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#include "Data/DataSeries.h"
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#include "Data/ScalarSeries.h"
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#include "Data/VectorSeries.h"
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#include <cmath>
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#include <QObject>
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#include <QtTest>
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Q_DECLARE_METATYPE(std::shared_ptr<ScalarSeries>)
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Q_DECLARE_METATYPE(std::shared_ptr<VectorSeries>)
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class TestDataSeries : public QObject {
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Q_OBJECT
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private:
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template <typename T>
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void testValuesBoundsStructure()
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{
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// ////////////// //
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// Test structure //
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// ////////////// //
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// Data series to get values bounds
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QTest::addColumn<std::shared_ptr<T> >("dataSeries");
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// x-axis range
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QTest::addColumn<double>("minXAxis");
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QTest::addColumn<double>("maxXAxis");
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// Expected results
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QTest::addColumn<bool>(
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"expectedOK"); // Test is expected to be ok (i.e. method doesn't return end iterators)
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QTest::addColumn<double>("expectedMinValue");
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QTest::addColumn<double>("expectedMaxValue");
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}
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template <typename T>
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void testValuesBounds()
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{
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QFETCH(std::shared_ptr<T>, dataSeries);
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QFETCH(double, minXAxis);
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QFETCH(double, maxXAxis);
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QFETCH(bool, expectedOK);
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QFETCH(double, expectedMinValue);
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QFETCH(double, expectedMaxValue);
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auto minMaxIts = dataSeries->valuesBounds(minXAxis, maxXAxis);
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auto end = dataSeries->cend();
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// Checks iterators with expected result
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QCOMPARE(expectedOK, minMaxIts.first != end && minMaxIts.second != end);
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if (expectedOK) {
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auto compare = [](const auto &v1, const auto &v2) {
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return (std::isnan(v1) && std::isnan(v2)) || v1 == v2;
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};
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QVERIFY(compare(expectedMinValue, minMaxIts.first->minValue()));
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QVERIFY(compare(expectedMaxValue, minMaxIts.second->maxValue()));
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}
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}
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private slots:
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/// Input test data
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/// @sa testCtor()
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void testCtor_data();
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/// Tests construction of a data series
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void testCtor();
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/// Input test data
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/// @sa testMerge()
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void testMerge_data();
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/// Tests merge of two data series
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void testMerge();
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/// Input test data
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/// @sa testMinXAxisData()
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void testMinXAxisData_data();
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/// Tests get min x-axis data of a data series
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void testMinXAxisData();
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/// Input test data
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/// @sa testMaxXAxisData()
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void testMaxXAxisData_data();
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/// Tests get max x-axis data of a data series
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void testMaxXAxisData();
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/// Input test data
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/// @sa testXAxisRange()
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void testXAxisRange_data();
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/// Tests get x-axis range of a data series
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void testXAxisRange();
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/// Input test data
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/// @sa testValuesBoundsScalar()
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void testValuesBoundsScalar_data();
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/// Tests get values bounds of a scalar series
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void testValuesBoundsScalar();
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/// Input test data
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/// @sa testValuesBoundsVector()
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void testValuesBoundsVector_data();
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/// Tests get values bounds of a vector series
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void testValuesBoundsVector();
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};
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void TestDataSeries::testCtor_data()
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{
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// ////////////// //
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// Test structure //
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// ////////////// //
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// x-axis data
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QTest::addColumn<QVector<double> >("xAxisData");
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// values data
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QTest::addColumn<QVector<double> >("valuesData");
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// expected x-axis data
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QTest::addColumn<QVector<double> >("expectedXAxisData");
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// expected values data
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QTest::addColumn<QVector<double> >("expectedValuesData");
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// ////////// //
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// Test cases //
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// ////////// //
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QTest::newRow("invalidData (different sizes of vectors)")
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<< QVector<double>{1., 2., 3., 4., 5.} << QVector<double>{100., 200., 300.}
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<< QVector<double>{} << QVector<double>{};
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QTest::newRow("sortedData") << QVector<double>{1., 2., 3., 4., 5.}
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<< QVector<double>{100., 200., 300., 400., 500.}
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<< QVector<double>{1., 2., 3., 4., 5.}
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<< QVector<double>{100., 200., 300., 400., 500.};
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QTest::newRow("unsortedData") << QVector<double>{5., 4., 3., 2., 1.}
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<< QVector<double>{100., 200., 300., 400., 500.}
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<< QVector<double>{1., 2., 3., 4., 5.}
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<< QVector<double>{500., 400., 300., 200., 100.};
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QTest::newRow("unsortedData2")
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<< QVector<double>{1., 4., 3., 5., 2.} << QVector<double>{100., 200., 300., 400., 500.}
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<< QVector<double>{1., 2., 3., 4., 5.} << QVector<double>{100., 500., 300., 200., 400.};
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}
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void TestDataSeries::testCtor()
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{
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// Creates series
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QFETCH(QVector<double>, xAxisData);
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QFETCH(QVector<double>, valuesData);
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auto series = std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData),
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Unit{}, Unit{});
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// Validates results : we check that the data series is sorted on its x-axis data
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QFETCH(QVector<double>, expectedXAxisData);
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QFETCH(QVector<double>, expectedValuesData);
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auto seriesXAxisData = series->xAxisData()->data();
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auto seriesValuesData = series->valuesData()->data();
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QVERIFY(
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std::equal(expectedXAxisData.cbegin(), expectedXAxisData.cend(), seriesXAxisData.cbegin()));
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QVERIFY(std::equal(expectedValuesData.cbegin(), expectedValuesData.cend(),
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seriesValuesData.cbegin()));
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}
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namespace {
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std::shared_ptr<ScalarSeries> createScalarSeries(QVector<double> xAxisData,
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QVector<double> valuesData)
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{
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return std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData), Unit{},
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Unit{});
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}
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std::shared_ptr<VectorSeries> createVectorSeries(QVector<double> xAxisData,
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QVector<double> xValuesData,
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QVector<double> yValuesData,
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QVector<double> zValuesData)
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{
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return std::make_shared<VectorSeries>(std::move(xAxisData), std::move(xValuesData),
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std::move(yValuesData), std::move(zValuesData), Unit{},
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Unit{});
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}
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} // namespace
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void TestDataSeries::testMerge_data()
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{
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// ////////////// //
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// Test structure //
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// ////////////// //
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// Data series to merge
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QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
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QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries2");
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// Expected values in the first data series after merge
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QTest::addColumn<QVector<double> >("expectedXAxisData");
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QTest::addColumn<QVector<double> >("expectedValuesData");
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// ////////// //
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// Test cases //
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// ////////// //
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QTest::newRow("sortedMerge")
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<< createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
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<< createScalarSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.})
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<< QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
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<< QVector<double>{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.};
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QTest::newRow("unsortedMerge")
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<< createScalarSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.})
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<< createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
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<< QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
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<< QVector<double>{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.};
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QTest::newRow("unsortedMerge2")
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<< createScalarSeries({1., 2., 8., 9., 10}, {100., 200., 300., 400., 500.})
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<< createScalarSeries({3., 4., 5., 6., 7.}, {600., 700., 800., 900., 1000.})
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<< QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
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<< QVector<double>{100., 200., 600., 700., 800., 900., 1000., 300., 400., 500.};
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QTest::newRow("unsortedMerge3")
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<< createScalarSeries({3., 5., 8., 7., 2}, {100., 200., 300., 400., 500.})
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<< createScalarSeries({6., 4., 9., 10., 1.}, {600., 700., 800., 900., 1000.})
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<< QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
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<< QVector<double>{1000., 500., 100., 700., 200., 600., 400., 300., 800., 900.};
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}
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void TestDataSeries::testMerge()
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{
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// Merges series
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QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
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QFETCH(std::shared_ptr<ScalarSeries>, dataSeries2);
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dataSeries->merge(dataSeries2.get());
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// Validates results : we check that the merge is valid and the data series is sorted on its
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// x-axis data
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QFETCH(QVector<double>, expectedXAxisData);
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QFETCH(QVector<double>, expectedValuesData);
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auto seriesXAxisData = dataSeries->xAxisData()->data();
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auto seriesValuesData = dataSeries->valuesData()->data();
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QVERIFY(
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std::equal(expectedXAxisData.cbegin(), expectedXAxisData.cend(), seriesXAxisData.cbegin()));
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QVERIFY(std::equal(expectedValuesData.cbegin(), expectedValuesData.cend(),
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seriesValuesData.cbegin()));
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}
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void TestDataSeries::testMinXAxisData_data()
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{
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// ////////////// //
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// Test structure //
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// ////////////// //
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// Data series to get min data
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QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
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// Min data
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QTest::addColumn<double>("min");
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// Expected results
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QTest::addColumn<bool>(
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"expectedOK"); // if true, expects to have a result (i.e. the iterator != end iterator)
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QTest::addColumn<double>(
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"expectedMin"); // Expected value when method doesn't return end iterator
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// ////////// //
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// Test cases //
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// ////////// //
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QTest::newRow("minData1") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 0. << true << 1.;
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QTest::newRow("minData2") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 1. << true << 1.;
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QTest::newRow("minData3") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 1.1 << true << 2.;
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QTest::newRow("minData4") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 5. << true << 5.;
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QTest::newRow("minData5") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 5.1 << false << std::numeric_limits<double>::quiet_NaN();
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QTest::newRow("minData6") << createScalarSeries({}, {}) << 1.1 << false
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<< std::numeric_limits<double>::quiet_NaN();
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}
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void TestDataSeries::testMinXAxisData()
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{
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QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
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QFETCH(double, min);
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QFETCH(bool, expectedOK);
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QFETCH(double, expectedMin);
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auto it = dataSeries->minXAxisData(min);
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QCOMPARE(expectedOK, it != dataSeries->cend());
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// If the method doesn't return a end iterator, checks with expected value
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if (expectedOK) {
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QCOMPARE(expectedMin, it->x());
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}
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}
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void TestDataSeries::testMaxXAxisData_data()
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{
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// ////////////// //
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// Test structure //
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// ////////////// //
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// Data series to get max data
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QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
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// Max data
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QTest::addColumn<double>("max");
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// Expected results
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QTest::addColumn<bool>(
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"expectedOK"); // if true, expects to have a result (i.e. the iterator != end iterator)
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QTest::addColumn<double>(
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"expectedMax"); // Expected value when method doesn't return end iterator
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// ////////// //
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// Test cases //
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// ////////// //
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QTest::newRow("maxData1") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 6. << true << 5.;
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QTest::newRow("maxData2") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 5. << true << 5.;
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QTest::newRow("maxData3") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 4.9 << true << 4.;
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QTest::newRow("maxData4") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 1.1 << true << 1.;
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QTest::newRow("maxData5") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 1. << true << 1.;
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QTest::newRow("maxData6") << createScalarSeries({}, {}) << 1.1 << false
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<< std::numeric_limits<double>::quiet_NaN();
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}
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void TestDataSeries::testMaxXAxisData()
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{
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QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
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QFETCH(double, max);
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QFETCH(bool, expectedOK);
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QFETCH(double, expectedMax);
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auto it = dataSeries->maxXAxisData(max);
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QCOMPARE(expectedOK, it != dataSeries->cend());
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// If the method doesn't return a end iterator, checks with expected value
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if (expectedOK) {
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QCOMPARE(expectedMax, it->x());
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}
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}
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void TestDataSeries::testXAxisRange_data()
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{
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// ////////////// //
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// Test structure //
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// ////////////// //
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// Data series to get x-axis range
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QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
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// Min/max values
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QTest::addColumn<double>("min");
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QTest::addColumn<double>("max");
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// Expected values
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QTest::addColumn<QVector<double> >("expectedXAxisData");
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QTest::addColumn<QVector<double> >("expectedValuesData");
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// ////////// //
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// Test cases //
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// ////////// //
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QTest::newRow("xAxisRange1") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< -1. << 3.2 << QVector<double>{1., 2., 3.}
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<< QVector<double>{100., 200., 300.};
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QTest::newRow("xAxisRange2") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 1. << 4. << QVector<double>{1., 2., 3., 4.}
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<< QVector<double>{100., 200., 300., 400.};
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QTest::newRow("xAxisRange3") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 1. << 3.9 << QVector<double>{1., 2., 3.}
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<< QVector<double>{100., 200., 300.};
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QTest::newRow("xAxisRange4") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 0. << 0.9 << QVector<double>{} << QVector<double>{};
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QTest::newRow("xAxisRange5") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 0. << 1. << QVector<double>{1.} << QVector<double>{100.};
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QTest::newRow("xAxisRange6") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 2.1 << 6. << QVector<double>{3., 4., 5.}
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<< QVector<double>{300., 400., 500.};
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QTest::newRow("xAxisRange7") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 6. << 9. << QVector<double>{} << QVector<double>{};
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QTest::newRow("xAxisRange8") << createScalarSeries({1., 2., 3., 4., 5.},
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{100., 200., 300., 400., 500.})
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<< 5. << 9. << QVector<double>{5.} << QVector<double>{500.};
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}
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void TestDataSeries::testXAxisRange()
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{
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QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
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QFETCH(double, min);
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QFETCH(double, max);
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QFETCH(QVector<double>, expectedXAxisData);
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QFETCH(QVector<double>, expectedValuesData);
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auto bounds = dataSeries->xAxisRange(min, max);
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QVERIFY(std::equal(bounds.first, bounds.second, expectedXAxisData.cbegin(),
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expectedXAxisData.cend(),
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[](const auto &it, const auto &expectedX) { return it.x() == expectedX; }));
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QVERIFY(std::equal(
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bounds.first, bounds.second, expectedValuesData.cbegin(), expectedValuesData.cend(),
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[](const auto &it, const auto &expectedVal) { return it.value() == expectedVal; }));
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}
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|
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void TestDataSeries::testValuesBoundsScalar_data()
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|
{
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testValuesBoundsStructure<ScalarSeries>();
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|
|
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// ////////// //
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// Test cases //
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// ////////// //
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auto nan = std::numeric_limits<double>::quiet_NaN();
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|
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QTest::newRow("scalarBounds1")
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<< createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) << 0. << 6.
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<< true << 100. << 500.;
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QTest::newRow("scalarBounds2")
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<< createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) << 2. << 4.
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<< true << 200. << 400.;
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QTest::newRow("scalarBounds3")
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<< createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) << 0. << 0.5
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<< false << nan << nan;
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QTest::newRow("scalarBounds4")
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<< createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) << 5.1 << 6.
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<< false << nan << nan;
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QTest::newRow("scalarBounds5") << createScalarSeries({1.}, {100.}) << 0. << 2. << true << 100.
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|
<< 100.;
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QTest::newRow("scalarBounds6") << createScalarSeries({}, {}) << 0. << 2. << false << nan << nan;
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|
|
|
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|
// Tests with NaN values: NaN values are not included in min/max search
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|
QTest::newRow("scalarBounds7")
|
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|
<< createScalarSeries({1., 2., 3., 4., 5.}, {nan, 200., 300., 400., nan}) << 0. << 6.
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<< true << 200. << 400.;
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QTest::newRow("scalarBounds8")
|
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|
<< createScalarSeries({1., 2., 3., 4., 5.}, {nan, nan, nan, nan, nan}) << 0. << 6. << true
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|
|
<< std::numeric_limits<double>::quiet_NaN() << std::numeric_limits<double>::quiet_NaN();
|
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|
}
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|
|
|
|
void TestDataSeries::testValuesBoundsScalar()
|
|
|
{
|
|
|
testValuesBounds<ScalarSeries>();
|
|
|
}
|
|
|
|
|
|
void TestDataSeries::testValuesBoundsVector_data()
|
|
|
{
|
|
|
testValuesBoundsStructure<VectorSeries>();
|
|
|
|
|
|
// ////////// //
|
|
|
// Test cases //
|
|
|
// ////////// //
|
|
|
auto nan = std::numeric_limits<double>::quiet_NaN();
|
|
|
|
|
|
QTest::newRow("vectorBounds1")
|
|
|
<< createVectorSeries({1., 2., 3., 4., 5.}, {10., 15., 20., 13., 12.},
|
|
|
{35., 24., 10., 9., 0.3}, {13., 14., 12., 9., 24.})
|
|
|
<< 0. << 6. << true << 0.3 << 35.; // min/max in same component
|
|
|
QTest::newRow("vectorBounds2")
|
|
|
<< createVectorSeries({1., 2., 3., 4., 5.}, {2.3, 15., 20., 13., 12.},
|
|
|
{35., 24., 10., 9., 4.}, {13., 14., 12., 9., 24.})
|
|
|
<< 0. << 6. << true << 2.3 << 35.; // min/max in same entry
|
|
|
QTest::newRow("vectorBounds3")
|
|
|
<< createVectorSeries({1., 2., 3., 4., 5.}, {2.3, 15., 20., 13., 12.},
|
|
|
{35., 24., 10., 9., 4.}, {13., 14., 12., 9., 24.})
|
|
|
<< 2. << 3. << true << 10. << 24.;
|
|
|
|
|
|
// Tests with NaN values: NaN values are not included in min/max search
|
|
|
QTest::newRow("vectorBounds4")
|
|
|
<< createVectorSeries({1., 2.}, {nan, nan}, {nan, nan}, {nan, nan}) << 0. << 6. << true
|
|
|
<< nan << nan;
|
|
|
}
|
|
|
|
|
|
void TestDataSeries::testValuesBoundsVector()
|
|
|
{
|
|
|
testValuesBounds<VectorSeries>();
|
|
|
}
|
|
|
|
|
|
QTEST_MAIN(TestDataSeries)
|
|
|
#include "TestDataSeries.moc"
|
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