = [](int &sum, Number x) {
sum += x.toInt();
};
// FUNCTOR-other
testMappedReducedInitialValue(numberList, sumOfSquares, NumberSquare(), NumberSumReduce(), intInitial);
CHECK_FAIL("functor-functor");
testMappedReducedInitialValue(numberList, sumOfSquares, NumberSquare(), numberSumReduce, intInitial);
CHECK_FAIL("functor-function");
testMappedReducedInitialValue(numberList, sumOfSquares, NumberSquare(), lambdaSumReduce, intInitial);
CHECK_FAIL("functor-lambda");
// FUNCTION-other
testMappedReducedInitialValue(numberList, sumOfSquares, numberSquare, NumberSumReduce(), intInitial);
CHECK_FAIL("function-functor");
testMappedReducedInitialValue(numberList, sumOfSquares, numberSquare, numberSumReduce, intInitial);
CHECK_FAIL("function-function");
testMappedReducedInitialValue(numberList, sumOfSquares, numberSquare, lambdaSumReduce, intInitial);
CHECK_FAIL("function-lambda");
// MEMBER-other
testMappedReducedInitialValue(numberList, sumOfSquares, &Number::squared, NumberSumReduce(), intInitial);
CHECK_FAIL("member-functor");
testMappedReducedInitialValue(numberList, sumOfSquares, &Number::squared, numberSumReduce, intInitial);
CHECK_FAIL("member-function");
testMappedReducedInitialValue(numberList, sumOfSquares, &Number::squared, lambdaSumReduce, intInitial);
CHECK_FAIL("member-lambda");
// LAMBDA-other
testMappedReducedInitialValue(numberList, sumOfSquares, lambdaSquare, NumberSumReduce(), intInitial);
CHECK_FAIL("lambda-functor");
testMappedReducedInitialValue(numberList, sumOfSquares, lambdaSquare, numberSumReduce, intInitial);
CHECK_FAIL("lambda-function");
testMappedReducedInitialValue(numberList, sumOfSquares, lambdaSquare, lambdaSumReduce, intInitial);
CHECK_FAIL("lambda-lambda");
}
void tst_QtConcurrentMap::mappedReduceOptionConvertableToResultType()
{
const QList<int> intList { 1, 2, 3 };
const int sum = 12;
QThreadPool p;
ReduceOption ro = OrderedReduce;
// With container
QCOMPARE(QtConcurrent::mappedReduced(intList, multiplyBy2, intSumReduce, ro).result(), sum);
QCOMPARE(QtConcurrent::blockingMappedReduced(intList, multiplyBy2, intSumReduce, ro), sum);
// With iterators
QCOMPARE(QtConcurrent::mappedReduced(intList.begin(), intList.end(), multiplyBy2, intSumReduce,
ro).result(), sum);
QCOMPARE(QtConcurrent::blockingMappedReduced(intList.begin(), intList.end(), multiplyBy2,
intSumReduce, ro), sum);
// With custom QThreadPool;
QCOMPARE(QtConcurrent::mappedReduced(&p, intList, multiplyBy2, intSumReduce, ro).result(), sum);
QCOMPARE(QtConcurrent::blockingMappedReduced(&p, intList, multiplyBy2, intSumReduce, ro), sum);
QCOMPARE(QtConcurrent::mappedReduced(&p, intList.begin(), intList.end(), multiplyBy2,
intSumReduce, ro).result(), sum);
QCOMPARE(QtConcurrent::blockingMappedReduced(&p, intList.begin(), intList.end(), multiplyBy2,
intSumReduce, ro), sum);
// The same as above, but specify the result type explicitly (this invokes different overloads)
QCOMPARE(QtConcurrent::mappedReduced<int>(intList, multiplyBy2, intSumReduce, ro).result(),
sum);
QCOMPARE(QtConcurrent::blockingMappedReduced<int>(intList, multiplyBy2, intSumReduce, ro), sum);
QCOMPARE(QtConcurrent::mappedReduced<int>(intList.begin(), intList.end(), multiplyBy2,
intSumReduce, ro).result(), sum);
QCOMPARE(QtConcurrent::blockingMappedReduced<int>(intList.begin(), intList.end(), multiplyBy2,
intSumReduce, ro), sum);
QCOMPARE(QtConcurrent::mappedReduced<int>(&p, intList, multiplyBy2, intSumReduce, ro).result(),
sum);
QCOMPARE(QtConcurrent::blockingMappedReduced<int>(&p, intList, multiplyBy2, intSumReduce, ro),
sum);
QCOMPARE(QtConcurrent::mappedReduced<int>(&p, intList.begin(), intList.end(), multiplyBy2,
intSumReduce, ro).result(), sum);
QCOMPARE(QtConcurrent::blockingMappedReduced<int>(&p, intList.begin(), intList.end(),
multiplyBy2, intSumReduce, ro), sum);
}
int sleeper(int val)
{
QTest::qSleep(100);
return val;
}
void tst_QtConcurrentMap::assignResult()
{
const QList<int> startList = QList<int>() << 0 << 1 << 2;
QList<int> list = QtConcurrent::blockingMapped(startList, sleeper);
QCOMPARE(list.at(0), 0);
QCOMPARE(list.at(1), 1);
}
int fnConst(const int &i)
{
return i;
}
int fn(int &i)
{
return i;
}
int fnConstNoExcept(const int &i) noexcept
{
return i;
}
int fnNoExcept(int &i) noexcept
{
return i;
}
QString changeTypeConst(const int &)
{
return QString();
}
QString changeType(int &)
{
return QString();
}
QString changeTypeConstNoExcept(const int &) noexcept
{
return QString();
}
QString changeTypeNoExcept(int &) noexcept
{
return QString();
}
int changeTypeQStringListConst(const QStringList &)
{
return 0;
}
int changeTypeQStringList(QStringList &)
{
return 0;
}
int changeTypeQStringListConstNoExcept(const QStringList &) noexcept
{
return 0;
}
int changeTypeQStringListNoExcept(QStringList &) noexcept
{
return 0;
}
class MemFnTester
{
public:
MemFnTester() {}
MemFnTester fn()
{
return MemFnTester();
}
MemFnTester fnConst() const
{
return MemFnTester();
}
QString changeType()
{
return QString();
}
QString changeTypeConst() const
{
return QString();
}
MemFnTester fnNoExcept() noexcept
{
return MemFnTester();
}
MemFnTester fnConstNoExcept() const noexcept
{
return MemFnTester();
}
QString changeTypeNoExcept() noexcept
{
return QString();
}
QString changeTypeConstNoExcept() const noexcept
{
return QString();
}
};
Q_DECLARE_METATYPE(QList<MemFnTester>);
void tst_QtConcurrentMap::functionOverloads()
{
QList<int> intList;
const QList<int> constIntList;
QList<MemFnTester> classList;
const QList<MemFnTester> constMemFnTesterList;
QtConcurrent::mapped(intList, fnConst);
QtConcurrent::mapped(constIntList, fnConst);
QtConcurrent::mapped(classList, &MemFnTester::fnConst);
QtConcurrent::mapped(constMemFnTesterList, &MemFnTester::fnConst);
QtConcurrent::blockingMapped<QList<int>>(intList, fnConst);
QtConcurrent::blockingMapped<QList<int>>(constIntList, fnConst);
QtConcurrent::blockingMapped<QList<MemFnTester>>(classList, &MemFnTester::fnConst);
QtConcurrent::blockingMapped<QList<MemFnTester>>(constMemFnTesterList, &MemFnTester::fnConst);
QtConcurrent::blockingMapped<QList<QString> >(intList, changeTypeConst);
QtConcurrent::blockingMapped<QList<QString> >(constIntList, changeTypeConst);
QtConcurrent::blockingMapped<QList<QString> >(classList, &MemFnTester::changeTypeConst);
QtConcurrent::blockingMapped<QList<QString> >(constMemFnTesterList, &MemFnTester::changeTypeConst);
}
void tst_QtConcurrentMap::noExceptFunctionOverloads()
{
QList<int> intList;
const QList<int> constIntList;
QList<MemFnTester> classList;
const QList<MemFnTester> constMemFnTesterList;
QtConcurrent::mapped(intList, fnConstNoExcept);
QtConcurrent::mapped(constIntList, fnConstNoExcept);
QtConcurrent::mapped(classList, &MemFnTester::fnConstNoExcept);
QtConcurrent::mapped(constMemFnTesterList, &MemFnTester::fnConstNoExcept);
QtConcurrent::blockingMapped<QList<int>>(intList, fnConstNoExcept);
QtConcurrent::blockingMapped<QList<int>>(constIntList, fnConstNoExcept);
QtConcurrent::blockingMapped<QList<MemFnTester>>(classList, &MemFnTester::fnConstNoExcept);
QtConcurrent::blockingMapped<QList<MemFnTester>>(constMemFnTesterList,
&MemFnTester::fnConstNoExcept);
QtConcurrent::blockingMapped<QList<QString> >(intList, changeTypeConstNoExcept);
QtConcurrent::blockingMapped<QList<QString> >(constIntList, changeTypeConstNoExcept);
QtConcurrent::blockingMapped<QList<QString> >(classList, &MemFnTester::changeTypeConstNoExcept);
QtConcurrent::blockingMapped<QList<QString> >(constMemFnTesterList, &MemFnTester::changeTypeConstNoExcept);
}
QAtomicInt currentInstanceCount;
QAtomicInt peakInstanceCount;
class InstanceCounter
{
public:
inline InstanceCounter()
{ currentInstanceCount.fetchAndAddRelaxed(1); updatePeak(); }
inline ~InstanceCounter()
{ currentInstanceCount.fetchAndAddRelaxed(-1);}
inline InstanceCounter(const InstanceCounter &)
{ currentInstanceCount.fetchAndAddRelaxed(1); updatePeak(); }
constexpr InstanceCounter &operator=(const InstanceCounter &) noexcept
{ return *this; }
void updatePeak()
{
forever {
const int localPeak = peakInstanceCount.loadRelaxed();
const int localCurrent = currentInstanceCount.loadRelaxed();
if (localCurrent <= localPeak)
break;
if (peakInstanceCount.testAndSetOrdered(localPeak, localCurrent))
break;
}
}
};
InstanceCounter slowMap(const InstanceCounter &in)
{
QTest::qSleep(2);
return in;
}
InstanceCounter fastMap(const InstanceCounter &in)
{
QTest::qSleep(QRandomGenerator::global()->bounded(2) + 1);
return in;
}
void slowReduce(int &result, const InstanceCounter&)
{
QTest::qSleep(QRandomGenerator::global()->bounded(4) + 1);
++result;
}
void fastReduce(int &result, const InstanceCounter&)
{
++result;
}
void tst_QtConcurrentMap::throttling()
{
const int itemcount = 100;
const int allowedTemporaries = QThread::idealThreadCount() * 40;
{
currentInstanceCount.storeRelaxed(0);
peakInstanceCount.storeRelaxed(0);
QList<InstanceCounter> instances;
for (int i = 0; i < itemcount; ++i)
instances.append(InstanceCounter());
QCOMPARE(currentInstanceCount.loadRelaxed(), itemcount);
int results = QtConcurrent::blockingMappedReduced(instances, slowMap, fastReduce);
QCOMPARE(results, itemcount);
QCOMPARE(currentInstanceCount.loadRelaxed(), itemcount);
QVERIFY(peakInstanceCount.loadRelaxed() < itemcount + allowedTemporaries);
}
{
QCOMPARE(currentInstanceCount.loadRelaxed(), 0);
peakInstanceCount.storeRelaxed(0);
QList<InstanceCounter> instances;
for (int i = 0; i < itemcount; ++i)
instances.append(InstanceCounter());
QCOMPARE(currentInstanceCount.loadRelaxed(), itemcount);
int results = QtConcurrent::blockingMappedReduced(instances, fastMap, slowReduce);
QCOMPARE(results, itemcount);
QCOMPARE(currentInstanceCount.loadRelaxed(), itemcount);
QVERIFY(peakInstanceCount.loadRelaxed() < itemcount + allowedTemporaries);
}
}
#ifndef QT_NO_EXCEPTIONS
void throwMapper(int &e)
{
Q_UNUSED(e);
throw QException();
}
void tst_QtConcurrentMap::exceptions()
{
bool caught = false;
try {
QList<int> list = QList<int>() << 1 << 2 << 3;
QtConcurrent::map(list, throwMapper).waitForFinished();
} catch (const QException &) {
caught = true;
}
if (!caught)
QFAIL("did not get exception");
}
#endif
int mapper(const int &i)
{
QTest::qWait(1);
return i;
}
void tst_QtConcurrentMap::incrementalResults()
{
const int count = 200;
QList<int> ints;
for (int i=0; i < count; ++i)
ints << i;
QFuture<int> future = QtConcurrent::mapped(ints, mapper);
QList<int> results;
while (future.isFinished() == false) {
for (int i = 0; i < future.resultCount(); ++i) {
results += future.resultAt(i);
}
QTest::qWait(1);
}
QCOMPARE(future.isFinished(), true);
QCOMPARE(future.resultCount(), count);
QCOMPARE(future.results().size(), count);
}
/*
Test that mapped does not cause deep copies when holding
references to Qt containers.
*/
void tst_QtConcurrentMap::noDetach()
{
{
QList<int> l = QList<int>() << 1;
QVERIFY(l.isDetached());
QList<int> ll = l;
QVERIFY(!l.isDetached());
QtConcurrent::mapped(l, mapper).waitForFinished();
QVERIFY(!l.isDetached());
QVERIFY(!ll.isDetached());
QtConcurrent::mappedReduced(l, mapper, intSumReduce).waitForFinished();
QVERIFY(!l.isDetached());
QVERIFY(!ll.isDetached());
QtConcurrent::map(l, multiplyBy2Immutable).waitForFinished();
QVERIFY(l.isDetached());
QVERIFY(ll.isDetached());
}
{
const QList<int> l = QList<int>() << 1;
QVERIFY(l.isDetached());
const QList<int> ll = l;
QVERIFY(!l.isDetached());
QtConcurrent::mapped(l, mapper).waitForFinished();
QVERIFY(!l.isDetached());
QVERIFY(!ll.isDetached());
QtConcurrent::mappedReduced(l, mapper, intSumReduce).waitForFinished();
QVERIFY(!l.isDetached());
QVERIFY(!ll.isDetached());
}
}
void tst_QtConcurrentMap::stlContainers()
{
std::vector<int> vector;
vector.push_back(1);
vector.push_back(2);
std::vector<int> vector2 = QtConcurrent::blockingMapped(vector, mapper);
QCOMPARE(vector2.size(), 2u);
std::list<int> list;
list.push_back(1);
list.push_back(2);
std::list<int> list2 = QtConcurrent::blockingMapped(list, mapper);
QCOMPARE(list2.size(), 2u);
QtConcurrent::mapped(list, mapper).waitForFinished();
QtConcurrent::blockingMap(list, multiplyBy2Immutable);
}
void tst_QtConcurrentMap::stlContainersLambda()
{
std::vector<int> vector;
vector.push_back(1);
vector.push_back(2);
std::vector<int> vector2 =
QtConcurrent::blockingMapped(vector, [](const int &i) { return mapper(i); });
QCOMPARE(vector2.size(), 2u);
std::list<int> list;
list.push_back(1);
list.push_back(2);
std::list<int> list2 =
QtConcurrent::blockingMapped(list, [](const int &i) { return mapper(i); });
QCOMPARE(list2.size(), 2u);
QtConcurrent::mapped(list, [](const int &i) { return mapper(i); }).waitForFinished();
QtConcurrent::blockingMap(list, [](int x) { x *= 2; });
}
InstanceCounter ic_fn(const InstanceCounter & ic)
{
return InstanceCounter(ic);
}
// Verify that held results are deleted when a future is
// assigned over with operator ==
void tst_QtConcurrentMap::qFutureAssignmentLeak()
{
currentInstanceCount.storeRelaxed(0);
peakInstanceCount.storeRelaxed(0);
QFuture<InstanceCounter> future;
{
QList<InstanceCounter> list;
for (int i=0;i<1000;++i)
list += InstanceCounter();
future = QtConcurrent::mapped(list, ic_fn);
future.waitForFinished();
future = QtConcurrent::mapped(list, ic_fn);
future.waitForFinished();
future = QtConcurrent::mapped(list, ic_fn);
future.waitForFinished();
}
// Use QTRY_COMPARE because QtConcurrent::ThreadEngine::asynchronousFinish()
// deletes its internals after signaling finished, so it might still be holding
// on to copies of InstanceCounter for a short while.
QTRY_COMPARE(currentInstanceCount.loadRelaxed(), 1000);
future = QFuture<InstanceCounter>();
QTRY_COMPARE(currentInstanceCount.loadRelaxed(), 0);
}
inline void increment(int &num)
{
++num;
}
inline int echo(const int &num)
{
return num;
}
void add(int &result, const int &sum)
{
result += sum;
}
void tst_QtConcurrentMap::stressTest()
{
const int listSize = 1000;
const int sum = (listSize - 1) * (listSize / 2);
QList<int> list;
for (int i = 0; i < listSize; ++i) {
list.append(i);
}
for (int i =0 ; i < 100; ++i) {
QList<int> result = QtConcurrent::blockingMapped(list, echo);
for (int j = 0; j < listSize; ++j)
QCOMPARE(result.at(j), j);
}
for (int i = 0 ; i < 100; ++i) {
int result = QtConcurrent::blockingMappedReduced(list, echo, add);
QCOMPARE(result, sum);
}
for (int i = 0 ; i < 100; ++i) {
QtConcurrent::map(list, increment).waitForFinished();
for (int j = 0; j < listSize; ++j)
QCOMPARE(list.at(j), i + j + 1);
}
}
struct LockedCounter
{
LockedCounter(QMutex *mutex, QAtomicInt *ai)
: mtx(mutex),
ref(ai) {}
int operator()(int x)
{
QMutexLocker locker(mtx);
ref->ref();
return ++x;
}
QMutex *mtx;
QAtomicInt *ref;
};
// The Thread engine holds the last reference
// to the QFuture, so this should not leak
// or fail.
void tst_QtConcurrentMap::persistentResultTest()
{
QFuture<void> voidFuture;
QMutex mtx;
QAtomicInt ref;
LockedCounter lc(&mtx, &ref);
QList<int> list;
{
list << 1 << 2 << 3;
mtx.lock();
QFuture<int> future = QtConcurrent::mapped(list
,lc);
voidFuture = future;
}
QCOMPARE(ref.loadAcquire(), 0);
mtx.unlock(); // Unblock
voidFuture.waitForFinished();
QCOMPARE(ref.loadAcquire(), 3);
}
QTEST_MAIN(tst_QtConcurrentMap)
#include "tst_qtconcurrentmap.moc"