| @@ -10,6 +10,20 | |||||
| 10 | Q_DECLARE_METATYPE(std::shared_ptr<ScalarSeries>) |
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10 | Q_DECLARE_METATYPE(std::shared_ptr<ScalarSeries>) | |
| 11 | Q_DECLARE_METATYPE(std::shared_ptr<VectorSeries>) |
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11 | Q_DECLARE_METATYPE(std::shared_ptr<VectorSeries>) | |
| 12 |
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12 | |||
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13 | namespace { | |||
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14 | ||||
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15 | void validateRange(DataSeriesIterator first, DataSeriesIterator last, const QVector<double> &xData, | |||
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16 | const QVector<double> &valuesData) | |||
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17 | { | |||
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18 | QVERIFY(std::equal(first, last, xData.cbegin(), xData.cend(), | |||
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19 | [](const auto &it, const auto &expectedX) { return it.x() == expectedX; })); | |||
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20 | QVERIFY(std::equal( | |||
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21 | first, last, valuesData.cbegin(), valuesData.cend(), | |||
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22 | [](const auto &it, const auto &expectedVal) { return it.value() == expectedVal; })); | |||
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23 | } | |||
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24 | ||||
|
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25 | } // namespace | |||
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26 | ||||
| 13 | class TestDataSeries : public QObject { |
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27 | class TestDataSeries : public QObject { | |
| 14 | Q_OBJECT |
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28 | Q_OBJECT | |
| 15 | private: |
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29 | private: | |
| @@ -164,13 +178,7 void TestDataSeries::testCtor() | |||||
| 164 | QFETCH(QVector<double>, expectedXAxisData); |
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178 | QFETCH(QVector<double>, expectedXAxisData); | |
| 165 | QFETCH(QVector<double>, expectedValuesData); |
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179 | QFETCH(QVector<double>, expectedValuesData); | |
| 166 |
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180 | |||
| 167 | auto seriesXAxisData = series->xAxisData()->data(); |
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181 | validateRange(series->cbegin(), series->cend(), expectedXAxisData, expectedValuesData); | |
| 168 | auto seriesValuesData = series->valuesData()->data(); |
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| 169 |
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||||
| 170 | QVERIFY( |
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| 171 | std::equal(expectedXAxisData.cbegin(), expectedXAxisData.cend(), seriesXAxisData.cbegin())); |
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| 172 | QVERIFY(std::equal(expectedValuesData.cbegin(), expectedValuesData.cend(), |
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| 173 | seriesValuesData.cbegin())); |
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| 174 | } |
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182 | } | |
| 175 |
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183 | |||
| 176 | namespace { |
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184 | namespace { | |
| @@ -250,13 +258,7 void TestDataSeries::testMerge() | |||||
| 250 | QFETCH(QVector<double>, expectedXAxisData); |
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258 | QFETCH(QVector<double>, expectedXAxisData); | |
| 251 | QFETCH(QVector<double>, expectedValuesData); |
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259 | QFETCH(QVector<double>, expectedValuesData); | |
| 252 |
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260 | |||
| 253 | auto seriesXAxisData = dataSeries->xAxisData()->data(); |
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261 | validateRange(dataSeries->cbegin(), dataSeries->cend(), expectedXAxisData, expectedValuesData); | |
| 254 | auto seriesValuesData = dataSeries->valuesData()->data(); |
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| 255 |
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||||
| 256 | QVERIFY( |
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| 257 | std::equal(expectedXAxisData.cbegin(), expectedXAxisData.cend(), seriesXAxisData.cbegin())); |
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| 258 | QVERIFY(std::equal(expectedValuesData.cbegin(), expectedValuesData.cend(), |
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| 259 | seriesValuesData.cbegin())); |
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| 260 | } |
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262 | } | |
| 261 |
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263 | |||
| 262 | void TestDataSeries::testMinXAxisData_data() |
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264 | void TestDataSeries::testMinXAxisData_data() | |
| @@ -438,12 +440,7 void TestDataSeries::testXAxisRange() | |||||
| 438 | QFETCH(QVector<double>, expectedValuesData); |
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440 | QFETCH(QVector<double>, expectedValuesData); | |
| 439 |
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441 | |||
| 440 | auto bounds = dataSeries->xAxisRange(min, max); |
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442 | auto bounds = dataSeries->xAxisRange(min, max); | |
| 441 |
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443 | validateRange(bounds.first, bounds.second, expectedXAxisData, expectedValuesData); | |
| 442 | expectedXAxisData.cend(), |
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| 443 | [](const auto &it, const auto &expectedX) { return it.x() == expectedX; })); |
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| 444 | QVERIFY(std::equal( |
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| 445 | bounds.first, bounds.second, expectedValuesData.cbegin(), expectedValuesData.cend(), |
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| 446 | [](const auto &it, const auto &expectedVal) { return it.value() == expectedVal; })); |
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| 447 | } |
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444 | } | |
| 448 |
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445 | |||
| 449 | void TestDataSeries::testValuesBoundsScalar_data() |
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446 | void TestDataSeries::testValuesBoundsScalar_data() | |
| @@ -2,6 +2,17 | |||||
| 2 | #include <QObject> |
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2 | #include <QObject> | |
| 3 | #include <QtTest> |
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3 | #include <QtTest> | |
| 4 |
|
4 | |||
|
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5 | namespace { | |||
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6 | ||||
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7 | void verifyArrayData(const ArrayData<1> &arrayData, const QVector<double> &expectedData) | |||
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8 | { | |||
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9 | QVERIFY(std::equal( | |||
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10 | arrayData.cbegin(), arrayData.cend(), expectedData.cbegin(), expectedData.cend(), | |||
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11 | [](const auto &it, const auto &expectedData) { return it.at(0) == expectedData; })); | |||
|
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12 | } | |||
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13 | ||||
|
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14 | } // namespace | |||
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15 | ||||
| 5 | class TestOneDimArrayData : public QObject { |
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16 | class TestOneDimArrayData : public QObject { | |
| 6 | Q_OBJECT |
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17 | Q_OBJECT | |
| 7 | private slots: |
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18 | private slots: | |
| @@ -9,10 +20,6 private slots: | |||||
| 9 | void testData_data(); |
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20 | void testData_data(); | |
| 10 | void testData(); |
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21 | void testData(); | |
| 11 |
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22 | |||
| 12 | /// Tests @sa ArrayData::data(int componentIndex) |
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| 13 | void testDataByComponentIndex_data(); |
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| 14 | void testDataByComponentIndex(); |
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| 15 |
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||||
| 16 | /// Tests @sa ArrayData::add() |
|
23 | /// Tests @sa ArrayData::add() | |
| 17 | void testAdd_data(); |
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24 | void testAdd_data(); | |
| 18 | void testAdd(); |
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25 | void testAdd(); | |
| @@ -51,32 +58,7 void TestOneDimArrayData::testData() | |||||
| 51 | QFETCH(QVector<double>, expectedData); |
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58 | QFETCH(QVector<double>, expectedData); | |
| 52 |
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59 | |||
| 53 | ArrayData<1> arrayData{inputData}; |
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60 | ArrayData<1> arrayData{inputData}; | |
| 54 |
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61 | verifyArrayData(arrayData, expectedData); | |
| 55 | } |
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| 56 |
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||||
| 57 | void TestOneDimArrayData::testDataByComponentIndex_data() |
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| 58 | { |
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| 59 | // Test structure |
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| 60 | QTest::addColumn<QVector<double> >("inputData"); // array data's input |
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| 61 | QTest::addColumn<int>("componentIndex"); // component index to test |
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| 62 | QTest::addColumn<QVector<double> >("expectedData"); // expected data |
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| 63 |
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||||
| 64 | // Test cases |
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| 65 | QTest::newRow("validIndex") << QVector<double>{1., 2., 3., 4., 5.} << 0 |
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| 66 | << QVector<double>{1., 2., 3., 4., 5.}; |
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| 67 | QTest::newRow("invalidIndex1") << QVector<double>{1., 2., 3., 4., 5.} << -1 |
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| 68 | << QVector<double>{}; |
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| 69 | QTest::newRow("invalidIndex2") << QVector<double>{1., 2., 3., 4., 5.} << 1 << QVector<double>{}; |
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| 70 | } |
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| 71 |
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||||
| 72 | void TestOneDimArrayData::testDataByComponentIndex() |
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| 73 | { |
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| 74 | QFETCH(QVector<double>, inputData); |
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| 75 | QFETCH(int, componentIndex); |
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| 76 | QFETCH(QVector<double>, expectedData); |
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| 77 |
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||||
| 78 | ArrayData<1> arrayData{inputData}; |
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| 79 | QVERIFY(arrayData.data(componentIndex) == expectedData); |
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| 80 | } |
|
62 | } | |
| 81 |
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63 | |||
| 82 | void TestOneDimArrayData::testAdd_data() |
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64 | void TestOneDimArrayData::testAdd_data() | |
| @@ -107,7 +89,7 void TestOneDimArrayData::testAdd() | |||||
| 107 | ArrayData<1> other{otherData}; |
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89 | ArrayData<1> other{otherData}; | |
| 108 |
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90 | |||
| 109 | arrayData.add(other, prepend); |
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91 | arrayData.add(other, prepend); | |
| 110 |
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92 | verifyArrayData(arrayData, expectedData); | |
| 111 | } |
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93 | } | |
| 112 |
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94 | |||
| 113 | void TestOneDimArrayData::testAt_data() |
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95 | void TestOneDimArrayData::testAt_data() | |
| @@ -147,7 +129,7 void TestOneDimArrayData::testClear() | |||||
| 147 |
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129 | |||
| 148 | ArrayData<1> arrayData{inputData}; |
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130 | ArrayData<1> arrayData{inputData}; | |
| 149 | arrayData.clear(); |
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131 | arrayData.clear(); | |
| 150 |
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132 | verifyArrayData(arrayData, QVector<double>{}); | |
| 151 | } |
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133 | } | |
| 152 |
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134 | |||
| 153 | void TestOneDimArrayData::testSize_data() |
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135 | void TestOneDimArrayData::testSize_data() | |
| @@ -192,7 +174,7 void TestOneDimArrayData::testSort() | |||||
| 192 | ArrayData<1> arrayData{inputData}; |
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174 | ArrayData<1> arrayData{inputData}; | |
| 193 | auto sortedArrayData = arrayData.sort(sortPermutation); |
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175 | auto sortedArrayData = arrayData.sort(sortPermutation); | |
| 194 | QVERIFY(sortedArrayData != nullptr); |
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176 | QVERIFY(sortedArrayData != nullptr); | |
| 195 |
|
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177 | verifyArrayData(*sortedArrayData, expectedData); | |
| 196 | } |
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178 | } | |
| 197 |
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179 | |||
| 198 | QTEST_MAIN(TestOneDimArrayData) |
|
180 | QTEST_MAIN(TestOneDimArrayData) | |
| @@ -2,15 +2,55 | |||||
| 2 | #include <QObject> |
|
2 | #include <QObject> | |
| 3 | #include <QtTest> |
|
3 | #include <QtTest> | |
| 4 |
|
4 | |||
| 5 |
using |
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5 | using Container = QVector<QVector<double> >; | |
|
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6 | using InputData = QPair<QVector<double>, int>; | |||
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7 | ||||
|
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8 | namespace { | |||
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9 | ||||
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10 | InputData flatten(const Container &container) | |||
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11 | { | |||
|
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12 | if (container.isEmpty()) { | |||
|
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13 | return {}; | |||
|
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14 | } | |||
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15 | ||||
|
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16 | // We assume here that each component of the container have the same size | |||
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17 | auto containerSize = container.size(); | |||
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18 | auto componentSize = container.first().size(); | |||
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19 | ||||
|
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20 | auto result = QVector<double>{}; | |||
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21 | result.reserve(componentSize * containerSize); | |||
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22 | ||||
|
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23 | for (auto i = 0; i < componentSize; ++i) { | |||
|
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24 | for (auto j = 0; j < containerSize; ++j) { | |||
|
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25 | result.append(container.at(j).at(i)); | |||
|
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26 | } | |||
|
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27 | } | |||
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28 | ||||
|
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29 | return {result, containerSize}; | |||
|
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30 | } | |||
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31 | ||||
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32 | void verifyArrayData(const ArrayData<2> &arrayData, const Container &expectedData) | |||
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33 | { | |||
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34 | auto verifyComponent = [&arrayData](const auto &componentData, const auto &equalFun) { | |||
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35 | QVERIFY(std::equal(arrayData.cbegin(), arrayData.cend(), componentData.cbegin(), | |||
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36 | componentData.cend(), | |||
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37 | [&equalFun](const auto &dataSeriesIt, const auto &expectedValue) { | |||
|
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38 | return equalFun(dataSeriesIt, expectedValue); | |||
|
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39 | })); | |||
|
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40 | }; | |||
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41 | ||||
|
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42 | for (auto i = 0; i < expectedData.size(); ++i) { | |||
|
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43 | verifyComponent(expectedData.at(i), [i](const auto &seriesIt, const auto &value) { | |||
|
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44 | return seriesIt.at(i) == value; | |||
|
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45 | }); | |||
|
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46 | } | |||
|
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47 | } | |||
|
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48 | ||||
|
|
49 | } // namespace | |||
| 6 |
|
50 | |||
| 7 | class TestTwoDimArrayData : public QObject { |
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51 | class TestTwoDimArrayData : public QObject { | |
| 8 | Q_OBJECT |
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52 | Q_OBJECT | |
| 9 | private slots: |
|
53 | private slots: | |
| 10 | /// Tests @sa ArrayData::data(int componentIndex) |
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| 11 | void testDataByComponentIndex_data(); |
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| 12 | void testDataByComponentIndex(); |
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| 13 |
|
||||
| 14 | /// Tests @sa ArrayData ctor |
|
54 | /// Tests @sa ArrayData ctor | |
| 15 | void testCtor_data(); |
|
55 | void testCtor_data(); | |
| 16 | void testCtor(); |
|
56 | void testCtor(); | |
| @@ -32,192 +72,167 private slots: | |||||
| 32 | void testSort(); |
|
72 | void testSort(); | |
| 33 | }; |
|
73 | }; | |
| 34 |
|
74 | |||
| 35 | void TestTwoDimArrayData::testDataByComponentIndex_data() |
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| 36 | { |
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| 37 | // Test structure |
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| 38 | QTest::addColumn<DataContainer>("inputData"); // array data's input |
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| 39 | QTest::addColumn<int>("componentIndex"); // component index to test |
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| 40 | QTest::addColumn<QVector<double> >("expectedData"); // expected data |
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| 41 |
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||||
| 42 | // Test cases |
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| 43 | auto inputData |
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| 44 | = DataContainer{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}}; |
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| 45 |
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| 46 | QTest::newRow("validIndex1") << inputData << 0 << QVector<double>{1., 2., 3., 4., 5.}; |
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| 47 | QTest::newRow("validIndex2") << inputData << 1 << QVector<double>{6., 7., 8., 9., 10.}; |
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| 48 | QTest::newRow("validIndex3") << inputData << 2 << QVector<double>{11., 12., 13., 14., 15.}; |
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| 49 | QTest::newRow("invalidIndex1") << inputData << -1 << QVector<double>{}; |
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| 50 | QTest::newRow("invalidIndex2") << inputData << 3 << QVector<double>{}; |
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| 51 | } |
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| 52 |
|
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| 53 | void TestTwoDimArrayData::testDataByComponentIndex() |
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| 54 | { |
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| 55 | QFETCH(DataContainer, inputData); |
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| 56 | QFETCH(int, componentIndex); |
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| 57 | QFETCH(QVector<double>, expectedData); |
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| 58 |
|
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| 59 | ArrayData<2> arrayData{inputData}; |
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| 60 | QVERIFY(arrayData.data(componentIndex) == expectedData); |
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| 61 | } |
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| 62 |
|
||||
| 63 | void TestTwoDimArrayData::testCtor_data() |
|
75 | void TestTwoDimArrayData::testCtor_data() | |
| 64 | { |
|
76 | { | |
| 65 | // Test structure |
|
77 | // Test structure | |
| 66 |
QTest::addColumn<Data |
|
78 | QTest::addColumn<InputData>("inputData"); // array data's input | |
| 67 |
QTest::addColumn<bool>("success"); |
|
79 | QTest::addColumn<bool>("success"); // array data has been successfully constructed | |
| 68 |
QTest::addColumn< |
|
80 | QTest::addColumn<Container>("expectedData"); // expected array data (when success) | |
| 69 |
|
81 | |||
| 70 | // Test cases |
|
82 | // Test cases | |
| 71 | QTest::newRow("validInput") |
|
83 | QTest::newRow("validInput") << flatten(Container{{1., 2., 3., 4., 5.}, | |
| 72 | << DataContainer{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}} |
|
84 | {6., 7., 8., 9., 10.}, | |
| 73 | << true |
|
85 | {11., 12., 13., 14., 15.}}) | |
| 74 | << DataContainer{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}}; |
|
86 | << true << Container{{1., 2., 3., 4., 5.}, | |
| 75 | QTest::newRow("malformedInput (components of the array data haven't the same size") |
|
87 | {6., 7., 8., 9., 10.}, | |
| 76 | << DataContainer{{1., 2., 3., 4., 5.}, {6., 7., 8.}, {11., 12.}} << true |
|
88 | {11., 12., 13., 14., 15.}}; | |
| 77 | << DataContainer{{}, {}, {}}; |
|
89 | QTest::newRow("invalidInput (invalid data size") | |
| 78 | QTest::newRow("invalidInput (less than tow components") << DataContainer{{1., 2., 3., 4., 5.}} |
|
90 | << InputData{{1., 2., 3., 4., 5., 6., 7.}, 3} << false << Container{{}, {}, {}}; | |
| 79 | << false << DataContainer{{}, {}, {}}; |
|
91 | QTest::newRow("invalidInput (less than two components") | |
|
|
92 | << flatten(Container{{1., 2., 3., 4., 5.}}) << false << Container{{}, {}, {}}; | |||
| 80 | } |
|
93 | } | |
| 81 |
|
94 | |||
| 82 | void TestTwoDimArrayData::testCtor() |
|
95 | void TestTwoDimArrayData::testCtor() | |
| 83 | { |
|
96 | { | |
| 84 |
QFETCH(Data |
|
97 | QFETCH(InputData, inputData); | |
| 85 | QFETCH(bool, success); |
|
98 | QFETCH(bool, success); | |
| 86 |
|
99 | |||
| 87 | if (success) { |
|
100 | if (success) { | |
| 88 |
QFETCH( |
|
101 | QFETCH(Container, expectedData); | |
| 89 |
|
||||
| 90 | ArrayData<2> arrayData{inputData}; |
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|||
| 91 |
|
102 | |||
| 92 | for (auto i = 0; i < expectedData.size(); ++i) { |
|
103 | ArrayData<2> arrayData{inputData.first, inputData.second}; | |
| 93 |
|
|
104 | verifyArrayData(arrayData, expectedData); | |
| 94 | } |
|
|||
| 95 | } |
|
105 | } | |
| 96 | else { |
|
106 | else { | |
| 97 |
QVERIFY_EXCEPTION_THROWN(ArrayData<2> |
|
107 | QVERIFY_EXCEPTION_THROWN(ArrayData<2>(inputData.first, inputData.second), | |
|
|
108 | std::invalid_argument); | |||
| 98 | } |
|
109 | } | |
| 99 | } |
|
110 | } | |
| 100 |
|
111 | |||
| 101 | void TestTwoDimArrayData::testAdd_data() |
|
112 | void TestTwoDimArrayData::testAdd_data() | |
| 102 | { |
|
113 | { | |
| 103 | // Test structure |
|
114 | // Test structure | |
| 104 |
QTest::addColumn<Data |
|
115 | QTest::addColumn<InputData>("inputData"); // array's data input | |
| 105 |
QTest::addColumn<Data |
|
116 | QTest::addColumn<InputData>("otherData"); // array data's input to merge with | |
| 106 |
QTest::addColumn<bool>("prepend"); |
|
117 | QTest::addColumn<bool>("prepend"); // prepend or append merge | |
| 107 |
QTest::addColumn< |
|
118 | QTest::addColumn<Container>("expectedData"); // expected data after merge | |
| 108 |
|
119 | |||
| 109 | // Test cases |
|
120 | // Test cases | |
| 110 | auto inputData |
|
121 | auto inputData = flatten( | |
| 111 |
|
|
122 | Container{{1., 2., 3., 4., 5.}, {11., 12., 13., 14., 15.}, {21., 22., 23., 24., 25.}}); | |
| 112 |
|
123 | |||
| 113 |
auto vectorContainer = |
|
124 | auto vectorContainer = flatten(Container{{6., 7., 8.}, {16., 17., 18.}, {26., 27., 28}}); | |
| 114 |
auto tensorContainer = |
|
125 | auto tensorContainer = flatten(Container{{6., 7., 8.}, | |
| 115 |
{ |
|
126 | {16., 17., 18.}, | |
|
|
127 | {26., 27., 28}, | |||
|
|
128 | {36., 37., 38.}, | |||
|
|
129 | {46., 47., 48.}, | |||
|
|
130 | {56., 57., 58}}); | |||
| 116 |
|
131 | |||
| 117 | QTest::newRow("appendMerge") << inputData << vectorContainer << false |
|
132 | QTest::newRow("appendMerge") << inputData << vectorContainer << false | |
| 118 |
<< |
|
133 | << Container{{1., 2., 3., 4., 5., 6., 7., 8.}, | |
| 119 |
|
|
134 | {11., 12., 13., 14., 15., 16., 17., 18.}, | |
| 120 |
|
|
135 | {21., 22., 23., 24., 25., 26., 27., 28}}; | |
| 121 | QTest::newRow("prependMerge") << inputData << vectorContainer << true |
|
136 | QTest::newRow("prependMerge") << inputData << vectorContainer << true | |
| 122 |
<< |
|
137 | << Container{{6., 7., 8., 1., 2., 3., 4., 5.}, | |
| 123 |
|
|
138 | {16., 17., 18., 11., 12., 13., 14., 15.}, | |
| 124 |
|
|
139 | {26., 27., 28, 21., 22., 23., 24., 25.}}; | |
| 125 |
QTest::newRow("invalidMerge") << inputData << tensorContainer << false |
|
140 | QTest::newRow("invalidMerge") << inputData << tensorContainer << false | |
|
|
141 | << Container{{1., 2., 3., 4., 5.}, | |||
|
|
142 | {11., 12., 13., 14., 15.}, | |||
|
|
143 | {21., 22., 23., 24., 25.}}; | |||
| 126 | } |
|
144 | } | |
| 127 |
|
145 | |||
| 128 | void TestTwoDimArrayData::testAdd() |
|
146 | void TestTwoDimArrayData::testAdd() | |
| 129 | { |
|
147 | { | |
| 130 |
QFETCH(Data |
|
148 | QFETCH(InputData, inputData); | |
| 131 |
QFETCH(Data |
|
149 | QFETCH(InputData, otherData); | |
| 132 | QFETCH(bool, prepend); |
|
150 | QFETCH(bool, prepend); | |
| 133 |
QFETCH( |
|
151 | QFETCH(Container, expectedData); | |
| 134 |
|
152 | |||
| 135 | ArrayData<2> arrayData{inputData}; |
|
153 | ArrayData<2> arrayData{inputData.first, inputData.second}; | |
| 136 | ArrayData<2> other{otherData}; |
|
154 | ArrayData<2> other{otherData.first, otherData.second}; | |
| 137 |
|
155 | |||
| 138 | arrayData.add(other, prepend); |
|
156 | arrayData.add(other, prepend); | |
| 139 |
|
157 | |||
| 140 | for (auto i = 0; i < expectedData.size(); ++i) { |
|
158 | verifyArrayData(arrayData, expectedData); | |
| 141 | QVERIFY(arrayData.data(i) == expectedData.at(i)); |
|
|||
| 142 | } |
|
|||
| 143 | } |
|
159 | } | |
| 144 |
|
160 | |||
| 145 | void TestTwoDimArrayData::testClear_data() |
|
161 | void TestTwoDimArrayData::testClear_data() | |
| 146 | { |
|
162 | { | |
| 147 | // Test structure |
|
163 | // Test structure | |
| 148 |
QTest::addColumn<Data |
|
164 | QTest::addColumn<InputData>("inputData"); // array data's input | |
| 149 |
|
165 | |||
| 150 | // Test cases |
|
166 | // Test cases | |
| 151 |
QTest::newRow("data1") << |
|
167 | QTest::newRow("data1") << flatten( | |
| 152 | {1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}}; |
|
168 | Container{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}}); | |
| 153 | } |
|
169 | } | |
| 154 |
|
170 | |||
| 155 | void TestTwoDimArrayData::testClear() |
|
171 | void TestTwoDimArrayData::testClear() | |
| 156 | { |
|
172 | { | |
| 157 |
QFETCH(Data |
|
173 | QFETCH(InputData, inputData); | |
| 158 |
|
174 | |||
| 159 | ArrayData<2> arrayData{inputData}; |
|
175 | ArrayData<2> arrayData{inputData.first, inputData.second}; | |
| 160 | arrayData.clear(); |
|
176 | arrayData.clear(); | |
| 161 |
|
177 | |||
| 162 | for (auto i = 0; i < inputData.size(); ++i) { |
|
178 | auto emptyData = Container(inputData.second, QVector<double>{}); | |
| 163 | QVERIFY(arrayData.data(i) == QVector<double>{}); |
|
179 | verifyArrayData(arrayData, emptyData); | |
| 164 | } |
|
|||
| 165 | } |
|
180 | } | |
| 166 |
|
181 | |||
| 167 | void TestTwoDimArrayData::testSize_data() |
|
182 | void TestTwoDimArrayData::testSize_data() | |
| 168 | { |
|
183 | { | |
| 169 | // Test structure |
|
184 | // Test structure | |
| 170 |
QTest::addColumn< |
|
185 | QTest::addColumn<InputData>("inputData"); // array data's input | |
| 171 |
QTest::addColumn<int>("expectedSize"); |
|
186 | QTest::addColumn<int>("expectedSize"); // expected array data size | |
| 172 |
|
187 | |||
| 173 | // Test cases |
|
188 | // Test cases | |
| 174 |
QTest::newRow("data1") << |
|
189 | QTest::newRow("data1") << flatten(Container{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}}) << 5; | |
| 175 |
QTest::newRow("data2") << |
|
190 | QTest::newRow("data2") << flatten(Container{{1., 2., 3., 4., 5.}, | |
| 176 | {6., 7., 8., 9., 10.}, |
|
191 | {6., 7., 8., 9., 10.}, | |
| 177 | {11., 12., 13., 14., 15.}} |
|
192 | {11., 12., 13., 14., 15.}}) | |
| 178 | << 5; |
|
193 | << 5; | |
| 179 | } |
|
194 | } | |
| 180 |
|
195 | |||
| 181 | void TestTwoDimArrayData::testSize() |
|
196 | void TestTwoDimArrayData::testSize() | |
| 182 | { |
|
197 | { | |
| 183 |
QFETCH(Data |
|
198 | QFETCH(InputData, inputData); | |
| 184 | QFETCH(int, expectedSize); |
|
199 | QFETCH(int, expectedSize); | |
| 185 |
|
200 | |||
| 186 | ArrayData<2> arrayData{inputData}; |
|
201 | ArrayData<2> arrayData{inputData.first, inputData.second}; | |
| 187 | QVERIFY(arrayData.size() == expectedSize); |
|
202 | QVERIFY(arrayData.size() == expectedSize); | |
| 188 | } |
|
203 | } | |
| 189 |
|
204 | |||
| 190 | void TestTwoDimArrayData::testSort_data() |
|
205 | void TestTwoDimArrayData::testSort_data() | |
| 191 | { |
|
206 | { | |
| 192 | // Test structure |
|
207 | // Test structure | |
| 193 |
QTest::addColumn<Data |
|
208 | QTest::addColumn<InputData>("inputData"); // array data's input | |
| 194 | QTest::addColumn<std::vector<int> >("sortPermutation"); // permutation used to sort data |
|
209 | QTest::addColumn<std::vector<int> >("sortPermutation"); // permutation used to sort data | |
| 195 |
QTest::addColumn< |
|
210 | QTest::addColumn<Container>("expectedData"); // expected data after sorting | |
| 196 |
|
211 | |||
| 197 | // Test cases |
|
212 | // Test cases | |
| 198 | QTest::newRow("data1") |
|
213 | QTest::newRow("data1") | |
| 199 | << DataContainer{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}} |
|
214 | << flatten( | |
|
|
215 | Container{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}}) | |||
| 200 | << std::vector<int>{0, 2, 3, 1, 4} |
|
216 | << std::vector<int>{0, 2, 3, 1, 4} | |
| 201 |
<< |
|
217 | << Container{{1., 3., 4., 2., 5.}, {6., 8., 9., 7., 10.}, {11., 13., 14., 12., 15.}}; | |
| 202 | QTest::newRow("data2") |
|
218 | QTest::newRow("data2") | |
| 203 | << DataContainer{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}} |
|
219 | << flatten( | |
|
|
220 | Container{{1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, {11., 12., 13., 14., 15.}}) | |||
| 204 | << std::vector<int>{2, 4, 3, 0, 1} |
|
221 | << std::vector<int>{2, 4, 3, 0, 1} | |
| 205 |
<< |
|
222 | << Container{{3., 5., 4., 1., 2.}, {8., 10., 9., 6., 7.}, {13., 15., 14., 11., 12.}}; | |
| 206 | } |
|
223 | } | |
| 207 |
|
224 | |||
| 208 | void TestTwoDimArrayData::testSort() |
|
225 | void TestTwoDimArrayData::testSort() | |
| 209 | { |
|
226 | { | |
| 210 |
QFETCH(Data |
|
227 | QFETCH(InputData, inputData); | |
| 211 | QFETCH(std::vector<int>, sortPermutation); |
|
228 | QFETCH(std::vector<int>, sortPermutation); | |
| 212 |
QFETCH( |
|
229 | QFETCH(Container, expectedData); | |
| 213 |
|
230 | |||
| 214 | ArrayData<2> arrayData{inputData}; |
|
231 | ArrayData<2> arrayData{inputData.first, inputData.second}; | |
| 215 | auto sortedArrayData = arrayData.sort(sortPermutation); |
|
232 | auto sortedArrayData = arrayData.sort(sortPermutation); | |
| 216 | QVERIFY(sortedArrayData != nullptr); |
|
233 | QVERIFY(sortedArrayData != nullptr); | |
| 217 |
|
234 | |||
| 218 | for (auto i = 0; i < expectedData.size(); ++i) { |
|
235 | verifyArrayData(*sortedArrayData, expectedData); | |
| 219 | QVERIFY(sortedArrayData->data(i) == expectedData.at(i)); |
|
|||
| 220 | } |
|
|||
| 221 | } |
|
236 | } | |
| 222 |
|
237 | |||
| 223 | QTEST_MAIN(TestTwoDimArrayData) |
|
238 | QTEST_MAIN(TestTwoDimArrayData) | |
| @@ -17,51 +17,6 QDateTime dateTime(int year, int month, int day, int hours, int minutes, int sec | |||||
| 17 | return QDateTime{{year, month, day}, {hours, minutes, seconds}, Qt::UTC}; |
|
17 | return QDateTime{{year, month, day}, {hours, minutes, seconds}, Qt::UTC}; | |
| 18 | } |
|
18 | } | |
| 19 |
|
19 | |||
| 20 | /// Compares two vectors that can potentially contain NaN values |
|
|||
| 21 | bool compareVectors(const QVector<double> &v1, const QVector<double> &v2) |
|
|||
| 22 | { |
|
|||
| 23 | if (v1.size() != v2.size()) { |
|
|||
| 24 | return false; |
|
|||
| 25 | } |
|
|||
| 26 |
|
||||
| 27 | auto result = true; |
|
|||
| 28 | auto v2It = v2.cbegin(); |
|
|||
| 29 | for (auto v1It = v1.cbegin(), v1End = v1.cend(); v1It != v1End && result; ++v1It, ++v2It) { |
|
|||
| 30 | auto v1Value = *v1It; |
|
|||
| 31 | auto v2Value = *v2It; |
|
|||
| 32 |
|
||||
| 33 | // If v1 is NaN, v2 has to be NaN too |
|
|||
| 34 | result = std::isnan(v1Value) ? std::isnan(v2Value) : (v1Value == v2Value); |
|
|||
| 35 | } |
|
|||
| 36 |
|
||||
| 37 | return result; |
|
|||
| 38 | } |
|
|||
| 39 |
|
||||
| 40 | bool compareVectors(const QVector<QVector<double> > &v1, const QVector<QVector<double> > &v2) |
|
|||
| 41 | { |
|
|||
| 42 | if (v1.size() != v2.size()) { |
|
|||
| 43 | return false; |
|
|||
| 44 | } |
|
|||
| 45 |
|
||||
| 46 | auto result = true; |
|
|||
| 47 | for (auto i = 0; i < v1.size() && result; ++i) { |
|
|||
| 48 | result &= compareVectors(v1.at(i), v2.at(i)); |
|
|||
| 49 | } |
|
|||
| 50 |
|
||||
| 51 | return result; |
|
|||
| 52 | } |
|
|||
| 53 |
|
||||
| 54 | QVector<QVector<double> > valuesData(const ArrayData<1> &arrayData) |
|
|||
| 55 | { |
|
|||
| 56 | return QVector<QVector<double> >{arrayData.data()}; |
|
|||
| 57 | } |
|
|||
| 58 |
|
||||
| 59 | QVector<QVector<double> > valuesData(const ArrayData<2> &arrayData) |
|
|||
| 60 | { |
|
|||
| 61 | return arrayData.data(); |
|
|||
| 62 | } |
|
|||
| 63 |
|
||||
| 64 |
|
||||
| 65 | QString inputFilePath(const QString &inputFileName) |
|
20 | QString inputFilePath(const QString &inputFileName) | |
| 66 | { |
|
21 | { | |
| 67 | return QFileInfo{TESTS_RESOURCES_PATH, inputFileName}.absoluteFilePath(); |
|
22 | return QFileInfo{TESTS_RESOURCES_PATH, inputFileName}.absoluteFilePath(); | |
| @@ -106,10 +61,26 struct ExpectedResults { | |||||
| 106 | QVERIFY(dataSeries->xAxisUnit() == m_XAxisUnit); |
|
61 | QVERIFY(dataSeries->xAxisUnit() == m_XAxisUnit); | |
| 107 | QVERIFY(dataSeries->valuesUnit() == m_ValuesUnit); |
|
62 | QVERIFY(dataSeries->valuesUnit() == m_ValuesUnit); | |
| 108 |
|
63 | |||
| 109 | // Checks values : as the vectors can potentially contain NaN values, we must use a |
|
64 | auto verifyRange = [dataSeries](const auto &expectedData, const auto &equalFun) { | |
| 110 | // custom vector comparison method |
|
65 | QVERIFY(std::equal(dataSeries->cbegin(), dataSeries->cend(), expectedData.cbegin(), | |
| 111 | QVERIFY(compareVectors(dataSeries->xAxisData()->data(), m_XAxisData)); |
|
66 | expectedData.cend(), | |
| 112 | QVERIFY(compareVectors(valuesData(*dataSeries->valuesData()), m_ValuesData)); |
|
67 | [&equalFun](const auto &dataSeriesIt, const auto &expectedX) { | |
|
|
68 | return equalFun(dataSeriesIt, expectedX); | |||
|
|
69 | })); | |||
|
|
70 | }; | |||
|
|
71 | ||||
|
|
72 | // Checks x-axis data | |||
|
|
73 | verifyRange(m_XAxisData, [](const auto &seriesIt, const auto &value) { | |||
|
|
74 | return seriesIt.x() == value; | |||
|
|
75 | }); | |||
|
|
76 | ||||
|
|
77 | // Checks values data of each component | |||
|
|
78 | for (auto i = 0; i < m_ValuesData.size(); ++i) { | |||
|
|
79 | verifyRange(m_ValuesData.at(i), [i](const auto &seriesIt, const auto &value) { | |||
|
|
80 | auto itValue = seriesIt.value(i); | |||
|
|
81 | return (std::isnan(itValue) && std::isnan(value)) || seriesIt.value(i) == value; | |||
|
|
82 | }); | |||
|
|
83 | } | |||
| 113 | } |
|
84 | } | |
| 114 | else { |
|
85 | else { | |
| 115 | QVERIFY(results == nullptr); |
|
86 | QVERIFY(results == nullptr); | |
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