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Shows min/max x-axis data in Variable widget (2)...
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1 #ifndef SCIQLOP_DATASERIES_H
1 #ifndef SCIQLOP_DATASERIES_H
2 #define SCIQLOP_DATASERIES_H
2 #define SCIQLOP_DATASERIES_H
3
3
4 #include "CoreGlobal.h"
4 #include "CoreGlobal.h"
5
5
6 #include <Common/SortUtils.h>
6 #include <Common/SortUtils.h>
7
7
8 #include <Data/ArrayData.h>
8 #include <Data/ArrayData.h>
9 #include <Data/IDataSeries.h>
9 #include <Data/IDataSeries.h>
10
10
11 #include <QLoggingCategory>
11 #include <QLoggingCategory>
12 #include <QReadLocker>
12 #include <QReadLocker>
13 #include <QReadWriteLock>
13 #include <QReadWriteLock>
14 #include <memory>
14 #include <memory>
15
15
16 // We don't use the Qt macro since the log is used in the header file, which causes multiple log
16 // We don't use the Qt macro since the log is used in the header file, which causes multiple log
17 // definitions with inheritance. Inline method is used instead
17 // definitions with inheritance. Inline method is used instead
18 inline const QLoggingCategory &LOG_DataSeries()
18 inline const QLoggingCategory &LOG_DataSeries()
19 {
19 {
20 static const QLoggingCategory category{"DataSeries"};
20 static const QLoggingCategory category{"DataSeries"};
21 return category;
21 return category;
22 }
22 }
23
23
24 template <int Dim>
24 template <int Dim>
25 class DataSeries;
25 class DataSeries;
26
26
27 namespace dataseries_detail {
27 namespace dataseries_detail {
28
28
29 template <int Dim>
29 template <int Dim>
30 class IteratorValue : public DataSeriesIteratorValue::Impl {
30 class IteratorValue : public DataSeriesIteratorValue::Impl {
31 public:
31 public:
32 explicit IteratorValue(const DataSeries<Dim> &dataSeries, bool begin)
32 explicit IteratorValue(const DataSeries<Dim> &dataSeries, bool begin)
33 : m_XIt(begin ? dataSeries.xAxisData()->cbegin() : dataSeries.xAxisData()->cend()),
33 : m_XIt(begin ? dataSeries.xAxisData()->cbegin() : dataSeries.xAxisData()->cend()),
34 m_ValuesIt(begin ? dataSeries.valuesData()->cbegin()
34 m_ValuesIt(begin ? dataSeries.valuesData()->cbegin()
35 : dataSeries.valuesData()->cend())
35 : dataSeries.valuesData()->cend())
36 {
36 {
37 }
37 }
38 IteratorValue(const IteratorValue &other) = default;
38 IteratorValue(const IteratorValue &other) = default;
39
39
40 std::unique_ptr<DataSeriesIteratorValue::Impl> clone() const override
40 std::unique_ptr<DataSeriesIteratorValue::Impl> clone() const override
41 {
41 {
42 return std::make_unique<IteratorValue<Dim> >(*this);
42 return std::make_unique<IteratorValue<Dim> >(*this);
43 }
43 }
44
44
45 bool equals(const DataSeriesIteratorValue::Impl &other) const override try {
45 bool equals(const DataSeriesIteratorValue::Impl &other) const override try {
46 const auto &otherImpl = dynamic_cast<const IteratorValue &>(other);
46 const auto &otherImpl = dynamic_cast<const IteratorValue &>(other);
47 return std::tie(m_XIt, m_ValuesIt) == std::tie(otherImpl.m_XIt, otherImpl.m_ValuesIt);
47 return std::tie(m_XIt, m_ValuesIt) == std::tie(otherImpl.m_XIt, otherImpl.m_ValuesIt);
48 }
48 }
49 catch (const std::bad_cast &) {
49 catch (const std::bad_cast &) {
50 return false;
50 return false;
51 }
51 }
52
52
53 void next() override
53 void next() override
54 {
54 {
55 ++m_XIt;
55 ++m_XIt;
56 ++m_ValuesIt;
56 ++m_ValuesIt;
57 }
57 }
58
58
59 void prev() override
59 void prev() override
60 {
60 {
61 --m_XIt;
61 --m_XIt;
62 --m_ValuesIt;
62 --m_ValuesIt;
63 }
63 }
64
64
65 double x() const override { return m_XIt->at(0); }
65 double x() const override { return m_XIt->at(0); }
66 double value() const override { return m_ValuesIt->at(0); }
66 double value() const override { return m_ValuesIt->at(0); }
67 double value(int componentIndex) const override { return m_ValuesIt->at(componentIndex); }
67 double value(int componentIndex) const override { return m_ValuesIt->at(componentIndex); }
68
68
69 private:
69 private:
70 ArrayData<1>::Iterator m_XIt;
70 ArrayData<1>::Iterator m_XIt;
71 typename ArrayData<Dim>::Iterator m_ValuesIt;
71 typename ArrayData<Dim>::Iterator m_ValuesIt;
72 };
72 };
73 } // namespace dataseries_detail
73 } // namespace dataseries_detail
74
74
75 /**
75 /**
76 * @brief The DataSeries class is the base (abstract) implementation of IDataSeries.
76 * @brief The DataSeries class is the base (abstract) implementation of IDataSeries.
77 *
77 *
78 * It proposes to set a dimension for the values ​​data.
78 * It proposes to set a dimension for the values ​​data.
79 *
79 *
80 * A DataSeries is always sorted on its x-axis data.
80 * A DataSeries is always sorted on its x-axis data.
81 *
81 *
82 * @tparam Dim The dimension of the values data
82 * @tparam Dim The dimension of the values data
83 *
83 *
84 */
84 */
85 template <int Dim>
85 template <int Dim>
86 class SCIQLOP_CORE_EXPORT DataSeries : public IDataSeries {
86 class SCIQLOP_CORE_EXPORT DataSeries : public IDataSeries {
87 public:
87 public:
88 /// @sa IDataSeries::xAxisData()
88 /// @sa IDataSeries::xAxisData()
89 std::shared_ptr<ArrayData<1> > xAxisData() override { return m_XAxisData; }
89 std::shared_ptr<ArrayData<1> > xAxisData() override { return m_XAxisData; }
90 const std::shared_ptr<ArrayData<1> > xAxisData() const { return m_XAxisData; }
90 const std::shared_ptr<ArrayData<1> > xAxisData() const { return m_XAxisData; }
91
91
92 /// @sa IDataSeries::xAxisUnit()
92 /// @sa IDataSeries::xAxisUnit()
93 Unit xAxisUnit() const override { return m_XAxisUnit; }
93 Unit xAxisUnit() const override { return m_XAxisUnit; }
94
94
95 /// @return the values dataset
95 /// @return the values dataset
96 std::shared_ptr<ArrayData<Dim> > valuesData() { return m_ValuesData; }
96 std::shared_ptr<ArrayData<Dim> > valuesData() { return m_ValuesData; }
97 const std::shared_ptr<ArrayData<Dim> > valuesData() const { return m_ValuesData; }
97 const std::shared_ptr<ArrayData<Dim> > valuesData() const { return m_ValuesData; }
98
98
99 /// @sa IDataSeries::valuesUnit()
99 /// @sa IDataSeries::valuesUnit()
100 Unit valuesUnit() const override { return m_ValuesUnit; }
100 Unit valuesUnit() const override { return m_ValuesUnit; }
101
101
102
102
103 SqpRange range() const override
103 SqpRange range() const override
104 {
104 {
105 if (!m_XAxisData->cdata().isEmpty()) {
105 if (!m_XAxisData->cdata().isEmpty()) {
106 return SqpRange{m_XAxisData->cdata().first(), m_XAxisData->cdata().last()};
106 return SqpRange{m_XAxisData->cdata().first(), m_XAxisData->cdata().last()};
107 }
107 }
108
108
109 return SqpRange{};
109 return SqpRange{};
110 }
110 }
111
111
112 void clear()
112 void clear()
113 {
113 {
114 m_XAxisData->clear();
114 m_XAxisData->clear();
115 m_ValuesData->clear();
115 m_ValuesData->clear();
116 }
116 }
117
117
118 /// Merges into the data series an other data series
118 /// Merges into the data series an other data series
119 /// @remarks the data series to merge with is cleared after the operation
119 /// @remarks the data series to merge with is cleared after the operation
120 void merge(IDataSeries *dataSeries) override
120 void merge(IDataSeries *dataSeries) override
121 {
121 {
122 dataSeries->lockWrite();
122 dataSeries->lockWrite();
123 lockWrite();
123 lockWrite();
124
124
125 if (auto other = dynamic_cast<DataSeries<Dim> *>(dataSeries)) {
125 if (auto other = dynamic_cast<DataSeries<Dim> *>(dataSeries)) {
126 const auto &otherXAxisData = other->xAxisData()->cdata();
126 const auto &otherXAxisData = other->xAxisData()->cdata();
127 const auto &xAxisData = m_XAxisData->cdata();
127 const auto &xAxisData = m_XAxisData->cdata();
128
128
129 // As data series are sorted, we can improve performances of merge, by call the sort
129 // As data series are sorted, we can improve performances of merge, by call the sort
130 // method only if the two data series overlap.
130 // method only if the two data series overlap.
131 if (!otherXAxisData.empty()) {
131 if (!otherXAxisData.empty()) {
132 auto firstValue = otherXAxisData.front();
132 auto firstValue = otherXAxisData.front();
133 auto lastValue = otherXAxisData.back();
133 auto lastValue = otherXAxisData.back();
134
134
135 auto xAxisDataBegin = xAxisData.cbegin();
135 auto xAxisDataBegin = xAxisData.cbegin();
136 auto xAxisDataEnd = xAxisData.cend();
136 auto xAxisDataEnd = xAxisData.cend();
137
137
138 bool prepend;
138 bool prepend;
139 bool sortNeeded;
139 bool sortNeeded;
140
140
141 if (std::lower_bound(xAxisDataBegin, xAxisDataEnd, firstValue) == xAxisDataEnd) {
141 if (std::lower_bound(xAxisDataBegin, xAxisDataEnd, firstValue) == xAxisDataEnd) {
142 // Other data series if after data series
142 // Other data series if after data series
143 prepend = false;
143 prepend = false;
144 sortNeeded = false;
144 sortNeeded = false;
145 }
145 }
146 else if (std::upper_bound(xAxisDataBegin, xAxisDataEnd, lastValue)
146 else if (std::upper_bound(xAxisDataBegin, xAxisDataEnd, lastValue)
147 == xAxisDataBegin) {
147 == xAxisDataBegin) {
148 // Other data series if before data series
148 // Other data series if before data series
149 prepend = true;
149 prepend = true;
150 sortNeeded = false;
150 sortNeeded = false;
151 }
151 }
152 else {
152 else {
153 // The two data series overlap
153 // The two data series overlap
154 prepend = false;
154 prepend = false;
155 sortNeeded = true;
155 sortNeeded = true;
156 }
156 }
157
157
158 // Makes the merge
158 // Makes the merge
159 m_XAxisData->add(*other->xAxisData(), prepend);
159 m_XAxisData->add(*other->xAxisData(), prepend);
160 m_ValuesData->add(*other->valuesData(), prepend);
160 m_ValuesData->add(*other->valuesData(), prepend);
161
161
162 if (sortNeeded) {
162 if (sortNeeded) {
163 sort();
163 sort();
164 }
164 }
165 }
165 }
166
166
167 // Clears the other data series
167 // Clears the other data series
168 other->clear();
168 other->clear();
169 }
169 }
170 else {
170 else {
171 qCWarning(LOG_DataSeries())
171 qCWarning(LOG_DataSeries())
172 << QObject::tr("Detection of a type of IDataSeries we cannot merge with !");
172 << QObject::tr("Detection of a type of IDataSeries we cannot merge with !");
173 }
173 }
174 unlock();
174 unlock();
175 dataSeries->unlock();
175 dataSeries->unlock();
176 }
176 }
177
177
178 // ///////// //
178 // ///////// //
179 // Iterators //
179 // Iterators //
180 // ///////// //
180 // ///////// //
181
181
182 DataSeriesIterator cbegin() const override
182 DataSeriesIterator cbegin() const override
183 {
183 {
184 return DataSeriesIterator{DataSeriesIteratorValue{
184 return DataSeriesIterator{DataSeriesIteratorValue{
185 std::make_unique<dataseries_detail::IteratorValue<Dim> >(*this, true)}};
185 std::make_unique<dataseries_detail::IteratorValue<Dim> >(*this, true)}};
186 }
186 }
187
187
188 DataSeriesIterator cend() const override
188 DataSeriesIterator cend() const override
189 {
189 {
190 return DataSeriesIterator{DataSeriesIteratorValue{
190 return DataSeriesIterator{DataSeriesIteratorValue{
191 std::make_unique<dataseries_detail::IteratorValue<Dim> >(*this, false)}};
191 std::make_unique<dataseries_detail::IteratorValue<Dim> >(*this, false)}};
192 }
192 }
193
193
194 /// @sa IDataSeries::minData()
194 /// @sa IDataSeries::minData()
195 DataSeriesIterator minData(double minXAxisData) const override
195 DataSeriesIterator minData(double minXAxisData) const override
196 {
196 {
197 return std::lower_bound(
197 return std::lower_bound(
198 cbegin(), cend(), minXAxisData,
198 cbegin(), cend(), minXAxisData,
199 [](const auto &itValue, const auto &value) { return itValue.x() < value; });
199 [](const auto &itValue, const auto &value) { return itValue.x() < value; });
200 }
200 }
201
201
202 /// @sa IDataSeries::maxData()
203 DataSeriesIterator maxData(double maxXAxisData) const override
204 {
205 // Gets the first element that greater than max value
206 auto it = std::upper_bound(
207 cbegin(), cend(), maxXAxisData,
208 [](const auto &value, const auto &itValue) { return value < itValue.x(); });
209
210 return it == cbegin() ? cend() : --it;
211 }
212
202 std::pair<DataSeriesIterator, DataSeriesIterator> subData(double min, double max) const override
213 std::pair<DataSeriesIterator, DataSeriesIterator> subData(double min, double max) const override
203 {
214 {
204 if (min > max) {
215 if (min > max) {
205 std::swap(min, max);
216 std::swap(min, max);
206 }
217 }
207
218
208 auto begin = cbegin();
219 auto begin = cbegin();
209 auto end = cend();
220 auto end = cend();
210
221
211 auto lowerIt
222 auto lowerIt
212 = std::lower_bound(begin, end, min, [](const auto &itValue, const auto &value) {
223 = std::lower_bound(begin, end, min, [](const auto &itValue, const auto &value) {
213 return itValue.x() < value;
224 return itValue.x() < value;
214 });
225 });
215 auto upperIt
226 auto upperIt
216 = std::upper_bound(begin, end, max, [](const auto &value, const auto &itValue) {
227 = std::upper_bound(begin, end, max, [](const auto &value, const auto &itValue) {
217 return value < itValue.x();
228 return value < itValue.x();
218 });
229 });
219
230
220 return std::make_pair(lowerIt, upperIt);
231 return std::make_pair(lowerIt, upperIt);
221 }
232 }
222
233
223 // /////// //
234 // /////// //
224 // Mutexes //
235 // Mutexes //
225 // /////// //
236 // /////// //
226
237
227 virtual void lockRead() { m_Lock.lockForRead(); }
238 virtual void lockRead() { m_Lock.lockForRead(); }
228 virtual void lockWrite() { m_Lock.lockForWrite(); }
239 virtual void lockWrite() { m_Lock.lockForWrite(); }
229 virtual void unlock() { m_Lock.unlock(); }
240 virtual void unlock() { m_Lock.unlock(); }
230
241
231 protected:
242 protected:
232 /// Protected ctor (DataSeries is abstract). The vectors must have the same size, otherwise a
243 /// Protected ctor (DataSeries is abstract). The vectors must have the same size, otherwise a
233 /// DataSeries with no values will be created.
244 /// DataSeries with no values will be created.
234 /// @remarks data series is automatically sorted on its x-axis data
245 /// @remarks data series is automatically sorted on its x-axis data
235 explicit DataSeries(std::shared_ptr<ArrayData<1> > xAxisData, const Unit &xAxisUnit,
246 explicit DataSeries(std::shared_ptr<ArrayData<1> > xAxisData, const Unit &xAxisUnit,
236 std::shared_ptr<ArrayData<Dim> > valuesData, const Unit &valuesUnit)
247 std::shared_ptr<ArrayData<Dim> > valuesData, const Unit &valuesUnit)
237 : m_XAxisData{xAxisData},
248 : m_XAxisData{xAxisData},
238 m_XAxisUnit{xAxisUnit},
249 m_XAxisUnit{xAxisUnit},
239 m_ValuesData{valuesData},
250 m_ValuesData{valuesData},
240 m_ValuesUnit{valuesUnit}
251 m_ValuesUnit{valuesUnit}
241 {
252 {
242 if (m_XAxisData->size() != m_ValuesData->size()) {
253 if (m_XAxisData->size() != m_ValuesData->size()) {
243 clear();
254 clear();
244 }
255 }
245
256
246 // Sorts data if it's not the case
257 // Sorts data if it's not the case
247 const auto &xAxisCData = m_XAxisData->cdata();
258 const auto &xAxisCData = m_XAxisData->cdata();
248 if (!std::is_sorted(xAxisCData.cbegin(), xAxisCData.cend())) {
259 if (!std::is_sorted(xAxisCData.cbegin(), xAxisCData.cend())) {
249 sort();
260 sort();
250 }
261 }
251 }
262 }
252
263
253 /// Copy ctor
264 /// Copy ctor
254 explicit DataSeries(const DataSeries<Dim> &other)
265 explicit DataSeries(const DataSeries<Dim> &other)
255 : m_XAxisData{std::make_shared<ArrayData<1> >(*other.m_XAxisData)},
266 : m_XAxisData{std::make_shared<ArrayData<1> >(*other.m_XAxisData)},
256 m_XAxisUnit{other.m_XAxisUnit},
267 m_XAxisUnit{other.m_XAxisUnit},
257 m_ValuesData{std::make_shared<ArrayData<Dim> >(*other.m_ValuesData)},
268 m_ValuesData{std::make_shared<ArrayData<Dim> >(*other.m_ValuesData)},
258 m_ValuesUnit{other.m_ValuesUnit}
269 m_ValuesUnit{other.m_ValuesUnit}
259 {
270 {
260 // Since a series is ordered from its construction and is always ordered, it is not
271 // Since a series is ordered from its construction and is always ordered, it is not
261 // necessary to call the sort method here ('other' is sorted)
272 // necessary to call the sort method here ('other' is sorted)
262 }
273 }
263
274
264 /// Assignment operator
275 /// Assignment operator
265 template <int D>
276 template <int D>
266 DataSeries &operator=(DataSeries<D> other)
277 DataSeries &operator=(DataSeries<D> other)
267 {
278 {
268 std::swap(m_XAxisData, other.m_XAxisData);
279 std::swap(m_XAxisData, other.m_XAxisData);
269 std::swap(m_XAxisUnit, other.m_XAxisUnit);
280 std::swap(m_XAxisUnit, other.m_XAxisUnit);
270 std::swap(m_ValuesData, other.m_ValuesData);
281 std::swap(m_ValuesData, other.m_ValuesData);
271 std::swap(m_ValuesUnit, other.m_ValuesUnit);
282 std::swap(m_ValuesUnit, other.m_ValuesUnit);
272
283
273 return *this;
284 return *this;
274 }
285 }
275
286
276 private:
287 private:
277 /**
288 /**
278 * Sorts data series on its x-axis data
289 * Sorts data series on its x-axis data
279 */
290 */
280 void sort() noexcept
291 void sort() noexcept
281 {
292 {
282 auto permutation = SortUtils::sortPermutation(*m_XAxisData, std::less<double>());
293 auto permutation = SortUtils::sortPermutation(*m_XAxisData, std::less<double>());
283 m_XAxisData = m_XAxisData->sort(permutation);
294 m_XAxisData = m_XAxisData->sort(permutation);
284 m_ValuesData = m_ValuesData->sort(permutation);
295 m_ValuesData = m_ValuesData->sort(permutation);
285 }
296 }
286
297
287 std::shared_ptr<ArrayData<1> > m_XAxisData;
298 std::shared_ptr<ArrayData<1> > m_XAxisData;
288 Unit m_XAxisUnit;
299 Unit m_XAxisUnit;
289 std::shared_ptr<ArrayData<Dim> > m_ValuesData;
300 std::shared_ptr<ArrayData<Dim> > m_ValuesData;
290 Unit m_ValuesUnit;
301 Unit m_ValuesUnit;
291
302
292 QReadWriteLock m_Lock;
303 QReadWriteLock m_Lock;
293 };
304 };
294
305
295 #endif // SCIQLOP_DATASERIES_H
306 #endif // SCIQLOP_DATASERIES_H
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@@ -1,92 +1,96
1 #ifndef SCIQLOP_IDATASERIES_H
1 #ifndef SCIQLOP_IDATASERIES_H
2 #define SCIQLOP_IDATASERIES_H
2 #define SCIQLOP_IDATASERIES_H
3
3
4 #include <Common/MetaTypes.h>
4 #include <Common/MetaTypes.h>
5 #include <Data/DataSeriesIterator.h>
5 #include <Data/DataSeriesIterator.h>
6 #include <Data/SqpRange.h>
6 #include <Data/SqpRange.h>
7
7
8 #include <memory>
8 #include <memory>
9
9
10 #include <QString>
10 #include <QString>
11
11
12 template <int Dim>
12 template <int Dim>
13 class ArrayData;
13 class ArrayData;
14
14
15 struct Unit {
15 struct Unit {
16 explicit Unit(const QString &name = {}, bool timeUnit = false)
16 explicit Unit(const QString &name = {}, bool timeUnit = false)
17 : m_Name{name}, m_TimeUnit{timeUnit}
17 : m_Name{name}, m_TimeUnit{timeUnit}
18 {
18 {
19 }
19 }
20
20
21 inline bool operator==(const Unit &other) const
21 inline bool operator==(const Unit &other) const
22 {
22 {
23 return std::tie(m_Name, m_TimeUnit) == std::tie(other.m_Name, other.m_TimeUnit);
23 return std::tie(m_Name, m_TimeUnit) == std::tie(other.m_Name, other.m_TimeUnit);
24 }
24 }
25 inline bool operator!=(const Unit &other) const { return !(*this == other); }
25 inline bool operator!=(const Unit &other) const { return !(*this == other); }
26
26
27 QString m_Name; ///< Unit name
27 QString m_Name; ///< Unit name
28 bool m_TimeUnit; ///< The unit is a unit of time (UTC)
28 bool m_TimeUnit; ///< The unit is a unit of time (UTC)
29 };
29 };
30
30
31 /**
31 /**
32 * @brief The IDataSeries aims to declare a data series.
32 * @brief The IDataSeries aims to declare a data series.
33 *
33 *
34 * A data series is an entity that contains at least :
34 * A data series is an entity that contains at least :
35 * - one dataset representing the x-axis
35 * - one dataset representing the x-axis
36 * - one dataset representing the values
36 * - one dataset representing the values
37 *
37 *
38 * Each dataset is represented by an ArrayData, and is associated with a unit.
38 * Each dataset is represented by an ArrayData, and is associated with a unit.
39 *
39 *
40 * An ArrayData can be unidimensional or two-dimensional, depending on the implementation of the
40 * An ArrayData can be unidimensional or two-dimensional, depending on the implementation of the
41 * IDataSeries. The x-axis dataset is always unidimensional.
41 * IDataSeries. The x-axis dataset is always unidimensional.
42 *
42 *
43 * @sa ArrayData
43 * @sa ArrayData
44 */
44 */
45 class IDataSeries {
45 class IDataSeries {
46 public:
46 public:
47 virtual ~IDataSeries() noexcept = default;
47 virtual ~IDataSeries() noexcept = default;
48
48
49 /// Returns the x-axis dataset
49 /// Returns the x-axis dataset
50 virtual std::shared_ptr<ArrayData<1> > xAxisData() = 0;
50 virtual std::shared_ptr<ArrayData<1> > xAxisData() = 0;
51
51
52 /// Returns the x-axis dataset (as const)
52 /// Returns the x-axis dataset (as const)
53 virtual const std::shared_ptr<ArrayData<1> > xAxisData() const = 0;
53 virtual const std::shared_ptr<ArrayData<1> > xAxisData() const = 0;
54
54
55 virtual Unit xAxisUnit() const = 0;
55 virtual Unit xAxisUnit() const = 0;
56
56
57 virtual Unit valuesUnit() const = 0;
57 virtual Unit valuesUnit() const = 0;
58
58
59 virtual void merge(IDataSeries *dataSeries) = 0;
59 virtual void merge(IDataSeries *dataSeries) = 0;
60 /// @todo Review the name and signature of this method
60 /// @todo Review the name and signature of this method
61 virtual std::shared_ptr<IDataSeries> subDataSeries(const SqpRange &range) = 0;
61 virtual std::shared_ptr<IDataSeries> subDataSeries(const SqpRange &range) = 0;
62
62
63 virtual std::unique_ptr<IDataSeries> clone() const = 0;
63 virtual std::unique_ptr<IDataSeries> clone() const = 0;
64 virtual SqpRange range() const = 0;
64 virtual SqpRange range() const = 0;
65
65
66 // ///////// //
66 // ///////// //
67 // Iterators //
67 // Iterators //
68 // ///////// //
68 // ///////// //
69
69
70 virtual DataSeriesIterator cbegin() const = 0;
70 virtual DataSeriesIterator cbegin() const = 0;
71 virtual DataSeriesIterator cend() const = 0;
71 virtual DataSeriesIterator cend() const = 0;
72
72
73 /// @return the iterator to the first entry of the data series whose x-axis data is greater than
73 /// @return the iterator to the first entry of the data series whose x-axis data is greater than
74 /// or equal to the value passed in parameter, or the end iterator if there is no matching value
74 /// or equal to the value passed in parameter, or the end iterator if there is no matching value
75 virtual DataSeriesIterator minData(double minXAxisData) const = 0;
75 virtual DataSeriesIterator minData(double minXAxisData) const = 0;
76
76
77 /// @return the iterator to the last entry of the data series whose x-axis data is less than or
78 /// equal to the value passed in parameter, or the end iterator if there is no matching value
79 virtual DataSeriesIterator maxData(double maxXAxisData) const = 0;
80
77 virtual std::pair<DataSeriesIterator, DataSeriesIterator> subData(double min,
81 virtual std::pair<DataSeriesIterator, DataSeriesIterator> subData(double min,
78 double max) const = 0;
82 double max) const = 0;
79
83
80 // /////// //
84 // /////// //
81 // Mutexes //
85 // Mutexes //
82 // /////// //
86 // /////// //
83
87
84 virtual void lockRead() = 0;
88 virtual void lockRead() = 0;
85 virtual void lockWrite() = 0;
89 virtual void lockWrite() = 0;
86 virtual void unlock() = 0;
90 virtual void unlock() = 0;
87 };
91 };
88
92
89 // Required for using shared_ptr in signals/slots
93 // Required for using shared_ptr in signals/slots
90 SCIQLOP_REGISTER_META_TYPE(IDATASERIES_PTR_REGISTRY, std::shared_ptr<IDataSeries>)
94 SCIQLOP_REGISTER_META_TYPE(IDATASERIES_PTR_REGISTRY, std::shared_ptr<IDataSeries>)
91
95
92 #endif // SCIQLOP_IDATASERIES_H
96 #endif // SCIQLOP_IDATASERIES_H
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@@ -1,291 +1,354
1 #include "Data/DataSeries.h"
1 #include "Data/DataSeries.h"
2 #include "Data/ScalarSeries.h"
2 #include "Data/ScalarSeries.h"
3
3
4 #include <QObject>
4 #include <QObject>
5 #include <QtTest>
5 #include <QtTest>
6
6
7 Q_DECLARE_METATYPE(std::shared_ptr<ScalarSeries>)
7 Q_DECLARE_METATYPE(std::shared_ptr<ScalarSeries>)
8
8
9 class TestDataSeries : public QObject {
9 class TestDataSeries : public QObject {
10 Q_OBJECT
10 Q_OBJECT
11 private slots:
11 private slots:
12 /// Input test data
12 /// Input test data
13 /// @sa testCtor()
13 /// @sa testCtor()
14 void testCtor_data();
14 void testCtor_data();
15
15
16 /// Tests construction of a data series
16 /// Tests construction of a data series
17 void testCtor();
17 void testCtor();
18
18
19 /// Input test data
19 /// Input test data
20 /// @sa testMerge()
20 /// @sa testMerge()
21 void testMerge_data();
21 void testMerge_data();
22
22
23 /// Tests merge of two data series
23 /// Tests merge of two data series
24 void testMerge();
24 void testMerge();
25
25
26 /// Input test data
26 /// Input test data
27 /// @sa testMinData()
27 /// @sa testMinData()
28 void testMinData_data();
28 void testMinData_data();
29
29
30 /// Tests get min data of a data series
30 /// Tests get min data of a data series
31 void testMinData();
31 void testMinData();
32
32
33 /// Input test data
34 /// @sa testMaxData()
35 void testMaxData_data();
36
37 /// Tests get max data of a data series
38 void testMaxData();
39
40 /// Input test data
33 /// @sa testSubdata()
41 /// @sa testSubdata()
34 void testSubdata_data();
42 void testSubdata_data();
35
43
36 /// Tests get subdata of two data series
44 /// Tests get subdata of two data series
37 void testSubdata();
45 void testSubdata();
38 };
46 };
39
47
40 void TestDataSeries::testCtor_data()
48 void TestDataSeries::testCtor_data()
41 {
49 {
42 // ////////////// //
50 // ////////////// //
43 // Test structure //
51 // Test structure //
44 // ////////////// //
52 // ////////////// //
45
53
46 // x-axis data
54 // x-axis data
47 QTest::addColumn<QVector<double> >("xAxisData");
55 QTest::addColumn<QVector<double> >("xAxisData");
48 // values data
56 // values data
49 QTest::addColumn<QVector<double> >("valuesData");
57 QTest::addColumn<QVector<double> >("valuesData");
50
58
51 // expected x-axis data
59 // expected x-axis data
52 QTest::addColumn<QVector<double> >("expectedXAxisData");
60 QTest::addColumn<QVector<double> >("expectedXAxisData");
53 // expected values data
61 // expected values data
54 QTest::addColumn<QVector<double> >("expectedValuesData");
62 QTest::addColumn<QVector<double> >("expectedValuesData");
55
63
56 // ////////// //
64 // ////////// //
57 // Test cases //
65 // Test cases //
58 // ////////// //
66 // ////////// //
59
67
60 QTest::newRow("invalidData (different sizes of vectors)")
68 QTest::newRow("invalidData (different sizes of vectors)")
61 << QVector<double>{1., 2., 3., 4., 5.} << QVector<double>{100., 200., 300.}
69 << QVector<double>{1., 2., 3., 4., 5.} << QVector<double>{100., 200., 300.}
62 << QVector<double>{} << QVector<double>{};
70 << QVector<double>{} << QVector<double>{};
63
71
64 QTest::newRow("sortedData") << QVector<double>{1., 2., 3., 4., 5.}
72 QTest::newRow("sortedData") << QVector<double>{1., 2., 3., 4., 5.}
65 << QVector<double>{100., 200., 300., 400., 500.}
73 << QVector<double>{100., 200., 300., 400., 500.}
66 << QVector<double>{1., 2., 3., 4., 5.}
74 << QVector<double>{1., 2., 3., 4., 5.}
67 << QVector<double>{100., 200., 300., 400., 500.};
75 << QVector<double>{100., 200., 300., 400., 500.};
68
76
69 QTest::newRow("unsortedData") << QVector<double>{5., 4., 3., 2., 1.}
77 QTest::newRow("unsortedData") << QVector<double>{5., 4., 3., 2., 1.}
70 << QVector<double>{100., 200., 300., 400., 500.}
78 << QVector<double>{100., 200., 300., 400., 500.}
71 << QVector<double>{1., 2., 3., 4., 5.}
79 << QVector<double>{1., 2., 3., 4., 5.}
72 << QVector<double>{500., 400., 300., 200., 100.};
80 << QVector<double>{500., 400., 300., 200., 100.};
73
81
74 QTest::newRow("unsortedData2")
82 QTest::newRow("unsortedData2")
75 << QVector<double>{1., 4., 3., 5., 2.} << QVector<double>{100., 200., 300., 400., 500.}
83 << QVector<double>{1., 4., 3., 5., 2.} << QVector<double>{100., 200., 300., 400., 500.}
76 << QVector<double>{1., 2., 3., 4., 5.} << QVector<double>{100., 500., 300., 200., 400.};
84 << QVector<double>{1., 2., 3., 4., 5.} << QVector<double>{100., 500., 300., 200., 400.};
77 }
85 }
78
86
79 void TestDataSeries::testCtor()
87 void TestDataSeries::testCtor()
80 {
88 {
81 // Creates series
89 // Creates series
82 QFETCH(QVector<double>, xAxisData);
90 QFETCH(QVector<double>, xAxisData);
83 QFETCH(QVector<double>, valuesData);
91 QFETCH(QVector<double>, valuesData);
84
92
85 auto series = std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData),
93 auto series = std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData),
86 Unit{}, Unit{});
94 Unit{}, Unit{});
87
95
88 // Validates results : we check that the data series is sorted on its x-axis data
96 // Validates results : we check that the data series is sorted on its x-axis data
89 QFETCH(QVector<double>, expectedXAxisData);
97 QFETCH(QVector<double>, expectedXAxisData);
90 QFETCH(QVector<double>, expectedValuesData);
98 QFETCH(QVector<double>, expectedValuesData);
91
99
92 auto seriesXAxisData = series->xAxisData()->data();
100 auto seriesXAxisData = series->xAxisData()->data();
93 auto seriesValuesData = series->valuesData()->data();
101 auto seriesValuesData = series->valuesData()->data();
94
102
95 QVERIFY(
103 QVERIFY(
96 std::equal(expectedXAxisData.cbegin(), expectedXAxisData.cend(), seriesXAxisData.cbegin()));
104 std::equal(expectedXAxisData.cbegin(), expectedXAxisData.cend(), seriesXAxisData.cbegin()));
97 QVERIFY(std::equal(expectedValuesData.cbegin(), expectedValuesData.cend(),
105 QVERIFY(std::equal(expectedValuesData.cbegin(), expectedValuesData.cend(),
98 seriesValuesData.cbegin()));
106 seriesValuesData.cbegin()));
99 }
107 }
100
108
101 namespace {
109 namespace {
102
110
103 std::shared_ptr<ScalarSeries> createSeries(QVector<double> xAxisData, QVector<double> valuesData)
111 std::shared_ptr<ScalarSeries> createSeries(QVector<double> xAxisData, QVector<double> valuesData)
104 {
112 {
105 return std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData), Unit{},
113 return std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData), Unit{},
106 Unit{});
114 Unit{});
107 }
115 }
108
116
109 } // namespace
117 } // namespace
110
118
111 void TestDataSeries::testMerge_data()
119 void TestDataSeries::testMerge_data()
112 {
120 {
113 // ////////////// //
121 // ////////////// //
114 // Test structure //
122 // Test structure //
115 // ////////////// //
123 // ////////////// //
116
124
117 // Data series to merge
125 // Data series to merge
118 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
126 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
119 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries2");
127 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries2");
120
128
121 // Expected values in the first data series after merge
129 // Expected values in the first data series after merge
122 QTest::addColumn<QVector<double> >("expectedXAxisData");
130 QTest::addColumn<QVector<double> >("expectedXAxisData");
123 QTest::addColumn<QVector<double> >("expectedValuesData");
131 QTest::addColumn<QVector<double> >("expectedValuesData");
124
132
125 // ////////// //
133 // ////////// //
126 // Test cases //
134 // Test cases //
127 // ////////// //
135 // ////////// //
128
136
129 QTest::newRow("sortedMerge")
137 QTest::newRow("sortedMerge")
130 << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
138 << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
131 << createSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.})
139 << createSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.})
132 << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
140 << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
133 << QVector<double>{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.};
141 << QVector<double>{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.};
134
142
135 QTest::newRow("unsortedMerge")
143 QTest::newRow("unsortedMerge")
136 << createSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.})
144 << createSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.})
137 << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
145 << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
138 << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
146 << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
139 << QVector<double>{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.};
147 << QVector<double>{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.};
140
148
141 QTest::newRow("unsortedMerge2")
149 QTest::newRow("unsortedMerge2")
142 << createSeries({1., 2., 8., 9., 10}, {100., 200., 300., 400., 500.})
150 << createSeries({1., 2., 8., 9., 10}, {100., 200., 300., 400., 500.})
143 << createSeries({3., 4., 5., 6., 7.}, {600., 700., 800., 900., 1000.})
151 << createSeries({3., 4., 5., 6., 7.}, {600., 700., 800., 900., 1000.})
144 << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
152 << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
145 << QVector<double>{100., 200., 600., 700., 800., 900., 1000., 300., 400., 500.};
153 << QVector<double>{100., 200., 600., 700., 800., 900., 1000., 300., 400., 500.};
146
154
147 QTest::newRow("unsortedMerge3")
155 QTest::newRow("unsortedMerge3")
148 << createSeries({3., 5., 8., 7., 2}, {100., 200., 300., 400., 500.})
156 << createSeries({3., 5., 8., 7., 2}, {100., 200., 300., 400., 500.})
149 << createSeries({6., 4., 9., 10., 1.}, {600., 700., 800., 900., 1000.})
157 << createSeries({6., 4., 9., 10., 1.}, {600., 700., 800., 900., 1000.})
150 << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
158 << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.}
151 << QVector<double>{1000., 500., 100., 700., 200., 600., 400., 300., 800., 900.};
159 << QVector<double>{1000., 500., 100., 700., 200., 600., 400., 300., 800., 900.};
152 }
160 }
153
161
154 void TestDataSeries::testMerge()
162 void TestDataSeries::testMerge()
155 {
163 {
156 // Merges series
164 // Merges series
157 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
165 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
158 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries2);
166 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries2);
159
167
160 dataSeries->merge(dataSeries2.get());
168 dataSeries->merge(dataSeries2.get());
161
169
162 // Validates results : we check that the merge is valid and the data series is sorted on its
170 // Validates results : we check that the merge is valid and the data series is sorted on its
163 // x-axis data
171 // x-axis data
164 QFETCH(QVector<double>, expectedXAxisData);
172 QFETCH(QVector<double>, expectedXAxisData);
165 QFETCH(QVector<double>, expectedValuesData);
173 QFETCH(QVector<double>, expectedValuesData);
166
174
167 auto seriesXAxisData = dataSeries->xAxisData()->data();
175 auto seriesXAxisData = dataSeries->xAxisData()->data();
168 auto seriesValuesData = dataSeries->valuesData()->data();
176 auto seriesValuesData = dataSeries->valuesData()->data();
169
177
170 QVERIFY(
178 QVERIFY(
171 std::equal(expectedXAxisData.cbegin(), expectedXAxisData.cend(), seriesXAxisData.cbegin()));
179 std::equal(expectedXAxisData.cbegin(), expectedXAxisData.cend(), seriesXAxisData.cbegin()));
172 QVERIFY(std::equal(expectedValuesData.cbegin(), expectedValuesData.cend(),
180 QVERIFY(std::equal(expectedValuesData.cbegin(), expectedValuesData.cend(),
173 seriesValuesData.cbegin()));
181 seriesValuesData.cbegin()));
174 }
182 }
175
183
176 void TestDataSeries::testMinData_data()
184 void TestDataSeries::testMinData_data()
177 {
185 {
178 // ////////////// //
186 // ////////////// //
179 // Test structure //
187 // Test structure //
180 // ////////////// //
188 // ////////////// //
181
189
182 // Data series to get min data
190 // Data series to get min data
183 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
191 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
184
192
185 // Min data
193 // Min data
186 QTest::addColumn<double>("min");
194 QTest::addColumn<double>("min");
187
195
188 // Expected results
196 // Expected results
189 QTest::addColumn<bool>(
197 QTest::addColumn<bool>(
190 "expectedOK"); // if true, expects to have a result (i.e. the iterator != end iterator)
198 "expectedOK"); // if true, expects to have a result (i.e. the iterator != end iterator)
191 QTest::addColumn<double>(
199 QTest::addColumn<double>(
192 "expectedMin"); // Expected value when method doesn't return end iterator
200 "expectedMin"); // Expected value when method doesn't return end iterator
193
201
194 // ////////// //
202 // ////////// //
195 // Test cases //
203 // Test cases //
196 // ////////// //
204 // ////////// //
197
205
198 QTest::newRow("minData1") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
206 QTest::newRow("minData1") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
199 << 0. << true << 1.;
207 << 0. << true << 1.;
200 QTest::newRow("minData2") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
208 QTest::newRow("minData2") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
201 << 1. << true << 1.;
209 << 1. << true << 1.;
202 QTest::newRow("minData3") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
210 QTest::newRow("minData3") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
203 << 1.1 << true << 2.;
211 << 1.1 << true << 2.;
204 QTest::newRow("minData4") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
212 QTest::newRow("minData4") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
205 << 5. << true << 5.;
213 << 5. << true << 5.;
206 QTest::newRow("minData5") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
214 QTest::newRow("minData5") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
207 << 5.1 << false << std::numeric_limits<double>::quiet_NaN();
215 << 5.1 << false << std::numeric_limits<double>::quiet_NaN();
208 QTest::newRow("minData6") << createSeries({}, {}) << 1.1 << false
216 QTest::newRow("minData6") << createSeries({}, {}) << 1.1 << false
209 << std::numeric_limits<double>::quiet_NaN();
217 << std::numeric_limits<double>::quiet_NaN();
210 }
218 }
211
219
212 void TestDataSeries::testMinData()
220 void TestDataSeries::testMinData()
213 {
221 {
214 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
222 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
215 QFETCH(double, min);
223 QFETCH(double, min);
216
224
217 QFETCH(bool, expectedOK);
225 QFETCH(bool, expectedOK);
218 QFETCH(double, expectedMin);
226 QFETCH(double, expectedMin);
219
227
220 auto it = dataSeries->minData(min);
228 auto it = dataSeries->minData(min);
221
229
222 QCOMPARE(expectedOK, it != dataSeries->cend());
230 QCOMPARE(expectedOK, it != dataSeries->cend());
223
231
224 // If the method doesn't return a end iterator, checks with expected value
232 // If the method doesn't return a end iterator, checks with expected value
225 if (expectedOK) {
233 if (expectedOK) {
226 QCOMPARE(expectedMin, it->x());
234 QCOMPARE(expectedMin, it->x());
227 }
235 }
228 }
236 }
237
238 void TestDataSeries::testMaxData_data()
239 {
240 // ////////////// //
241 // Test structure //
242 // ////////////// //
243
244 // Data series to get max data
245 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
246
247 // Max data
248 QTest::addColumn<double>("max");
249
250 // Expected results
251 QTest::addColumn<bool>(
252 "expectedOK"); // if true, expects to have a result (i.e. the iterator != end iterator)
253 QTest::addColumn<double>(
254 "expectedMax"); // Expected value when method doesn't return end iterator
255
256 // ////////// //
257 // Test cases //
258 // ////////// //
259
260 QTest::newRow("maxData1") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
261 << 6. << true << 5.;
262 QTest::newRow("maxData2") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
263 << 5. << true << 5.;
264 QTest::newRow("maxData3") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
265 << 4.9 << true << 4.;
266 QTest::newRow("maxData4") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
267 << 1.1 << true << 1.;
268 QTest::newRow("maxData5") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
269 << 1. << true << 1.;
270 QTest::newRow("maxData6") << createSeries({}, {}) << 1.1 << false
271 << std::numeric_limits<double>::quiet_NaN();
272 }
273
274 void TestDataSeries::testMaxData()
275 {
276 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
277 QFETCH(double, max);
278
279 QFETCH(bool, expectedOK);
280 QFETCH(double, expectedMax);
281
282 auto it = dataSeries->maxData(max);
283
284 QCOMPARE(expectedOK, it != dataSeries->cend());
285
286 // If the method doesn't return a end iterator, checks with expected value
287 if (expectedOK) {
288 QCOMPARE(expectedMax, it->x());
289 }
290 }
291
229 void TestDataSeries::testSubdata_data()
292 void TestDataSeries::testSubdata_data()
230 {
293 {
231 // ////////////// //
294 // ////////////// //
232 // Test structure //
295 // Test structure //
233 // ////////////// //
296 // ////////////// //
234
297
235 // Data series to get subdata
298 // Data series to get subdata
236 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
299 QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries");
237
300
238 // Min/max values
301 // Min/max values
239 QTest::addColumn<double>("min");
302 QTest::addColumn<double>("min");
240 QTest::addColumn<double>("max");
303 QTest::addColumn<double>("max");
241
304
242 // Expected values after subdata
305 // Expected values after subdata
243 QTest::addColumn<QVector<double> >("expectedXAxisData");
306 QTest::addColumn<QVector<double> >("expectedXAxisData");
244 QTest::addColumn<QVector<double> >("expectedValuesData");
307 QTest::addColumn<QVector<double> >("expectedValuesData");
245
308
246 // ////////// //
309 // ////////// //
247 // Test cases //
310 // Test cases //
248 // ////////// //
311 // ////////// //
249
312
250 QTest::newRow("subData1") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
313 QTest::newRow("subData1") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
251 << -1. << 3.2 << QVector<double>{1., 2., 3.}
314 << -1. << 3.2 << QVector<double>{1., 2., 3.}
252 << QVector<double>{100., 200., 300.};
315 << QVector<double>{100., 200., 300.};
253 QTest::newRow("subData2") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
316 QTest::newRow("subData2") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
254 << 1. << 4. << QVector<double>{1., 2., 3., 4.}
317 << 1. << 4. << QVector<double>{1., 2., 3., 4.}
255 << QVector<double>{100., 200., 300., 400.};
318 << QVector<double>{100., 200., 300., 400.};
256 QTest::newRow("subData3") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
319 QTest::newRow("subData3") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
257 << 1. << 3.9 << QVector<double>{1., 2., 3.}
320 << 1. << 3.9 << QVector<double>{1., 2., 3.}
258 << QVector<double>{100., 200., 300.};
321 << QVector<double>{100., 200., 300.};
259 QTest::newRow("subData4") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
322 QTest::newRow("subData4") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
260 << 0. << 0.9 << QVector<double>{} << QVector<double>{};
323 << 0. << 0.9 << QVector<double>{} << QVector<double>{};
261 QTest::newRow("subData5") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
324 QTest::newRow("subData5") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
262 << 0. << 1. << QVector<double>{1.} << QVector<double>{100.};
325 << 0. << 1. << QVector<double>{1.} << QVector<double>{100.};
263 QTest::newRow("subData6") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
326 QTest::newRow("subData6") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
264 << 2.1 << 6. << QVector<double>{3., 4., 5.}
327 << 2.1 << 6. << QVector<double>{3., 4., 5.}
265 << QVector<double>{300., 400., 500.};
328 << QVector<double>{300., 400., 500.};
266 QTest::newRow("subData7") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
329 QTest::newRow("subData7") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
267 << 6. << 9. << QVector<double>{} << QVector<double>{};
330 << 6. << 9. << QVector<double>{} << QVector<double>{};
268 QTest::newRow("subData8") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
331 QTest::newRow("subData8") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.})
269 << 5. << 9. << QVector<double>{5.} << QVector<double>{500.};
332 << 5. << 9. << QVector<double>{5.} << QVector<double>{500.};
270 }
333 }
271
334
272 void TestDataSeries::testSubdata()
335 void TestDataSeries::testSubdata()
273 {
336 {
274 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
337 QFETCH(std::shared_ptr<ScalarSeries>, dataSeries);
275 QFETCH(double, min);
338 QFETCH(double, min);
276 QFETCH(double, max);
339 QFETCH(double, max);
277
340
278 QFETCH(QVector<double>, expectedXAxisData);
341 QFETCH(QVector<double>, expectedXAxisData);
279 QFETCH(QVector<double>, expectedValuesData);
342 QFETCH(QVector<double>, expectedValuesData);
280
343
281 auto bounds = dataSeries->subData(min, max);
344 auto bounds = dataSeries->subData(min, max);
282 QVERIFY(std::equal(bounds.first, bounds.second, expectedXAxisData.cbegin(),
345 QVERIFY(std::equal(bounds.first, bounds.second, expectedXAxisData.cbegin(),
283 expectedXAxisData.cend(),
346 expectedXAxisData.cend(),
284 [](const auto &it, const auto &expectedX) { return it.x() == expectedX; }));
347 [](const auto &it, const auto &expectedX) { return it.x() == expectedX; }));
285 QVERIFY(std::equal(
348 QVERIFY(std::equal(
286 bounds.first, bounds.second, expectedValuesData.cbegin(), expectedValuesData.cend(),
349 bounds.first, bounds.second, expectedValuesData.cbegin(), expectedValuesData.cend(),
287 [](const auto &it, const auto &expectedVal) { return it.value() == expectedVal; }));
350 [](const auto &it, const auto &expectedVal) { return it.value() == expectedVal; }));
288 }
351 }
289
352
290 QTEST_MAIN(TestDataSeries)
353 QTEST_MAIN(TestDataSeries)
291 #include "TestDataSeries.moc"
354 #include "TestDataSeries.moc"
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