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// Copyright (C) 2020 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
#include "tst_qtconcurrentfiltermapgenerated.h"
void tst_QtConcurrentFilterMapGenerated::mapReduceThroughDifferentTypes()
{
/* test for
template<typename typename ResultType, typename Iterator, typename MapFunctor, typename
ReduceFunctor, typename reductionitemtype> ResultType blockingMappedReduced(Iterator begin,
Iterator end, MapFunctor function, ReduceFunctor reduceFunction, reductionitemtype &&
initialValue, ReduceOptions);
with
inputsequence=standard
inputitemtype=standard
maptype=different
mappeditemtype=standard
reductiontype=different
reductionitemtype=standard
mapfunction=function
mapfunctionpassing=lvalue
reductionfunction=function
reductionfunctionpassing=lvalue
reductioninitialvaluepassing=lvalue
reductionoptions=unspecified
*/
auto input_sequence = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(5, true));
result.push_back(SequenceItem<tag_input>(6, true));
return result;
}();
auto map = myMap<SequenceItem<tag_input>, SequenceItem<tag_mapped>>;
auto reductor = myReduce<SequenceItem<tag_mapped>, SequenceItem<tag_reduction>>;
auto initialvalue = SequenceItem<tag_reduction>(0, true);
auto result = QtConcurrent::blockingMappedReduced(input_sequence.begin(), input_sequence.end(),
map, reductor, initialvalue);
auto expected_result = SequenceItem<tag_reduction>(42, true);
QCOMPARE(result, expected_result);
}
void tst_QtConcurrentFilterMapGenerated::moveOnlyFilterObject()
{
/* test for
template<typename Sequence, typename KeepFunctor>
void blockingFilter(QThreadPool* pool, Sequence & sequence, KeepFunctor filterFunction);
with
inputsequence=standard
inputitemtype=standard
filterfunction=moveonlyfunctor
filterfunctionpassing=rvalue
*/
QThreadPool pool;
pool.setMaxThreadCount(1);
auto input_sequence = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(5, true));
result.push_back(SequenceItem<tag_input>(6, true));
return result;
}();
QtConcurrent::blockingFilter(&pool, input_sequence,
MyMoveOnlyFilter<SequenceItem<tag_input>> {});
auto expected_result = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(5, true));
return result;
}();
QCOMPARE(input_sequence, expected_result);
}
void tst_QtConcurrentFilterMapGenerated::moveOnlyMapObject()
{
/* test for
template<typename Sequence, typename MapFunctor>
void blockingMap(QThreadPool* pool, Sequence & sequence, MapFunctor function);
with
inputsequence=standard
inputitemtype=standard
mapfunction=moveonlyfunctor
mapfunctionpassing=rvalue
*/
QThreadPool pool;
pool.setMaxThreadCount(1);
auto input_sequence = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(5, true));
result.push_back(SequenceItem<tag_input>(6, true));
return result;
}();
QtConcurrent::blockingMap(&pool, input_sequence,
MyMoveOnlyInplaceMap<SequenceItem<tag_input>> {});
auto expected_result = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(6, true));
result.push_back(SequenceItem<tag_input>(8, true));
result.push_back(SequenceItem<tag_input>(10, true));
result.push_back(SequenceItem<tag_input>(12, true));
return result;
}();
QCOMPARE(input_sequence, expected_result);
}
void tst_QtConcurrentFilterMapGenerated::moveOnlyReduceObject()
{
/* test for
template<typename typename ResultType, typename Sequence, typename MapFunctor, typename
ReduceFunctor> ResultType blockingMappedReduced(QThreadPool* pool, const Sequence & sequence,
MapFunctor function, ReduceFunctor reduceFunction, ReduceOptions);
with
inputsequence=standard
inputsequencepassing=lvalue
inputitemtype=standard
maptype=same
mappeditemtype=standard
reductiontype=same
reductionitemtype=standard
mapfunction=functor
mapfunctionpassing=lvalue
reductionfunction=moveonlyfunctor
reductionfunctionpassing=rvalue
reductionoptions=unspecified
*/
QThreadPool pool;
pool.setMaxThreadCount(1);
auto input_sequence = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(5, true));
result.push_back(SequenceItem<tag_input>(6, true));
return result;
}();
auto map = MyMap<SequenceItem<tag_input>, SequenceItem<tag_input>> {};
auto result = QtConcurrent::blockingMappedReduced<SequenceItem<tag_input>>(
&pool, input_sequence, map,
MyMoveOnlyReduce<SequenceItem<tag_input>, SequenceItem<tag_input>> {});
auto expected_result = SequenceItem<tag_input>(42, true);
QCOMPARE(result, expected_result);
}
void tst_QtConcurrentFilterMapGenerated::functorAsReduction()
{
/* test for
template<typename typename ResultType, typename Sequence, typename KeepFunctor, typename
ReduceFunctor, typename reductionitemtype> ResultType blockingFilteredReduced(QThreadPool* pool,
const Sequence & sequence, KeepFunctor filterFunction, ReduceFunctor reduceFunction,
reductionitemtype && initialValue, ReduceOptions);
with
inputsequence=standard
inputsequencepassing=lvalue
inputitemtype=standard
reductiontype=same
reductionitemtype=standard
filterfunction=functor
filterfunctionpassing=lvalue
reductionfunction=functor
reductionfunctionpassing=lvalue
reductioninitialvaluepassing=lvalue
reductionoptions=unspecified
*/
QThreadPool pool;
pool.setMaxThreadCount(1);
auto input_sequence = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(5, true));
result.push_back(SequenceItem<tag_input>(6, true));
return result;
}();
auto filter = MyFilter<SequenceItem<tag_input>> {};
auto reductor = MyReduce<SequenceItem<tag_input>, SequenceItem<tag_input>> {};
auto initialvalue = SequenceItem<tag_input>(0, true);
auto result = QtConcurrent::blockingFilteredReduced<SequenceItem<tag_input>>(
&pool, input_sequence, filter, reductor, initialvalue);
auto expected_result = SequenceItem<tag_input>(9, true);
QCOMPARE(result, expected_result);
}
void tst_QtConcurrentFilterMapGenerated::moveOnlyReductionItem()
{
/* test for
template<typename typename ResultType, typename Sequence, typename KeepFunctor, typename
ReduceFunctor, typename reductionitemtype> ResultType blockingFilteredReduced(QThreadPool* pool,
const Sequence & sequence, KeepFunctor filterFunction, ReduceFunctor reduceFunction,
reductionitemtype && initialValue, ReduceOptions);
with
inputsequence=standard
inputsequencepassing=lvalue
inputitemtype=standard
reductiontype=different
reductionitemtype=moveonly
filterfunction=moveonlyfunctor
filterfunctionpassing=rvalue
reductionfunction=function
reductionfunctionpassing=lvalue
reductioninitialvaluepassing=rvalue
reductionoptions=unspecified
*/
/* TODO: does not work yet
QThreadPool pool;
pool.setMaxThreadCount(1);
auto input_sequence = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(5, true));
result.push_back(SequenceItem<tag_input>(6, true));
return result;
}();
auto reductor = myReduce<SequenceItem<tag_input>, MoveOnlySequenceItem<tag_reduction>>;
auto result = QtConcurrent::blockingFilteredReduced(
&pool, input_sequence, MyMoveOnlyFilter<SequenceItem<tag_input>> {}, reductor,
MoveOnlySequenceItem<tag_reduction>(0, true));
auto expected_result = MoveOnlySequenceItem<tag_reduction>(9, true);
QCOMPARE(result, expected_result);*/
}
void tst_QtConcurrentFilterMapGenerated::noDefaultConstructorItemMapped()
{
/* test for
template<typename typename ResultType, typename Sequence, typename MapFunctor, typename
ReduceFunctor, typename reductionitemtype> ResultType blockingMappedReduced(QThreadPool* pool,
const Sequence & sequence, MapFunctor function, ReduceFunctor reduceFunction, reductionitemtype
&& initialValue, ReduceOptions);
with
inputsequence=standard
inputsequencepassing=lvalue
inputitemtype=standard
maptype=same
mappeditemtype=standard
reductiontype=different
reductionitemtype=noconstruct
mapfunction=functor
mapfunctionpassing=lvalue
reductionfunction=function
reductionfunctionpassing=lvalue
reductioninitialvaluepassing=lvalue
reductionoptions=unspecified
*/
QThreadPool pool;
pool.setMaxThreadCount(1);
auto input_sequence = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(5, true));
result.push_back(SequenceItem<tag_input>(6, true));
return result;
}();
auto map = MyMap<SequenceItem<tag_input>, SequenceItem<tag_input>> {};
auto reductor = myReduce<SequenceItem<tag_input>, NoConstructSequenceItem<tag_reduction>>;
auto initialvalue = NoConstructSequenceItem<tag_reduction>(0, true);
auto result =
QtConcurrent::blockingMappedReduced(&pool, input_sequence, map, reductor, initialvalue);
auto expected_result = NoConstructSequenceItem<tag_reduction>(42, true);
QCOMPARE(result, expected_result);
}
void tst_QtConcurrentFilterMapGenerated::noDefaultConstructorItemFiltered()
{
QThreadPool pool;
pool.setMaxThreadCount(1);
auto input_sequence = []() {
std::vector<SequenceItem<tag_input>> result;
result.push_back(SequenceItem<tag_input>(1, true));
result.push_back(SequenceItem<tag_input>(2, true));
result.push_back(SequenceItem<tag_input>(3, true));
result.push_back(SequenceItem<tag_input>(4, true));
result.push_back(SequenceItem<tag_input>(5, true));
result.push_back(SequenceItem<tag_input>(6, true));
return result;
}();
auto filter = MyFilter<SequenceItem<tag_input>> {};
auto reductor = myReduce<SequenceItem<tag_input>, NoConstructSequenceItem<tag_reduction>>;
auto initialvalue = NoConstructSequenceItem<tag_reduction>(0, true);
auto result = QtConcurrent::blockingFilteredReduced(&pool, input_sequence, filter, reductor,
initialvalue);
auto expected_result = NoConstructSequenceItem<tag_reduction>(9, true);
QCOMPARE(result, expected_result);
}
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