@@ -59,6 +59,58 struct SortUtils { | |||
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59 | 59 | |
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60 | 60 | return sortedData; |
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61 | 61 | } |
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62 | ||
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63 | /** | |
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64 | * Compares two values that can be NaN. This method is intended to be used as a compare function | |
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65 | * for searching min value by excluding NaN values. | |
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66 | * | |
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67 | * Examples of use: | |
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68 | * - f({1, 3, 2, 4, 5}) will return 1 | |
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69 | * - f({NaN, 3, 2, 4, 5}) will return 2 (NaN is excluded) | |
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70 | * - f({NaN, NaN, 3, NaN, NaN}) will return 3 (NaN are excluded) | |
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71 | * - f({NaN, NaN, NaN, NaN, NaN}) will return NaN (no existing value) | |
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72 | * | |
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73 | * @param v1 first value | |
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74 | * @param v2 second value | |
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75 | * @return true if v1 < v2, false otherwise | |
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76 | * @sa std::min_element | |
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77 | */ | |
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78 | template <typename T> | |
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79 | static bool minCompareWithNaN(const T &v1, const T &v2) | |
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80 | { | |
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81 | // Table used with NaN values: | |
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82 | // NaN < v2 -> false | |
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83 | // v1 < NaN -> true | |
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84 | // NaN < NaN -> false | |
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85 | // v1 < v2 -> v1 < v2 | |
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86 | return std::isnan(v1) ? false : std::isnan(v2) || (v1 < v2); | |
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87 | } | |
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88 | ||
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89 | /** | |
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90 | * Compares two values that can be NaN. This method is intended to be used as a compare function | |
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91 | * for searching max value by excluding NaN values. | |
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92 | * | |
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93 | * Examples of use: | |
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94 | * - f({1, 3, 2, 4, 5}) will return 5 | |
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95 | * - f({1, 3, 2, 4, NaN}) will return 4 (NaN is excluded) | |
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96 | * - f({NaN, NaN, 3, NaN, NaN}) will return 3 (NaN are excluded) | |
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97 | * - f({NaN, NaN, NaN, NaN, NaN}) will return NaN (no existing value) | |
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98 | * | |
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99 | * @param v1 first value | |
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100 | * @param v2 second value | |
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101 | * @return true if v1 < v2, false otherwise | |
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102 | * @sa std::max_element | |
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103 | */ | |
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104 | template <typename T> | |
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105 | static bool maxCompareWithNaN(const T &v1, const T &v2) | |
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106 | { | |
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107 | // Table used with NaN values: | |
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108 | // NaN < v2 -> true | |
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109 | // v1 < NaN -> false | |
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110 | // NaN < NaN -> false | |
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111 | // v1 < v2 -> v1 < v2 | |
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112 | return std::isnan(v1) ? true : !std::isnan(v2) && (v1 < v2); | |
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113 | } | |
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62 | 114 | }; |
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63 | 115 | |
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64 | 116 | #endif // SCIQLOP_SORTUTILS_H |
@@ -70,6 +70,26 public: | |||
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70 | 70 | double at(int index) const { return *m_Its.at(index); } |
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71 | 71 | double first() const { return *m_Its.front(); } |
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72 | 72 | |
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73 | /// @return the min value among all components | |
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74 | double min() const | |
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75 | { | |
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76 | auto end = m_Its.cend(); | |
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77 | auto it = std::min_element(m_Its.cbegin(), end, [](const auto &it1, const auto &it2) { | |
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78 | return SortUtils::minCompareWithNaN(*it1, *it2); | |
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79 | }); | |
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80 | return it != end ? **it : std::numeric_limits<double>::quiet_NaN(); | |
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81 | } | |
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82 | ||
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83 | /// @return the max value among all components | |
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84 | double max() const | |
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85 | { | |
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86 | auto end = m_Its.cend(); | |
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87 | auto it = std::max_element(m_Its.cbegin(), end, [](const auto &it1, const auto &it2) { | |
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88 | return SortUtils::maxCompareWithNaN(*it1, *it2); | |
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89 | }); | |
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90 | return it != end ? **it : std::numeric_limits<double>::quiet_NaN(); | |
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91 | } | |
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92 | ||
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73 | 93 | void next() |
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74 | 94 | { |
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75 | 95 | for (auto &it : m_Its) { |
@@ -65,6 +65,8 public: | |||
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65 | 65 | double x() const override { return m_XIt->at(0); } |
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66 | 66 | double value() const override { return m_ValuesIt->at(0); } |
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67 | 67 | double value(int componentIndex) const override { return m_ValuesIt->at(componentIndex); } |
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68 | double minValue() const override { return m_ValuesIt->min(); } | |
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69 | double maxValue() const override { return m_ValuesIt->max(); } | |
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68 | 70 | |
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69 | 71 | private: |
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70 | 72 | ArrayData<1>::Iterator m_XIt; |
@@ -191,16 +193,16 public: | |||
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191 | 193 | std::make_unique<dataseries_detail::IteratorValue<Dim> >(*this, false)}}; |
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192 | 194 | } |
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193 | 195 | |
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194 | /// @sa IDataSeries::minData() | |
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195 | DataSeriesIterator minData(double minXAxisData) const override | |
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196 | /// @sa IDataSeries::minXAxisData() | |
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197 | DataSeriesIterator minXAxisData(double minXAxisData) const override | |
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196 | 198 | { |
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197 | 199 | return std::lower_bound( |
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198 | 200 | cbegin(), cend(), minXAxisData, |
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199 | 201 | [](const auto &itValue, const auto &value) { return itValue.x() < value; }); |
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200 | 202 | } |
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201 | 203 | |
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202 | /// @sa IDataSeries::maxData() | |
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203 | DataSeriesIterator maxData(double maxXAxisData) const override | |
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204 | /// @sa IDataSeries::maxXAxisData() | |
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205 | DataSeriesIterator maxXAxisData(double maxXAxisData) const override | |
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204 | 206 | { |
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205 | 207 | // Gets the first element that greater than max value |
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206 | 208 | auto it = std::upper_bound( |
@@ -210,27 +212,52 public: | |||
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210 | 212 | return it == cbegin() ? cend() : --it; |
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211 | 213 | } |
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212 | 214 | |
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213 |
std::pair<DataSeriesIterator, DataSeriesIterator> |
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215 | std::pair<DataSeriesIterator, DataSeriesIterator> xAxisRange(double minXAxisData, | |
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216 | double maxXAxisData) const override | |
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214 | 217 | { |
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215 | if (min > max) { | |
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216 | std::swap(min, max); | |
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218 | if (minXAxisData > maxXAxisData) { | |
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219 | std::swap(minXAxisData, maxXAxisData); | |
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217 | 220 | } |
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218 | 221 | |
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219 | 222 | auto begin = cbegin(); |
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220 | 223 | auto end = cend(); |
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221 | 224 | |
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222 | auto lowerIt | |
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223 | = std::lower_bound(begin, end, min, [](const auto &itValue, const auto &value) { | |
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224 | return itValue.x() < value; | |
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225 | }); | |
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226 | auto upperIt | |
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227 |
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228 | return value < itValue.x(); | |
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229 | }); | |
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225 | auto lowerIt = std::lower_bound( | |
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226 | begin, end, minXAxisData, | |
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227 | [](const auto &itValue, const auto &value) { return itValue.x() < value; }); | |
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228 | auto upperIt = std::upper_bound( | |
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229 | begin, end, maxXAxisData, | |
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230 | [](const auto &value, const auto &itValue) { return value < itValue.x(); }); | |
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230 | 231 | |
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231 | 232 | return std::make_pair(lowerIt, upperIt); |
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232 | 233 | } |
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233 | 234 | |
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235 | std::pair<DataSeriesIterator, DataSeriesIterator> | |
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236 | valuesBounds(double minXAxisData, double maxXAxisData) const override | |
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237 | { | |
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238 | // Places iterators to the correct x-axis range | |
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239 | auto xAxisRangeIts = xAxisRange(minXAxisData, maxXAxisData); | |
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240 | ||
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241 | // Returns end iterators if the range is empty | |
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242 | if (xAxisRangeIts.first == xAxisRangeIts.second) { | |
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243 | return std::make_pair(cend(), cend()); | |
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244 | } | |
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245 | ||
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246 | // Gets the iterator on the min of all values data | |
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247 | auto minIt = std::min_element( | |
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248 | xAxisRangeIts.first, xAxisRangeIts.second, [](const auto &it1, const auto &it2) { | |
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249 | return SortUtils::minCompareWithNaN(it1.minValue(), it2.minValue()); | |
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250 | }); | |
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251 | ||
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252 | // Gets the iterator on the max of all values data | |
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253 | auto maxIt = std::max_element( | |
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254 | xAxisRangeIts.first, xAxisRangeIts.second, [](const auto &it1, const auto &it2) { | |
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255 | return SortUtils::maxCompareWithNaN(it1.maxValue(), it2.maxValue()); | |
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256 | }); | |
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257 | ||
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258 | return std::make_pair(minIt, maxIt); | |
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259 | } | |
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260 | ||
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234 | 261 | // /////// // |
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235 | 262 | // Mutexes // |
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236 | 263 | // /////// // |
@@ -24,6 +24,8 public: | |||
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24 | 24 | virtual double x() const = 0; |
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25 | 25 | virtual double value() const = 0; |
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26 | 26 | virtual double value(int componentIndex) const = 0; |
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27 | virtual double minValue() const = 0; | |
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28 | virtual double maxValue() const = 0; | |
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27 | 29 | }; |
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28 | 30 | |
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29 | 31 | explicit DataSeriesIteratorValue(std::unique_ptr<Impl> impl); |
@@ -43,6 +45,10 public: | |||
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43 | 45 | double value() const; |
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44 | 46 | /// Gets value data depending on an index |
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45 | 47 | double value(int componentIndex) const; |
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48 | /// Gets min of all values data | |
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49 | double minValue() const; | |
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50 | /// Gets max of all values data | |
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51 | double maxValue() const; | |
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46 | 52 | |
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47 | 53 | private: |
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48 | 54 | std::unique_ptr<Impl> m_Impl; |
@@ -72,14 +72,22 public: | |||
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72 | 72 | |
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73 | 73 | /// @return the iterator to the first entry of the data series whose x-axis data is greater than |
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74 | 74 | /// or equal to the value passed in parameter, or the end iterator if there is no matching value |
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75 | virtual DataSeriesIterator minData(double minXAxisData) const = 0; | |
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75 | virtual DataSeriesIterator minXAxisData(double minXAxisData) const = 0; | |
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76 | 76 | |
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77 | 77 | /// @return the iterator to the last entry of the data series whose x-axis data is less than or |
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78 | 78 | /// equal to the value passed in parameter, or the end iterator if there is no matching value |
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79 | virtual DataSeriesIterator maxData(double maxXAxisData) const = 0; | |
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80 | ||
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81 | virtual std::pair<DataSeriesIterator, DataSeriesIterator> subData(double min, | |
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82 | double max) const = 0; | |
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79 | virtual DataSeriesIterator maxXAxisData(double maxXAxisData) const = 0; | |
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80 | ||
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81 | /// @return the iterators pointing to the range of data whose x-axis values are between min and | |
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82 | /// max passed in parameters | |
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83 | virtual std::pair<DataSeriesIterator, DataSeriesIterator> | |
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84 | xAxisRange(double minXAxisData, double maxXAxisData) const = 0; | |
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85 | ||
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86 | /// @return two iterators pointing to the data that have respectively the min and the max value | |
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87 | /// data of a data series' range. The search is performed for a given x-axis range. | |
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88 | /// @sa xAxisRange() | |
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89 | virtual std::pair<DataSeriesIterator, DataSeriesIterator> | |
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90 | valuesBounds(double minXAxisData, double maxXAxisData) const = 0; | |
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83 | 91 | |
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84 | 92 | // /////// // |
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85 | 93 | // Mutexes // |
@@ -47,6 +47,16 double DataSeriesIteratorValue::value(int componentIndex) const | |||
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47 | 47 | return m_Impl->value(componentIndex); |
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48 | 48 | } |
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49 | 49 | |
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50 | double DataSeriesIteratorValue::minValue() const | |
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51 | { | |
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52 | return m_Impl->minValue(); | |
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53 | } | |
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54 | ||
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55 | double DataSeriesIteratorValue::maxValue() const | |
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56 | { | |
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57 | return m_Impl->maxValue(); | |
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58 | } | |
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59 | ||
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50 | 60 | DataSeriesIterator::DataSeriesIterator(DataSeriesIteratorValue value) |
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51 | 61 | : m_CurrentValue{std::move(value)} |
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52 | 62 | { |
@@ -18,7 +18,7 std::shared_ptr<IDataSeries> ScalarSeries::subDataSeries(const SqpRange &range) | |||
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18 | 18 | auto subValuesData = QVector<double>(); |
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19 | 19 | this->lockRead(); |
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20 | 20 | { |
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21 |
auto bounds = |
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21 | auto bounds = xAxisRange(range.m_TStart, range.m_TEnd); | |
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22 | 22 | for (auto it = bounds.first; it != bounds.second; ++it) { |
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23 | 23 | subXAxisData.append(it->x()); |
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24 | 24 | subValuesData.append(it->value()); |
@@ -24,7 +24,7 std::shared_ptr<IDataSeries> VectorSeries::subDataSeries(const SqpRange &range) | |||
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24 | 24 | |
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25 | 25 | this->lockRead(); |
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26 | 26 | { |
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27 |
auto bounds = |
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27 | auto bounds = xAxisRange(range.m_TStart, range.m_TEnd); | |
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28 | 28 | for (auto it = bounds.first; it != bounds.second; ++it) { |
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29 | 29 | subXAxisData.append(it->x()); |
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30 | 30 | subXValuesData.append(it->value(0)); |
@@ -174,11 +174,11 QVariant VariableModel::data(const QModelIndex &index, int role) const | |||
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174 | 174 | case TSTART_COLUMN: |
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175 | 175 | // Shows the min value of the data series above the range tstart |
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176 | 176 | return dateTimeVariant([min = variable->range().m_TStart]( |
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177 | const auto &dataSeries) { return dataSeries.minData(min); }); | |
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177 | const auto &dataSeries) { return dataSeries.minXAxisData(min); }); | |
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178 | 178 | case TEND_COLUMN: |
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179 | 179 | // Shows the max value of the data series under the range tend |
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180 | 180 | return dateTimeVariant([max = variable->range().m_TEnd]( |
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181 | const auto &dataSeries) { return dataSeries.maxData(max); }); | |
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181 | const auto &dataSeries) { return dataSeries.maxXAxisData(max); }); | |
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182 | 182 | case UNIT_COLUMN: |
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183 | 183 | return variable->metadata().value(QStringLiteral("units")); |
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184 | 184 | case MISSION_COLUMN: |
@@ -1,13 +1,64 | |||
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1 | 1 | #include "Data/DataSeries.h" |
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2 | 2 | #include "Data/ScalarSeries.h" |
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3 | #include "Data/VectorSeries.h" | |
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3 | 4 | |
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4 | 5 | #include <QObject> |
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5 | 6 | #include <QtTest> |
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6 | 7 | |
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7 | 8 | Q_DECLARE_METATYPE(std::shared_ptr<ScalarSeries>) |
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9 | Q_DECLARE_METATYPE(std::shared_ptr<VectorSeries>) | |
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8 | 10 | |
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9 | 11 | class TestDataSeries : public QObject { |
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10 | 12 | Q_OBJECT |
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13 | private: | |
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14 | template <typename T> | |
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15 | void testValuesBoundsStructure() | |
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16 | { | |
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17 | // ////////////// // | |
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18 | // Test structure // | |
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19 | // ////////////// // | |
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20 | ||
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21 | // Data series to get values bounds | |
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22 | QTest::addColumn<std::shared_ptr<T> >("dataSeries"); | |
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23 | ||
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24 | // x-axis range | |
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25 | QTest::addColumn<double>("minXAxis"); | |
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26 | QTest::addColumn<double>("maxXAxis"); | |
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27 | ||
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28 | // Expected results | |
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29 | QTest::addColumn<bool>( | |
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30 | "expectedOK"); // Test is expected to be ok (i.e. method doesn't return end iterators) | |
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31 | QTest::addColumn<double>("expectedMinValue"); | |
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32 | QTest::addColumn<double>("expectedMaxValue"); | |
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33 | } | |
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34 | ||
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35 | template <typename T> | |
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36 | void testValuesBounds() | |
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37 | { | |
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38 | QFETCH(std::shared_ptr<T>, dataSeries); | |
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39 | QFETCH(double, minXAxis); | |
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40 | QFETCH(double, maxXAxis); | |
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41 | ||
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42 | QFETCH(bool, expectedOK); | |
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43 | QFETCH(double, expectedMinValue); | |
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44 | QFETCH(double, expectedMaxValue); | |
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45 | ||
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46 | auto minMaxIts = dataSeries->valuesBounds(minXAxis, maxXAxis); | |
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47 | auto end = dataSeries->cend(); | |
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48 | ||
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49 | // Checks iterators with expected result | |
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50 | QCOMPARE(expectedOK, minMaxIts.first != end && minMaxIts.second != end); | |
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51 | ||
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52 | if (expectedOK) { | |
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53 | auto compare = [](const auto &v1, const auto &v2) { | |
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54 | return (std::isnan(v1) && std::isnan(v2)) || v1 == v2; | |
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55 | }; | |
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56 | ||
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57 | QVERIFY(compare(expectedMinValue, minMaxIts.first->minValue())); | |
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58 | QVERIFY(compare(expectedMaxValue, minMaxIts.second->maxValue())); | |
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59 | } | |
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60 | } | |
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61 | ||
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11 | 62 | private slots: |
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12 | 63 | /// Input test data |
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13 | 64 | /// @sa testCtor() |
@@ -24,25 +75,39 private slots: | |||
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24 | 75 | void testMerge(); |
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25 | 76 | |
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26 | 77 | /// Input test data |
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27 | /// @sa testMinData() | |
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28 | void testMinData_data(); | |
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78 | /// @sa testMinXAxisData() | |
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79 | void testMinXAxisData_data(); | |
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80 | ||
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81 | /// Tests get min x-axis data of a data series | |
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82 | void testMinXAxisData(); | |
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83 | ||
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84 | /// Input test data | |
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85 | /// @sa testMaxXAxisData() | |
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86 | void testMaxXAxisData_data(); | |
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87 | ||
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88 | /// Tests get max x-axis data of a data series | |
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89 | void testMaxXAxisData(); | |
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90 | ||
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91 | /// Input test data | |
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92 | /// @sa testXAxisRange() | |
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93 | void testXAxisRange_data(); | |
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29 | 94 | |
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30 |
/// Tests get |
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31 |
void test |
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95 | /// Tests get x-axis range of a data series | |
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96 | void testXAxisRange(); | |
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32 | 97 | |
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33 | 98 | /// Input test data |
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34 |
/// @sa test |
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35 |
void test |
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99 | /// @sa testValuesBoundsScalar() | |
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100 | void testValuesBoundsScalar_data(); | |
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36 | 101 | |
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37 |
/// Tests get |
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38 |
void test |
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102 | /// Tests get values bounds of a scalar series | |
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103 | void testValuesBoundsScalar(); | |
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39 | 104 | |
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40 | 105 | /// Input test data |
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41 |
/// @sa test |
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42 |
void test |
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106 | /// @sa testValuesBoundsVector() | |
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107 | void testValuesBoundsVector_data(); | |
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43 | 108 | |
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44 |
/// Tests get |
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45 |
void test |
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109 | /// Tests get values bounds of a vector series | |
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110 | void testValuesBoundsVector(); | |
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46 | 111 | }; |
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47 | 112 | |
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48 | 113 | void TestDataSeries::testCtor_data() |
@@ -108,12 +173,23 void TestDataSeries::testCtor() | |||
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108 | 173 | |
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109 | 174 | namespace { |
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110 | 175 | |
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111 |
std::shared_ptr<ScalarSeries> createSeries(QVector<double> xAxisData, |
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176 | std::shared_ptr<ScalarSeries> createScalarSeries(QVector<double> xAxisData, | |
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177 | QVector<double> valuesData) | |
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112 | 178 | { |
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113 | 179 | return std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData), Unit{}, |
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114 | 180 | Unit{}); |
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115 | 181 | } |
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116 | 182 | |
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183 | std::shared_ptr<VectorSeries> createVectorSeries(QVector<double> xAxisData, | |
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184 | QVector<double> xValuesData, | |
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185 | QVector<double> yValuesData, | |
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186 | QVector<double> zValuesData) | |
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187 | { | |
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188 | return std::make_shared<VectorSeries>(std::move(xAxisData), std::move(xValuesData), | |
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189 | std::move(yValuesData), std::move(zValuesData), Unit{}, | |
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190 | Unit{}); | |
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191 | } | |
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192 | ||
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117 | 193 | } // namespace |
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118 | 194 | |
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119 | 195 | void TestDataSeries::testMerge_data() |
@@ -135,26 +211,26 void TestDataSeries::testMerge_data() | |||
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135 | 211 | // ////////// // |
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136 | 212 | |
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137 | 213 | QTest::newRow("sortedMerge") |
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138 | << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
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139 | << createSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.}) | |
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214 | << createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
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215 | << createScalarSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.}) | |
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140 | 216 | << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.} |
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141 | 217 | << QVector<double>{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.}; |
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142 | 218 | |
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143 | 219 | QTest::newRow("unsortedMerge") |
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144 | << createSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.}) | |
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145 | << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
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220 | << createScalarSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.}) | |
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221 | << createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
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146 | 222 | << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.} |
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147 | 223 | << QVector<double>{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.}; |
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148 | 224 | |
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149 | 225 | QTest::newRow("unsortedMerge2") |
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150 | << createSeries({1., 2., 8., 9., 10}, {100., 200., 300., 400., 500.}) | |
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151 | << createSeries({3., 4., 5., 6., 7.}, {600., 700., 800., 900., 1000.}) | |
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226 | << createScalarSeries({1., 2., 8., 9., 10}, {100., 200., 300., 400., 500.}) | |
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227 | << createScalarSeries({3., 4., 5., 6., 7.}, {600., 700., 800., 900., 1000.}) | |
|
152 | 228 | << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.} |
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153 | 229 | << QVector<double>{100., 200., 600., 700., 800., 900., 1000., 300., 400., 500.}; |
|
154 | 230 | |
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155 | 231 | QTest::newRow("unsortedMerge3") |
|
156 | << createSeries({3., 5., 8., 7., 2}, {100., 200., 300., 400., 500.}) | |
|
157 | << createSeries({6., 4., 9., 10., 1.}, {600., 700., 800., 900., 1000.}) | |
|
232 | << createScalarSeries({3., 5., 8., 7., 2}, {100., 200., 300., 400., 500.}) | |
|
233 | << createScalarSeries({6., 4., 9., 10., 1.}, {600., 700., 800., 900., 1000.}) | |
|
158 | 234 | << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.} |
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159 | 235 | << QVector<double>{1000., 500., 100., 700., 200., 600., 400., 300., 800., 900.}; |
|
160 | 236 | } |
@@ -181,7 +257,7 void TestDataSeries::testMerge() | |||
|
181 | 257 | seriesValuesData.cbegin())); |
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182 | 258 | } |
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183 | 259 | |
|
184 | void TestDataSeries::testMinData_data() | |
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260 | void TestDataSeries::testMinXAxisData_data() | |
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185 | 261 | { |
|
186 | 262 | // ////////////// // |
|
187 | 263 | // Test structure // |
@@ -203,21 +279,26 void TestDataSeries::testMinData_data() | |||
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203 | 279 | // Test cases // |
|
204 | 280 | // ////////// // |
|
205 | 281 | |
|
206 |
QTest::newRow("minData1") << createSeries({1., 2., 3., 4., 5.}, |
|
|
282 | QTest::newRow("minData1") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
283 | {100., 200., 300., 400., 500.}) | |
|
207 | 284 | << 0. << true << 1.; |
|
208 |
QTest::newRow("minData2") << createSeries({1., 2., 3., 4., 5.}, |
|
|
285 | QTest::newRow("minData2") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
286 | {100., 200., 300., 400., 500.}) | |
|
209 | 287 | << 1. << true << 1.; |
|
210 |
QTest::newRow("minData3") << createSeries({1., 2., 3., 4., 5.}, |
|
|
288 | QTest::newRow("minData3") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
289 | {100., 200., 300., 400., 500.}) | |
|
211 | 290 | << 1.1 << true << 2.; |
|
212 |
QTest::newRow("minData4") << createSeries({1., 2., 3., 4., 5.}, |
|
|
291 | QTest::newRow("minData4") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
292 | {100., 200., 300., 400., 500.}) | |
|
213 | 293 | << 5. << true << 5.; |
|
214 |
QTest::newRow("minData5") << createSeries({1., 2., 3., 4., 5.}, |
|
|
294 | QTest::newRow("minData5") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
295 | {100., 200., 300., 400., 500.}) | |
|
215 | 296 | << 5.1 << false << std::numeric_limits<double>::quiet_NaN(); |
|
216 | QTest::newRow("minData6") << createSeries({}, {}) << 1.1 << false | |
|
297 | QTest::newRow("minData6") << createScalarSeries({}, {}) << 1.1 << false | |
|
217 | 298 | << std::numeric_limits<double>::quiet_NaN(); |
|
218 | 299 | } |
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219 | 300 | |
|
220 | void TestDataSeries::testMinData() | |
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301 | void TestDataSeries::testMinXAxisData() | |
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221 | 302 | { |
|
222 | 303 | QFETCH(std::shared_ptr<ScalarSeries>, dataSeries); |
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223 | 304 | QFETCH(double, min); |
@@ -225,7 +306,7 void TestDataSeries::testMinData() | |||
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225 | 306 | QFETCH(bool, expectedOK); |
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226 | 307 | QFETCH(double, expectedMin); |
|
227 | 308 | |
|
228 | auto it = dataSeries->minData(min); | |
|
309 | auto it = dataSeries->minXAxisData(min); | |
|
229 | 310 | |
|
230 | 311 | QCOMPARE(expectedOK, it != dataSeries->cend()); |
|
231 | 312 | |
@@ -235,7 +316,7 void TestDataSeries::testMinData() | |||
|
235 | 316 | } |
|
236 | 317 | } |
|
237 | 318 | |
|
238 | void TestDataSeries::testMaxData_data() | |
|
319 | void TestDataSeries::testMaxXAxisData_data() | |
|
239 | 320 | { |
|
240 | 321 | // ////////////// // |
|
241 | 322 | // Test structure // |
@@ -257,21 +338,26 void TestDataSeries::testMaxData_data() | |||
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257 | 338 | // Test cases // |
|
258 | 339 | // ////////// // |
|
259 | 340 | |
|
260 |
QTest::newRow("maxData1") << createSeries({1., 2., 3., 4., 5.}, |
|
|
341 | QTest::newRow("maxData1") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
342 | {100., 200., 300., 400., 500.}) | |
|
261 | 343 | << 6. << true << 5.; |
|
262 |
QTest::newRow("maxData2") << createSeries({1., 2., 3., 4., 5.}, |
|
|
344 | QTest::newRow("maxData2") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
345 | {100., 200., 300., 400., 500.}) | |
|
263 | 346 | << 5. << true << 5.; |
|
264 |
QTest::newRow("maxData3") << createSeries({1., 2., 3., 4., 5.}, |
|
|
347 | QTest::newRow("maxData3") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
348 | {100., 200., 300., 400., 500.}) | |
|
265 | 349 | << 4.9 << true << 4.; |
|
266 |
QTest::newRow("maxData4") << createSeries({1., 2., 3., 4., 5.}, |
|
|
350 | QTest::newRow("maxData4") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
351 | {100., 200., 300., 400., 500.}) | |
|
267 | 352 | << 1.1 << true << 1.; |
|
268 |
QTest::newRow("maxData5") << createSeries({1., 2., 3., 4., 5.}, |
|
|
353 | QTest::newRow("maxData5") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
354 | {100., 200., 300., 400., 500.}) | |
|
269 | 355 | << 1. << true << 1.; |
|
270 | QTest::newRow("maxData6") << createSeries({}, {}) << 1.1 << false | |
|
356 | QTest::newRow("maxData6") << createScalarSeries({}, {}) << 1.1 << false | |
|
271 | 357 | << std::numeric_limits<double>::quiet_NaN(); |
|
272 | 358 | } |
|
273 | 359 | |
|
274 | void TestDataSeries::testMaxData() | |
|
360 | void TestDataSeries::testMaxXAxisData() | |
|
275 | 361 | { |
|
276 | 362 | QFETCH(std::shared_ptr<ScalarSeries>, dataSeries); |
|
277 | 363 | QFETCH(double, max); |
@@ -279,7 +365,7 void TestDataSeries::testMaxData() | |||
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279 | 365 | QFETCH(bool, expectedOK); |
|
280 | 366 | QFETCH(double, expectedMax); |
|
281 | 367 | |
|
282 | auto it = dataSeries->maxData(max); | |
|
368 | auto it = dataSeries->maxXAxisData(max); | |
|
283 | 369 | |
|
284 | 370 | QCOMPARE(expectedOK, it != dataSeries->cend()); |
|
285 | 371 | |
@@ -289,20 +375,20 void TestDataSeries::testMaxData() | |||
|
289 | 375 | } |
|
290 | 376 | } |
|
291 | 377 | |
|
292 |
void TestDataSeries::test |
|
|
378 | void TestDataSeries::testXAxisRange_data() | |
|
293 | 379 | { |
|
294 | 380 | // ////////////// // |
|
295 | 381 | // Test structure // |
|
296 | 382 | // ////////////// // |
|
297 | 383 | |
|
298 |
// Data series to get |
|
|
384 | // Data series to get x-axis range | |
|
299 | 385 | QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries"); |
|
300 | 386 | |
|
301 | 387 | // Min/max values |
|
302 | 388 | QTest::addColumn<double>("min"); |
|
303 | 389 | QTest::addColumn<double>("max"); |
|
304 | 390 | |
|
305 |
// Expected values |
|
|
391 | // Expected values | |
|
306 | 392 | QTest::addColumn<QVector<double> >("expectedXAxisData"); |
|
307 | 393 | QTest::addColumn<QVector<double> >("expectedValuesData"); |
|
308 | 394 | |
@@ -310,29 +396,37 void TestDataSeries::testSubdata_data() | |||
|
310 | 396 | // Test cases // |
|
311 | 397 | // ////////// // |
|
312 | 398 | |
|
313 |
QTest::newRow(" |
|
|
314 | << -1. << 3.2 << QVector<double>{1., 2., 3.} | |
|
315 |
<< QVector<double>{1 |
|
|
316 | QTest::newRow("subData2") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
|
317 | << 1. << 4. << QVector<double>{1., 2., 3., 4.} | |
|
318 |
|
|
|
319 | QTest::newRow("subData3") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
|
320 |
|
|
|
321 | << QVector<double>{100., 200., 300.}; | |
|
322 | QTest::newRow("subData4") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
|
323 |
<< |
|
|
324 | QTest::newRow("subData5") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
|
325 | << 0. << 1. << QVector<double>{1.} << QVector<double>{100.}; | |
|
326 | QTest::newRow("subData6") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
|
327 |
<< |
|
|
328 | << QVector<double>{300., 400., 500.}; | |
|
329 | QTest::newRow("subData7") << createSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) | |
|
330 |
<< |
|
|
331 |
QTest::newRow(" |
|
|
332 | << 5. << 9. << QVector<double>{5.} << QVector<double>{500.}; | |
|
399 | QTest::newRow("xAxisRange1") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
400 | {100., 200., 300., 400., 500.}) | |
|
401 | << -1. << 3.2 << QVector<double>{1., 2., 3.} | |
|
402 | << QVector<double>{100., 200., 300.}; | |
|
403 | QTest::newRow("xAxisRange2") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
404 | {100., 200., 300., 400., 500.}) | |
|
405 | << 1. << 4. << QVector<double>{1., 2., 3., 4.} | |
|
406 | << QVector<double>{100., 200., 300., 400.}; | |
|
407 | QTest::newRow("xAxisRange3") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
408 | {100., 200., 300., 400., 500.}) | |
|
409 | << 1. << 3.9 << QVector<double>{1., 2., 3.} | |
|
410 | << QVector<double>{100., 200., 300.}; | |
|
411 | QTest::newRow("xAxisRange4") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
412 | {100., 200., 300., 400., 500.}) | |
|
413 | << 0. << 0.9 << QVector<double>{} << QVector<double>{}; | |
|
414 | QTest::newRow("xAxisRange5") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
415 | {100., 200., 300., 400., 500.}) | |
|
416 | << 0. << 1. << QVector<double>{1.} << QVector<double>{100.}; | |
|
417 | QTest::newRow("xAxisRange6") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
418 | {100., 200., 300., 400., 500.}) | |
|
419 | << 2.1 << 6. << QVector<double>{3., 4., 5.} | |
|
420 | << QVector<double>{300., 400., 500.}; | |
|
421 | QTest::newRow("xAxisRange7") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
422 | {100., 200., 300., 400., 500.}) | |
|
423 | << 6. << 9. << QVector<double>{} << QVector<double>{}; | |
|
424 | QTest::newRow("xAxisRange8") << createScalarSeries({1., 2., 3., 4., 5.}, | |
|
425 | {100., 200., 300., 400., 500.}) | |
|
426 | << 5. << 9. << QVector<double>{5.} << QVector<double>{500.}; | |
|
333 | 427 | } |
|
334 | 428 | |
|
335 |
void TestDataSeries::test |
|
|
429 | void TestDataSeries::testXAxisRange() | |
|
336 | 430 | { |
|
337 | 431 | QFETCH(std::shared_ptr<ScalarSeries>, dataSeries); |
|
338 | 432 | QFETCH(double, min); |
@@ -341,7 +435,7 void TestDataSeries::testSubdata() | |||
|
341 | 435 | QFETCH(QVector<double>, expectedXAxisData); |
|
342 | 436 | QFETCH(QVector<double>, expectedValuesData); |
|
343 | 437 | |
|
344 |
auto bounds = dataSeries-> |
|
|
438 | auto bounds = dataSeries->xAxisRange(min, max); | |
|
345 | 439 | QVERIFY(std::equal(bounds.first, bounds.second, expectedXAxisData.cbegin(), |
|
346 | 440 | expectedXAxisData.cend(), |
|
347 | 441 | [](const auto &it, const auto &expectedX) { return it.x() == expectedX; })); |
@@ -350,5 +444,77 void TestDataSeries::testSubdata() | |||
|
350 | 444 | [](const auto &it, const auto &expectedVal) { return it.value() == expectedVal; })); |
|
351 | 445 | } |
|
352 | 446 | |
|
447 | void TestDataSeries::testValuesBoundsScalar_data() | |
|
448 | { | |
|
449 | testValuesBoundsStructure<ScalarSeries>(); | |
|
450 | ||
|
451 | // ////////// // | |
|
452 | // Test cases // | |
|
453 | // ////////// // | |
|
454 | auto nan = std::numeric_limits<double>::quiet_NaN(); | |
|
455 | ||
|
456 | QTest::newRow("scalarBounds1") | |
|
457 | << createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) << 0. << 6. | |
|
458 | << true << 100. << 500.; | |
|
459 | QTest::newRow("scalarBounds2") | |
|
460 | << createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) << 2. << 4. | |
|
461 | << true << 200. << 400.; | |
|
462 | QTest::newRow("scalarBounds3") | |
|
463 | << createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) << 0. << 0.5 | |
|
464 | << false << nan << nan; | |
|
465 | QTest::newRow("scalarBounds4") | |
|
466 | << createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) << 5.1 << 6. | |
|
467 | << false << nan << nan; | |
|
468 | QTest::newRow("scalarBounds5") | |
|
469 | << createScalarSeries({1.}, {100.}) << 0. << 2. << true << 100. << 100.; | |
|
470 | QTest::newRow("scalarBounds6") << createScalarSeries({}, {}) << 0. << 2. << false << nan << nan; | |
|
471 | ||
|
472 | // Tests with NaN values: NaN values are not included in min/max search | |
|
473 | QTest::newRow("scalarBounds7") | |
|
474 | << createScalarSeries({1., 2., 3., 4., 5.}, {nan, 200., 300., 400., nan}) << 0. << 6. | |
|
475 | << true << 200. << 400.; | |
|
476 | QTest::newRow("scalarBounds8") | |
|
477 | << createScalarSeries({1., 2., 3., 4., 5.}, {nan, nan, nan, nan, nan}) << 0. << 6. << true | |
|
478 | << std::numeric_limits<double>::quiet_NaN() << std::numeric_limits<double>::quiet_NaN(); | |
|
479 | } | |
|
480 | ||
|
481 | void TestDataSeries::testValuesBoundsScalar() | |
|
482 | { | |
|
483 | testValuesBounds<ScalarSeries>(); | |
|
484 | } | |
|
485 | ||
|
486 | void TestDataSeries::testValuesBoundsVector_data() | |
|
487 | { | |
|
488 | testValuesBoundsStructure<VectorSeries>(); | |
|
489 | ||
|
490 | // ////////// // | |
|
491 | // Test cases // | |
|
492 | // ////////// // | |
|
493 | auto nan = std::numeric_limits<double>::quiet_NaN(); | |
|
494 | ||
|
495 | QTest::newRow("vectorBounds1") | |
|
496 | << createVectorSeries({1., 2., 3., 4., 5.}, {10., 15., 20., 13., 12.}, | |
|
497 | {35., 24., 10., 9., 0.3}, {13., 14., 12., 9., 24.}) | |
|
498 | << 0. << 6. << true << 0.3 << 35.; // min/max in same component | |
|
499 | QTest::newRow("vectorBounds2") | |
|
500 | << createVectorSeries({1., 2., 3., 4., 5.}, {2.3, 15., 20., 13., 12.}, | |
|
501 | {35., 24., 10., 9., 4.}, {13., 14., 12., 9., 24.}) | |
|
502 | << 0. << 6. << true << 2.3 << 35.; // min/max in same entry | |
|
503 | QTest::newRow("vectorBounds3") | |
|
504 | << createVectorSeries({1., 2., 3., 4., 5.}, {2.3, 15., 20., 13., 12.}, | |
|
505 | {35., 24., 10., 9., 4.}, {13., 14., 12., 9., 24.}) | |
|
506 | << 2. << 3. << true << 10. << 24.; | |
|
507 | ||
|
508 | // Tests with NaN values: NaN values are not included in min/max search | |
|
509 | QTest::newRow("vectorBounds4") | |
|
510 | << createVectorSeries({1., 2.}, {nan, nan}, {nan, nan}, {nan, nan}) << 0. << 6. << true | |
|
511 | << nan << nan; | |
|
512 | } | |
|
513 | ||
|
514 | void TestDataSeries::testValuesBoundsVector() | |
|
515 | { | |
|
516 | testValuesBounds<VectorSeries>(); | |
|
517 | } | |
|
518 | ||
|
353 | 519 | QTEST_MAIN(TestDataSeries) |
|
354 | 520 | #include "TestDataSeries.moc" |
@@ -149,7 +149,7 struct PlottablesUpdater<T, | |||
|
149 | 149 | // - Gets the data of the series included in the current range |
|
150 | 150 | // - Updates each plottable by adding, for each data item, a point that takes x-axis data |
|
151 | 151 | // and value data. The correct value is retrieved according to the index of the component |
|
152 |
auto subDataIts = dataSeries. |
|
|
152 | auto subDataIts = dataSeries.xAxisRange(range.m_TStart, range.m_TEnd); | |
|
153 | 153 | for (auto it = subDataIts.first; it != subDataIts.second; ++it) { |
|
154 | 154 | for (const auto &dataContainer : dataContainers) { |
|
155 | 155 | auto componentIndex = dataContainer.first; |
@@ -188,8 +188,20 VisualizationGraphWidget *VisualizationZoneWidget::createGraph(std::shared_ptr<V | |||
|
188 | 188 | this->addGraph(graphWidget); |
|
189 | 189 | |
|
190 | 190 | graphWidget->addVariable(variable, range); |
|
191 | // TODO: get y using variable range | |
|
192 | graphWidget->setYRange(SqpRange{-10, 10}); | |
|
191 | ||
|
192 | // get y using variable range | |
|
193 | if (auto dataSeries = variable->dataSeries()) { | |
|
194 | auto valuesBounds = dataSeries->valuesBounds(range.m_TStart, range.m_TEnd); | |
|
195 | auto end = dataSeries->cend(); | |
|
196 | if (valuesBounds.first != end && valuesBounds.second != end) { | |
|
197 | auto rangeValue = [](const auto &value) { return std::isnan(value) ? 0. : value; }; | |
|
198 | ||
|
199 | auto minValue = rangeValue(valuesBounds.first->minValue()); | |
|
200 | auto maxValue = rangeValue(valuesBounds.second->maxValue()); | |
|
201 | ||
|
202 | graphWidget->setYRange(SqpRange{minValue, maxValue}); | |
|
203 | } | |
|
204 | } | |
|
193 | 205 | |
|
194 | 206 | return graphWidget; |
|
195 | 207 | } |
@@ -45,7 +45,7 bool compareDataSeries(std::shared_ptr<IDataSeries> candidate, SqpRange candidat | |||
|
45 | 45 | if (candidateDS && referenceDS) { |
|
46 | 46 | |
|
47 | 47 | auto itRefs |
|
48 |
= referenceDS-> |
|
|
48 | = referenceDS->xAxisRange(candidateCacheRange.m_TStart, candidateCacheRange.m_TEnd); | |
|
49 | 49 | qDebug() << " DISTANCE" << std::distance(candidateDS->cbegin(), candidateDS->cend()) |
|
50 | 50 | << std::distance(itRefs.first, itRefs.second); |
|
51 | 51 |
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