@@ -77,7 +77,7 struct SortUtils { | |||
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77 | 77 | for (auto i = 0, componentIndex = 0, permutationIndex = 0; i < containerSize; |
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78 | 78 | ++i, componentIndex = i % nbValues, permutationIndex = i / nbValues) { |
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79 | 79 | auto insertIndex = sortPermutation.at(permutationIndex) * nbValues + componentIndex; |
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80 |
sortedData. |
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80 | sortedData.push_back(container.at(insertIndex)); | |
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81 | 81 | } |
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82 | 82 | |
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83 | 83 | return sortedData; |
@@ -13,7 +13,7 | |||
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13 | 13 | template <int Dim> |
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14 | 14 | class ArrayData; |
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15 | 15 | |
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16 |
using DataContainer = |
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16 | using DataContainer = std::vector<double>; | |
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17 | 17 | |
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18 | 18 | namespace arraydata_detail { |
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19 | 19 | |
@@ -121,13 +121,11 public: | |||
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121 | 121 | std::unique_ptr<ArrayDataIteratorValue::Impl> advance(int offset) const override |
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122 | 122 | { |
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123 | 123 | auto result = clone(); |
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124 |
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125 | result->next(); | |
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126 | } | |
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124 | result->next(offset); | |
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127 | 125 | return result; |
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128 | 126 | } |
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129 | 127 | |
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130 | void next() override { std::advance(m_It, m_NbComponents); } | |
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128 | void next(int offset) override { std::advance(m_It, offset * m_NbComponents); } | |
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131 | 129 | void prev() override { std::advance(m_It, -m_NbComponents); } |
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132 | 130 | |
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133 | 131 | double at(int componentIndex) const override { return *(m_It + componentIndex); } |
@@ -256,16 +254,7 public: | |||
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256 | 254 | return; |
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257 | 255 | } |
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258 | 256 | |
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259 | if (prepend) { | |
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260 | auto otherDataSize = other.m_Data.size(); | |
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261 | m_Data.insert(m_Data.begin(), otherDataSize, 0.); | |
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262 | for (auto i = 0; i < otherDataSize; ++i) { | |
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263 | m_Data.replace(i, other.m_Data.at(i)); | |
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264 | } | |
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265 | } | |
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266 | else { | |
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267 | m_Data.append(other.m_Data); | |
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268 | } | |
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257 | insert(other.cbegin(), other.cend(), prepend); | |
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269 | 258 | } |
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270 | 259 | |
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271 | 260 | void clear() |
@@ -332,16 +321,16 public: | |||
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332 | 321 | } |
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333 | 322 | } |
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334 | 323 | |
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335 | /// Inserts at the end of the array data the values passed as a parameter. This | |
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336 | /// method is intended to be used in the context of generating a back insert iterator, or only | |
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337 | /// if it's ensured that the total size of the vector is consistent with the number of | |
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338 | /// components of the array data | |
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339 | /// @param values the values to insert | |
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340 | /// @sa http://en.cppreference.com/w/cpp/iterator/back_inserter | |
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341 | void push_back(const QVector<double> &values) | |
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324 | void insert(ArrayDataIterator first, ArrayDataIterator last, bool prepend = false) | |
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342 | 325 | { |
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343 | Q_ASSERT(values.size() % m_NbComponents == 0); | |
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344 | m_Data.append(values); | |
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326 | auto firstImpl = dynamic_cast<arraydata_detail::IteratorValue<Dim, true> *>(first->impl()); | |
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327 | auto lastImpl = dynamic_cast<arraydata_detail::IteratorValue<Dim, true> *>(last->impl()); | |
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328 | ||
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329 | if (firstImpl && lastImpl) { | |
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330 | auto insertIt = prepend ? m_Data.begin() : m_Data.end(); | |
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331 | ||
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332 | m_Data.insert(insertIt, firstImpl->m_It, lastImpl->m_It); | |
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333 | } | |
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345 | 334 | } |
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346 | 335 | |
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347 | 336 | /** |
@@ -363,9 +352,8 public: | |||
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363 | 352 | * @remarks this method is only available for a unidimensional ArrayData |
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364 | 353 | */ |
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365 | 354 | template <int D = Dim, typename = std::enable_if_t<D == 1> > |
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366 |
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355 | DataContainer cdata() const noexcept | |
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367 | 356 | { |
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368 | QReadLocker locker{&m_Lock}; | |
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369 | 357 | return m_Data; |
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370 | 358 | } |
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371 | 359 |
@@ -23,7 +23,7 public: | |||
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23 | 23 | virtual bool equals(const Impl &other) const = 0; |
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24 | 24 | virtual bool lowerThan(const Impl &other) const = 0; |
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25 | 25 | virtual std::unique_ptr<Impl> advance(int offset) const = 0; |
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26 | virtual void next() = 0; | |
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26 | virtual void next(int offset) = 0; | |
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27 | 27 | virtual void prev() = 0; |
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28 | 28 | virtual double at(int componentIndex) const = 0; |
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29 | 29 | virtual double first() const = 0; |
@@ -44,7 +44,7 public: | |||
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44 | 44 | |
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45 | 45 | ArrayDataIteratorValue advance(int offset) const; |
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46 | 46 | /// Advances to the next value |
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47 | void next(); | |
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47 | void next(int offset = 1); | |
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48 | 48 | /// Moves back to the previous value |
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49 | 49 | void prev(); |
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50 | 50 | /// Gets value of a specified component |
@@ -81,16 +81,14 public: | |||
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81 | 81 | std::unique_ptr<DataSeriesIteratorValue::Impl> advance(int offset) const override |
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82 | 82 | { |
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83 | 83 | auto result = clone(); |
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84 |
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85 | result->next(); | |
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86 | } | |
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84 | result->next(offset); | |
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87 | 85 | return result; |
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88 | 86 | } |
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89 | 87 | |
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90 | void next() override | |
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88 | void next(int offset) override | |
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91 | 89 | { |
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92 |
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93 |
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90 | m_XIt->next(offset); | |
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91 | m_ValuesIt->next(offset); | |
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94 | 92 | } |
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95 | 93 | |
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96 | 94 | void prev() override |
@@ -134,10 +132,6 class SCIQLOP_CORE_EXPORT DataSeries : public IDataSeries { | |||
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134 | 132 | friend class DataSeriesMergeHelper; |
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135 | 133 | |
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136 | 134 | public: |
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137 | /// Tag needed to define the push_back() method | |
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138 | /// @sa push_back() | |
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139 | using value_type = DataSeriesIteratorValue; | |
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140 | ||
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141 | 135 | /// @sa IDataSeries::xAxisData() |
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142 | 136 | std::shared_ptr<ArrayData<1> > xAxisData() override { return m_XAxisData; } |
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143 | 137 | const std::shared_ptr<ArrayData<1> > xAxisData() const { return m_XAxisData; } |
@@ -155,8 +149,8 public: | |||
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155 | 149 | |
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156 | 150 | SqpRange range() const override |
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157 | 151 | { |
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158 |
if (!m_XAxisData->cdata(). |
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159 |
return SqpRange{m_XAxisData->cdata().f |
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152 | if (!m_XAxisData->cdata().empty()) { | |
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153 | return SqpRange{m_XAxisData->cdata().front(), m_XAxisData->cdata().back()}; | |
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160 | 154 | } |
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161 | 155 | |
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162 | 156 | return SqpRange{}; |
@@ -254,6 +248,17 public: | |||
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254 | 248 | } |
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255 | 249 | } |
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256 | 250 | |
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251 | void insert(DataSeriesIterator first, DataSeriesIterator last, bool prepend = false) | |
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252 | { | |
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253 | auto firstImpl = dynamic_cast<dataseries_detail::IteratorValue<Dim, true> *>(first->impl()); | |
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254 | auto lastImpl = dynamic_cast<dataseries_detail::IteratorValue<Dim, true> *>(last->impl()); | |
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255 | ||
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256 | if (firstImpl && lastImpl) { | |
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257 | m_XAxisData->insert(firstImpl->m_XIt, lastImpl->m_XIt, prepend); | |
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258 | m_ValuesData->insert(firstImpl->m_ValuesIt, lastImpl->m_ValuesIt, prepend); | |
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259 | } | |
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260 | } | |
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261 | ||
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257 | 262 | /// @sa IDataSeries::minXAxisData() |
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258 | 263 | DataSeriesIterator minXAxisData(double minXAxisData) const override |
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259 | 264 | { |
@@ -287,7 +292,7 public: | |||
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287 | 292 | begin, end, minXAxisData, |
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288 | 293 | [](const auto &itValue, const auto &value) { return itValue.x() < value; }); |
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289 | 294 | auto upperIt = std::upper_bound( |
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290 |
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295 | lowerIt, end, maxXAxisData, | |
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291 | 296 | [](const auto &value, const auto &itValue) { return value < itValue.x(); }); |
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292 | 297 | |
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293 | 298 | return std::make_pair(lowerIt, upperIt); |
@@ -327,22 +332,6 public: | |||
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327 | 332 | virtual void lockWrite() { m_Lock.lockForWrite(); } |
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328 | 333 | virtual void unlock() { m_Lock.unlock(); } |
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329 | 334 | |
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330 | // ///// // | |
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331 | // Other // | |
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332 | // ///// // | |
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333 | ||
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334 | /// Inserts at the end of the data series the value of the iterator passed as a parameter. This | |
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335 | /// method is intended to be used in the context of generating a back insert iterator | |
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336 | /// @param iteratorValue the iterator value containing the values to insert | |
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337 | /// @sa http://en.cppreference.com/w/cpp/iterator/back_inserter | |
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338 | /// @sa merge() | |
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339 | /// @sa value_type | |
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340 | void push_back(const value_type &iteratorValue) | |
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341 | { | |
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342 | m_XAxisData->push_back(QVector<double>{iteratorValue.x()}); | |
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343 | m_ValuesData->push_back(iteratorValue.values()); | |
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344 | } | |
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345 | ||
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346 | 335 | protected: |
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347 | 336 | /// Protected ctor (DataSeries is abstract). The vectors must have the same size, otherwise a |
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348 | 337 | /// DataSeries with no values will be created. |
@@ -24,7 +24,7 public: | |||
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24 | 24 | virtual bool equals(const Impl &other) const = 0; |
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25 | 25 | virtual bool lowerThan(const Impl &other) const = 0; |
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26 | 26 | virtual std::unique_ptr<Impl> advance(int offset) const = 0; |
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27 | virtual void next() = 0; | |
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27 | virtual void next(int offset) = 0; | |
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28 | 28 | virtual void prev() = 0; |
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29 | 29 | virtual double x() const = 0; |
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30 | 30 | virtual double value() const = 0; |
@@ -46,7 +46,7 public: | |||
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46 | 46 | |
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47 | 47 | DataSeriesIteratorValue advance(int offset) const; |
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48 | 48 | /// Advances to the next value |
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49 | void next(); | |
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49 | void next(int offset = 1); | |
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50 | 50 | /// Moves back to the previous value |
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51 | 51 | void prev(); |
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52 | 52 | /// Gets x-axis data |
@@ -27,45 +27,6 MergeScope<FEnd> scope(FEnd end) | |||
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27 | 27 | return MergeScope<FEnd>{end}; |
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28 | 28 | } |
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29 | 29 | |
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30 | /** | |
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31 | * Enum used to position a data series relative to another during a merge operation | |
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32 | */ | |
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33 | enum class MergePosition { LOWER_THAN, GREATER_THAN, EQUAL, OVERLAP }; | |
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34 | ||
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35 | /** | |
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36 | * Computes the position of the first data series relative to the second data series | |
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37 | * @param lhs the first data series | |
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38 | * @param rhs the second data series | |
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39 | * @return the merge position computed | |
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40 | * @remarks the data series must not be empty | |
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41 | */ | |
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42 | template <int Dim> | |
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43 | MergePosition mergePosition(DataSeries<Dim> &lhs, DataSeries<Dim> &rhs) | |
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44 | { | |
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45 | Q_ASSERT(!lhs.isEmpty() && !rhs.isEmpty()); | |
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46 | ||
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47 | // Case lhs < rhs | |
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48 | auto lhsLast = --lhs.cend(); | |
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49 | auto rhsFirst = rhs.cbegin(); | |
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50 | if (lhsLast->x() < rhsFirst->x()) { | |
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51 | return MergePosition::LOWER_THAN; | |
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52 | } | |
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53 | ||
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54 | // Case lhs > rhs | |
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55 | auto lhsFirst = lhs.cbegin(); | |
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56 | auto rhsLast = --rhs.cend(); | |
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57 | if (lhsFirst->x() > rhsLast->x()) { | |
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58 | return MergePosition::GREATER_THAN; | |
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59 | } | |
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60 | ||
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61 | // Other cases | |
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62 | auto equal = std::equal(lhs.cbegin(), lhs.cend(), rhs.cbegin(), rhs.cend(), | |
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63 | [](const auto &it1, const auto &it2) { | |
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64 | return it1.x() == it2.x() && it1.values() == it2.values(); | |
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65 | }); | |
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66 | return equal ? MergePosition::EQUAL : MergePosition::OVERLAP; | |
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67 | } | |
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68 | ||
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69 | 30 | } // namespace detail |
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70 | 31 | |
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71 | 32 | |
@@ -92,40 +53,30 struct DataSeriesMergeHelper { | |||
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92 | 53 | return; |
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93 | 54 | } |
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94 | 55 | |
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95 | // Gets the position of the source in relation to the destination | |
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96 | auto sourcePosition = detail::mergePosition(source, dest); | |
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56 | auto destMin = dest.cbegin()->x(); | |
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57 | auto destMax = (--dest.cend())->x(); | |
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97 | 58 | |
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98 | switch (sourcePosition) { | |
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99 | case detail::MergePosition::LOWER_THAN: | |
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100 | case detail::MergePosition::GREATER_THAN: { | |
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101 | auto prepend = sourcePosition == detail::MergePosition::LOWER_THAN; | |
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102 | dest.m_XAxisData->add(*source.m_XAxisData, prepend); | |
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103 | dest.m_ValuesData->add(*source.m_ValuesData, prepend); | |
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104 | break; | |
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105 |
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106 | case detail::MergePosition::EQUAL: | |
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107 | // the data series equal each other : no merge made | |
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108 | break; | |
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109 | case detail::MergePosition::OVERLAP: { | |
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110 | // the two data series overlap : merge is made | |
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111 | auto temp = dest.clone(); | |
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112 | if (auto tempSeries = dynamic_cast<DataSeries<Dim> *>(temp.get())) { | |
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113 | // Makes the merge : | |
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114 | // - Data are sorted by x-axis values | |
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115 | // - If two entries are in the source range and the other range, only one entry | |
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116 | // is retained as result | |
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117 | // - The results are stored directly in the data series | |
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118 | dest.clear(); | |
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119 | std::set_union( | |
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120 | tempSeries->cbegin(), tempSeries->cend(), source.cbegin(), source.cend(), | |
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121 | std::back_inserter(dest), | |
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122 | [](const auto &it1, const auto &it2) { return it1.x() < it2.x(); }); | |
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123 | } | |
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124 | break; | |
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125 | } | |
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126 | default: | |
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127 | Q_ASSERT(false); | |
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59 | auto sourceBegin = source.cbegin(); | |
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60 | auto sourceEnd = source.cend(); | |
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61 | auto sourceMin = sourceBegin->x(); | |
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62 | auto sourceMax = (--source.cend())->x(); | |
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63 | ||
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64 | // Case : source bounds are inside dest bounds -> no merge is made | |
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65 | if (sourceMin >= destMin && sourceMax <= destMax) { | |
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66 | return; | |
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128 | 67 | } |
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68 | ||
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69 | // Default case : | |
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70 | // - prepend to dest the values of source that are lower than min value of dest | |
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71 | // - append to dest the values of source that are greater than max value of dest | |
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72 | auto lowerIt | |
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73 | = std::lower_bound(sourceBegin, sourceEnd, destMin, | |
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74 | [](const auto &it, const auto &val) { return it.x() < val; }); | |
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75 | auto upperIt | |
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76 | = std::upper_bound(lowerIt, sourceEnd, destMax, | |
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77 | [](const auto &val, const auto &it) { return val < it.x(); }); | |
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78 | dest.insert(sourceBegin, lowerIt, true); | |
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79 | dest.insert(upperIt, sourceEnd); | |
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129 | 80 | } |
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130 | 81 | }; |
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131 | 82 |
@@ -16,7 +16,7 public: | |||
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16 | 16 | * @param xAxisData x-axis data |
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17 | 17 | * @param valuesData values data |
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18 | 18 | */ |
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19 |
explicit ScalarSeries( |
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19 | explicit ScalarSeries(std::vector<double> xAxisData, std::vector<double> valuesData, | |
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20 | 20 | const Unit &xAxisUnit, const Unit &valuesUnit); |
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21 | 21 | |
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22 | 22 | std::unique_ptr<IDataSeries> clone() const override; |
@@ -52,9 +52,7 public: | |||
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52 | 52 | SqpIterator &operator+=(int offset) |
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53 | 53 | { |
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54 | 54 | if (offset >= 0) { |
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55 |
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56 | m_CurrentValue.next(); | |
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57 | } | |
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55 | m_CurrentValue.next(offset); | |
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58 | 56 | } |
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59 | 57 | else { |
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60 | 58 | while (offset++) { |
@@ -18,12 +18,12 public: | |||
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18 | 18 | * @param yvaluesData y-values data |
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19 | 19 | * @param zvaluesData z-values data |
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20 | 20 | */ |
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21 |
explicit VectorSeries( |
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22 |
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21 | explicit VectorSeries(std::vector<double> xAxisData, std::vector<double> xValuesData, | |
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22 | std::vector<double> yValuesData, std::vector<double> zValuesData, | |
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23 | 23 | const Unit &xAxisUnit, const Unit &valuesUnit); |
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24 | 24 | |
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25 | 25 | /// Default Ctor |
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26 |
explicit VectorSeries( |
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26 | explicit VectorSeries(std::vector<double> xAxisData, std::vector<double> valuesData, | |
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27 | 27 | const Unit &xAxisUnit, const Unit &valuesUnit); |
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28 | 28 | |
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29 | 29 | std::unique_ptr<IDataSeries> clone() const; |
@@ -36,9 +36,9 ArrayDataIteratorValue ArrayDataIteratorValue::advance(int offset) const | |||
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36 | 36 | return ArrayDataIteratorValue{m_Impl->advance(offset)}; |
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37 | 37 | } |
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38 | 38 | |
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39 | void ArrayDataIteratorValue::next() | |
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39 | void ArrayDataIteratorValue::next(int offset) | |
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40 | 40 | { |
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41 | m_Impl->next(); | |
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41 | m_Impl->next(offset); | |
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42 | 42 | } |
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43 | 43 | |
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44 | 44 | void ArrayDataIteratorValue::prev() |
@@ -38,9 +38,9 DataSeriesIteratorValue DataSeriesIteratorValue::advance(int offset) const | |||
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38 | 38 | return DataSeriesIteratorValue{m_Impl->advance(offset)}; |
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39 | 39 | } |
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40 | 40 | |
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41 | void DataSeriesIteratorValue::next() | |
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41 | void DataSeriesIteratorValue::next(int offset) | |
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42 | 42 | { |
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43 | m_Impl->next(); | |
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43 | m_Impl->next(offset); | |
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44 | 44 | } |
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45 | 45 | |
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46 | 46 | void DataSeriesIteratorValue::prev() |
@@ -1,6 +1,6 | |||
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1 | 1 | #include <Data/ScalarSeries.h> |
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2 | 2 | |
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3 |
ScalarSeries::ScalarSeries( |
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3 | ScalarSeries::ScalarSeries(std::vector<double> xAxisData, std::vector<double> valuesData, | |
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4 | 4 | const Unit &xAxisUnit, const Unit &valuesUnit) |
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5 | 5 | : DataSeries{std::make_shared<ArrayData<1> >(std::move(xAxisData)), xAxisUnit, |
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6 | 6 | std::make_shared<ArrayData<1> >(std::move(valuesData)), valuesUnit} |
@@ -14,18 +14,18 std::unique_ptr<IDataSeries> ScalarSeries::clone() const | |||
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14 | 14 | |
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15 | 15 | std::shared_ptr<IDataSeries> ScalarSeries::subDataSeries(const SqpRange &range) |
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16 | 16 | { |
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17 |
auto subXAxisData = |
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18 |
auto subValuesData = |
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17 | auto subXAxisData = std::vector<double>(); | |
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18 | auto subValuesData = std::vector<double>(); | |
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19 | 19 | this->lockRead(); |
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20 | 20 | { |
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21 | 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 |
subXAxisData. |
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24 |
subValuesData. |
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23 | subXAxisData.push_back(it->x()); | |
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24 | subValuesData.push_back(it->value()); | |
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25 | 25 | } |
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26 | 26 | } |
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27 | 27 | this->unlock(); |
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28 | 28 | |
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29 |
return std::make_shared<ScalarSeries>(subXAxisData, subValuesData |
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30 | this->valuesUnit()); | |
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29 | return std::make_shared<ScalarSeries>(std::move(subXAxisData), std::move(subValuesData), | |
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30 | this->xAxisUnit(), this->valuesUnit()); | |
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31 | 31 | } |
@@ -19,18 +19,22 namespace { | |||
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19 | 19 | * @remarks the three components are consumed |
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20 | 20 | * @sa ArrayData |
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21 | 21 | */ |
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22 |
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22 | std::vector<double> flatten(std::vector<double> xValues, std::vector<double> yValues, | |
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23 | std::vector<double> zValues) | |
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23 | 24 | { |
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24 | 25 | if (xValues.size() != yValues.size() || xValues.size() != zValues.size()) { |
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25 | 26 | /// @todo ALX : log |
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26 | 27 | return {}; |
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27 | 28 | } |
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28 | 29 | |
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29 |
auto result = |
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30 | auto result = std::vector<double>(); | |
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30 | 31 | result.reserve(xValues.size() * 3); |
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31 | 32 | |
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32 |
while (!xValues. |
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33 |
result. |
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33 | while (!xValues.empty()) { | |
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34 | result.insert(result.cend(), {xValues.front(), yValues.front(), zValues.front()}); | |
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35 | xValues.erase(xValues.begin()); | |
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36 | yValues.erase(yValues.begin()); | |
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37 | zValues.erase(zValues.begin()); | |
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34 | 38 | } |
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35 | 39 | |
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36 | 40 | return result; |
@@ -38,8 +42,8 QVector<double> flatten(QVector<double> xValues, QVector<double> yValues, QVecto | |||
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38 | 42 | |
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39 | 43 | } // namespace |
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40 | 44 | |
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41 |
VectorSeries::VectorSeries( |
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42 |
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45 | VectorSeries::VectorSeries(std::vector<double> xAxisData, std::vector<double> xValuesData, | |
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46 | std::vector<double> yValuesData, std::vector<double> zValuesData, | |
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43 | 47 | const Unit &xAxisUnit, const Unit &valuesUnit) |
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44 | 48 | : VectorSeries{std::move(xAxisData), flatten(std::move(xValuesData), std::move(yValuesData), |
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45 | 49 | std::move(zValuesData)), |
@@ -47,7 +51,7 VectorSeries::VectorSeries(QVector<double> xAxisData, QVector<double> xValuesDat | |||
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47 | 51 | { |
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48 | 52 | } |
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49 | 53 | |
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50 |
VectorSeries::VectorSeries( |
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54 | VectorSeries::VectorSeries(std::vector<double> xAxisData, std::vector<double> valuesData, | |
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51 | 55 | const Unit &xAxisUnit, const Unit &valuesUnit) |
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52 | 56 | : DataSeries{std::make_shared<ArrayData<1> >(std::move(xAxisData)), xAxisUnit, |
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53 | 57 | std::make_shared<ArrayData<2> >(std::move(valuesData), 3), valuesUnit} |
@@ -61,23 +65,24 std::unique_ptr<IDataSeries> VectorSeries::clone() const | |||
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61 | 65 | |
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62 | 66 | std::shared_ptr<IDataSeries> VectorSeries::subDataSeries(const SqpRange &range) |
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63 | 67 | { |
|
64 |
auto subXAxisData = |
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|
65 |
auto subXValuesData = |
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|
66 |
auto subYValuesData = |
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|
67 |
auto subZValuesData = |
|
|
68 | auto subXAxisData = std::vector<double>(); | |
|
69 | auto subXValuesData = std::vector<double>(); | |
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70 | auto subYValuesData = std::vector<double>(); | |
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71 | auto subZValuesData = std::vector<double>(); | |
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68 | 72 | |
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69 | 73 | this->lockRead(); |
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70 | 74 | { |
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71 | 75 | auto bounds = xAxisRange(range.m_TStart, range.m_TEnd); |
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72 | 76 | for (auto it = bounds.first; it != bounds.second; ++it) { |
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73 |
subXAxisData. |
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|
74 |
subXValuesData. |
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|
75 |
subYValuesData. |
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|
76 |
subZValuesData. |
|
|
77 | subXAxisData.push_back(it->x()); | |
|
78 | subXValuesData.push_back(it->value(0)); | |
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79 | subYValuesData.push_back(it->value(1)); | |
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80 | subZValuesData.push_back(it->value(2)); | |
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77 | 81 | } |
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78 | 82 | } |
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79 | 83 | this->unlock(); |
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80 | 84 | |
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81 |
return std::make_shared<VectorSeries>(subXAxisData, subXValuesData |
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|
82 |
s |
|
|
85 | return std::make_shared<VectorSeries>(std::move(subXAxisData), std::move(subXValuesData), | |
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86 | std::move(subYValuesData), std::move(subZValuesData), | |
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87 | this->xAxisUnit(), this->valuesUnit()); | |
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83 | 88 | } |
@@ -12,8 +12,10 Q_DECLARE_METATYPE(std::shared_ptr<VectorSeries>) | |||
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12 | 12 | |
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13 | 13 | namespace { |
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14 | 14 | |
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15 | void validateRange(DataSeriesIterator first, DataSeriesIterator last, const QVector<double> &xData, | |
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16 | const QVector<double> &valuesData) | |
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15 | using DataContainer = std::vector<double>; | |
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16 | ||
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17 | void validateRange(DataSeriesIterator first, DataSeriesIterator last, const DataContainer &xData, | |
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18 | const DataContainer &valuesData) | |
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17 | 19 | { |
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18 | 20 | QVERIFY(std::equal(first, last, xData.cbegin(), xData.cend(), |
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19 | 21 | [](const auto &it, const auto &expectedX) { return it.x() == expectedX; })); |
@@ -22,8 +24,8 void validateRange(DataSeriesIterator first, DataSeriesIterator last, const QVec | |||
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22 | 24 | [](const auto &it, const auto &expectedVal) { return it.value() == expectedVal; })); |
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23 | 25 | } |
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24 | 26 | |
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25 |
void validateRange(DataSeriesIterator first, DataSeriesIterator last, const |
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|
26 |
const |
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|
27 | void validateRange(DataSeriesIterator first, DataSeriesIterator last, const DataContainer &xData, | |
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28 | const std::vector<DataContainer> &valuesData) | |
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27 | 29 | { |
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28 | 30 | QVERIFY(std::equal(first, last, xData.cbegin(), xData.cend(), |
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29 | 31 | [](const auto &it, const auto &expectedX) { return it.x() == expectedX; })); |
@@ -102,8 +104,8 private: | |||
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102 | 104 | QTest::addColumn<double>("max"); |
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103 | 105 | |
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104 | 106 | // Expected values after purge |
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105 |
QTest::addColumn< |
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106 |
QTest::addColumn< |
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107 | QTest::addColumn<DataContainer>("expectedXAxisData"); | |
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108 | QTest::addColumn<std::vector<DataContainer> >("expectedValuesData"); | |
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107 | 109 | } |
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108 | 110 | |
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109 | 111 | template <typename T> |
@@ -116,8 +118,8 private: | |||
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116 | 118 | dataSeries->purge(min, max); |
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117 | 119 | |
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118 | 120 | // Validates results |
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119 |
QFETCH( |
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120 |
QFETCH( |
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121 | QFETCH(DataContainer, expectedXAxisData); | |
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122 | QFETCH(std::vector<DataContainer>, expectedValuesData); | |
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121 | 123 | |
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122 | 124 | validateRange(dataSeries->cbegin(), dataSeries->cend(), expectedXAxisData, |
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123 | 125 | expectedValuesData); |
@@ -196,67 +198,65 void TestDataSeries::testCtor_data() | |||
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196 | 198 | // ////////////// // |
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197 | 199 | |
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198 | 200 | // x-axis data |
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199 |
QTest::addColumn< |
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201 | QTest::addColumn<DataContainer>("xAxisData"); | |
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200 | 202 | // values data |
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201 |
QTest::addColumn< |
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203 | QTest::addColumn<DataContainer>("valuesData"); | |
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202 | 204 | |
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203 | 205 | // expected x-axis data |
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204 |
QTest::addColumn< |
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206 | QTest::addColumn<DataContainer>("expectedXAxisData"); | |
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205 | 207 | // expected values data |
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206 |
QTest::addColumn< |
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208 | QTest::addColumn<DataContainer>("expectedValuesData"); | |
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207 | 209 | |
|
208 | 210 | // ////////// // |
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209 | 211 | // Test cases // |
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210 | 212 | // ////////// // |
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211 | 213 | |
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212 | 214 | QTest::newRow("invalidData (different sizes of vectors)") |
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213 |
<< |
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|
214 | << QVector<double>{} << QVector<double>{}; | |
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215 | << DataContainer{1., 2., 3., 4., 5.} << DataContainer{100., 200., 300.} << DataContainer{} | |
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216 | << DataContainer{}; | |
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215 | 217 | |
|
216 |
QTest::newRow("sortedData") << |
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|
217 |
<< |
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|
218 |
<< |
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|
219 |
<< |
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|
218 | QTest::newRow("sortedData") << DataContainer{1., 2., 3., 4., 5.} | |
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219 | << DataContainer{100., 200., 300., 400., 500.} | |
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220 | << DataContainer{1., 2., 3., 4., 5.} | |
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221 | << DataContainer{100., 200., 300., 400., 500.}; | |
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220 | 222 | |
|
221 |
QTest::newRow("unsortedData") << |
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|
222 |
<< |
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|
223 |
<< |
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|
224 |
<< |
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|
223 | QTest::newRow("unsortedData") << DataContainer{5., 4., 3., 2., 1.} | |
|
224 | << DataContainer{100., 200., 300., 400., 500.} | |
|
225 | << DataContainer{1., 2., 3., 4., 5.} | |
|
226 | << DataContainer{500., 400., 300., 200., 100.}; | |
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225 | 227 | |
|
226 | 228 | QTest::newRow("unsortedData2") |
|
227 |
<< |
|
|
228 |
<< |
|
|
229 | << DataContainer{1., 4., 3., 5., 2.} << DataContainer{100., 200., 300., 400., 500.} | |
|
230 | << DataContainer{1., 2., 3., 4., 5.} << DataContainer{100., 500., 300., 200., 400.}; | |
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229 | 231 | } |
|
230 | 232 | |
|
231 | 233 | void TestDataSeries::testCtor() |
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232 | 234 | { |
|
233 | 235 | // Creates series |
|
234 |
QFETCH( |
|
|
235 |
QFETCH( |
|
|
236 | QFETCH(DataContainer, xAxisData); | |
|
237 | QFETCH(DataContainer, valuesData); | |
|
236 | 238 | |
|
237 | 239 | auto series = std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData), |
|
238 | 240 | Unit{}, Unit{}); |
|
239 | 241 | |
|
240 | 242 | // Validates results : we check that the data series is sorted on its x-axis data |
|
241 |
QFETCH( |
|
|
242 |
QFETCH( |
|
|
243 | QFETCH(DataContainer, expectedXAxisData); | |
|
244 | QFETCH(DataContainer, expectedValuesData); | |
|
243 | 245 | |
|
244 | 246 | validateRange(series->cbegin(), series->cend(), expectedXAxisData, expectedValuesData); |
|
245 | 247 | } |
|
246 | 248 | |
|
247 | 249 | namespace { |
|
248 | 250 | |
|
249 |
std::shared_ptr<ScalarSeries> createScalarSeries( |
|
|
250 | QVector<double> valuesData) | |
|
251 | std::shared_ptr<ScalarSeries> createScalarSeries(DataContainer xAxisData, DataContainer valuesData) | |
|
251 | 252 | { |
|
252 | 253 | return std::make_shared<ScalarSeries>(std::move(xAxisData), std::move(valuesData), Unit{}, |
|
253 | 254 | Unit{}); |
|
254 | 255 | } |
|
255 | 256 | |
|
256 |
std::shared_ptr<VectorSeries> createVectorSeries( |
|
|
257 |
|
|
|
258 |
|
|
|
259 | QVector<double> zValuesData) | |
|
257 | std::shared_ptr<VectorSeries> createVectorSeries(DataContainer xAxisData, DataContainer xValuesData, | |
|
258 | DataContainer yValuesData, | |
|
259 | DataContainer zValuesData) | |
|
260 | 260 | { |
|
261 | 261 | return std::make_shared<VectorSeries>(std::move(xAxisData), std::move(xValuesData), |
|
262 | 262 | std::move(yValuesData), std::move(zValuesData), Unit{}, |
@@ -276,8 +276,8 void TestDataSeries::testMerge_data() | |||
|
276 | 276 | QTest::addColumn<std::shared_ptr<ScalarSeries> >("dataSeries2"); |
|
277 | 277 | |
|
278 | 278 | // Expected values in the first data series after merge |
|
279 |
QTest::addColumn< |
|
|
280 |
QTest::addColumn< |
|
|
279 | QTest::addColumn<DataContainer>("expectedXAxisData"); | |
|
280 | QTest::addColumn<DataContainer>("expectedValuesData"); | |
|
281 | 281 | |
|
282 | 282 | // ////////// // |
|
283 | 283 | // Test cases // |
@@ -286,26 +286,25 void TestDataSeries::testMerge_data() | |||
|
286 | 286 | QTest::newRow("sortedMerge") |
|
287 | 287 | << createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) |
|
288 | 288 | << createScalarSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.}) |
|
289 |
<< |
|
|
290 |
<< |
|
|
289 | << DataContainer{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.} | |
|
290 | << DataContainer{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.}; | |
|
291 | 291 | |
|
292 | 292 | QTest::newRow("unsortedMerge") |
|
293 | 293 | << createScalarSeries({6., 7., 8., 9., 10.}, {600., 700., 800., 900., 1000.}) |
|
294 | 294 | << createScalarSeries({1., 2., 3., 4., 5.}, {100., 200., 300., 400., 500.}) |
|
295 |
<< |
|
|
296 |
<< |
|
|
295 | << DataContainer{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.} | |
|
296 | << DataContainer{100., 200., 300., 400., 500., 600., 700., 800., 900., 1000.}; | |
|
297 | 297 | |
|
298 | QTest::newRow("unsortedMerge2") | |
|
299 |
<< createScalarSeries({1., 2., 8., 9., 10}, {100., 200., |
|
|
300 |
<< createScalarSeries({3., 4., 5., 6., 7.}, {600., 700. |
|
|
301 | << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8., 9., 10.} | |
|
302 | << QVector<double>{100., 200., 600., 700., 800., 900., 1000., 300., 400., 500.}; | |
|
298 | QTest::newRow("unsortedMerge2 (merge not made because source is in the bounds of dest)") | |
|
299 | << createScalarSeries({1., 2., 8., 9., 10}, {100., 200., 800., 900., 1000.}) | |
|
300 | << createScalarSeries({3., 4., 5., 6., 7.}, {300., 400., 500., 600., 700.}) | |
|
301 | << DataContainer{1., 2., 8., 9., 10.} << DataContainer{100., 200., 800., 900., 1000.}; | |
|
303 | 302 | |
|
304 | 303 | QTest::newRow("unsortedMerge3") |
|
305 |
<< createScalarSeries({3., |
|
|
306 |
<< createScalarSeries({ |
|
|
307 |
<< |
|
|
308 | << QVector<double>{1000., 500., 100., 700., 200., 600., 400., 300., 800., 900.}; | |
|
304 | << createScalarSeries({3., 4., 5., 7., 8}, {300., 400., 500., 700., 800.}) | |
|
305 | << createScalarSeries({1., 2., 3., 7., 10.}, {100., 200., 333., 777., 1000.}) | |
|
306 | << DataContainer{1., 2., 3., 4., 5., 7., 8., 10.} | |
|
307 | << DataContainer{100., 200., 300., 400., 500., 700., 800., 1000.}; | |
|
309 | 308 | } |
|
310 | 309 | |
|
311 | 310 | void TestDataSeries::testMerge() |
@@ -318,8 +317,8 void TestDataSeries::testMerge() | |||
|
318 | 317 | |
|
319 | 318 | // Validates results : we check that the merge is valid and the data series is sorted on its |
|
320 | 319 | // x-axis data |
|
321 |
QFETCH( |
|
|
322 |
QFETCH( |
|
|
320 | QFETCH(DataContainer, expectedXAxisData); | |
|
321 | QFETCH(DataContainer, expectedValuesData); | |
|
323 | 322 | |
|
324 | 323 | validateRange(dataSeries->cbegin(), dataSeries->cend(), expectedXAxisData, expectedValuesData); |
|
325 | 324 | } |
@@ -334,24 +333,23 void TestDataSeries::testPurgeScalar_data() | |||
|
334 | 333 | |
|
335 | 334 | QTest::newRow("purgeScalar") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
336 | 335 | {100., 200., 300., 400., 500.}) |
|
337 |
<< 2. << 4. << |
|
|
338 |
<< |
|
|
336 | << 2. << 4. << DataContainer{2., 3., 4.} | |
|
337 | << std::vector<DataContainer>{{200., 300., 400.}}; | |
|
339 | 338 | QTest::newRow("purgeScalar2") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
340 | 339 | {100., 200., 300., 400., 500.}) |
|
341 |
<< 0. << 2.5 << |
|
|
342 |
<< |
|
|
340 | << 0. << 2.5 << DataContainer{1., 2.} | |
|
341 | << std::vector<DataContainer>{{100., 200.}}; | |
|
343 | 342 | QTest::newRow("purgeScalar3") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
344 | 343 | {100., 200., 300., 400., 500.}) |
|
345 |
<< 3.5 << 7. << |
|
|
346 |
<< |
|
|
344 | << 3.5 << 7. << DataContainer{4., 5.} | |
|
345 | << std::vector<DataContainer>{{400., 500.}}; | |
|
347 | 346 | QTest::newRow("purgeScalar4") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
348 | 347 | {100., 200., 300., 400., 500.}) |
|
349 |
<< 0. << 7. << |
|
|
350 |
<< |
|
|
348 | << 0. << 7. << DataContainer{1., 2., 3., 4., 5.} | |
|
349 | << std::vector<DataContainer>{{100., 200., 300., 400., 500.}}; | |
|
351 | 350 | QTest::newRow("purgeScalar5") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
352 | 351 | {100., 200., 300., 400., 500.}) |
|
353 |
<< 5.5 << 7. << |
|
|
354 | << QVector<QVector<double> >{{}}; | |
|
352 | << 5.5 << 7. << DataContainer{} << std::vector<DataContainer>{{}}; | |
|
355 | 353 | } |
|
356 | 354 | |
|
357 | 355 | void TestDataSeries::testPurgeScalar() |
@@ -370,8 +368,8 void TestDataSeries::testPurgeVector_data() | |||
|
370 | 368 | QTest::newRow("purgeVector") << createVectorSeries({1., 2., 3., 4., 5.}, {6., 7., 8., 9., 10.}, |
|
371 | 369 | {11., 12., 13., 14., 15.}, |
|
372 | 370 | {16., 17., 18., 19., 20.}) |
|
373 |
<< 2. << 4. << |
|
|
374 |
<< |
|
|
371 | << 2. << 4. << DataContainer{2., 3., 4.} | |
|
372 | << std::vector<DataContainer>{ | |
|
375 | 373 | {7., 8., 9.}, {12., 13., 14.}, {17., 18., 19.}}; |
|
376 | 374 | } |
|
377 | 375 | |
@@ -512,8 +510,8 void TestDataSeries::testXAxisRange_data() | |||
|
512 | 510 | QTest::addColumn<double>("max"); |
|
513 | 511 | |
|
514 | 512 | // Expected values |
|
515 |
QTest::addColumn< |
|
|
516 |
QTest::addColumn< |
|
|
513 | QTest::addColumn<DataContainer>("expectedXAxisData"); | |
|
514 | QTest::addColumn<DataContainer>("expectedValuesData"); | |
|
517 | 515 | |
|
518 | 516 | // ////////// // |
|
519 | 517 | // Test cases // |
@@ -521,32 +519,32 void TestDataSeries::testXAxisRange_data() | |||
|
521 | 519 | |
|
522 | 520 | QTest::newRow("xAxisRange1") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
523 | 521 | {100., 200., 300., 400., 500.}) |
|
524 |
<< -1. << 3.2 << |
|
|
525 |
<< |
|
|
522 | << -1. << 3.2 << DataContainer{1., 2., 3.} | |
|
523 | << DataContainer{100., 200., 300.}; | |
|
526 | 524 | QTest::newRow("xAxisRange2") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
527 | 525 | {100., 200., 300., 400., 500.}) |
|
528 |
<< 1. << 4. << |
|
|
529 |
<< |
|
|
526 | << 1. << 4. << DataContainer{1., 2., 3., 4.} | |
|
527 | << DataContainer{100., 200., 300., 400.}; | |
|
530 | 528 | QTest::newRow("xAxisRange3") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
531 | 529 | {100., 200., 300., 400., 500.}) |
|
532 |
<< 1. << 3.9 << |
|
|
533 |
<< |
|
|
530 | << 1. << 3.9 << DataContainer{1., 2., 3.} | |
|
531 | << DataContainer{100., 200., 300.}; | |
|
534 | 532 | QTest::newRow("xAxisRange4") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
535 | 533 | {100., 200., 300., 400., 500.}) |
|
536 |
<< 0. << 0.9 << |
|
|
534 | << 0. << 0.9 << DataContainer{} << DataContainer{}; | |
|
537 | 535 | QTest::newRow("xAxisRange5") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
538 | 536 | {100., 200., 300., 400., 500.}) |
|
539 |
<< 0. << 1. << |
|
|
537 | << 0. << 1. << DataContainer{1.} << DataContainer{100.}; | |
|
540 | 538 | QTest::newRow("xAxisRange6") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
541 | 539 | {100., 200., 300., 400., 500.}) |
|
542 |
<< 2.1 << 6. << |
|
|
543 |
<< |
|
|
540 | << 2.1 << 6. << DataContainer{3., 4., 5.} | |
|
541 | << DataContainer{300., 400., 500.}; | |
|
544 | 542 | QTest::newRow("xAxisRange7") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
545 | 543 | {100., 200., 300., 400., 500.}) |
|
546 |
<< 6. << 9. << |
|
|
544 | << 6. << 9. << DataContainer{} << DataContainer{}; | |
|
547 | 545 | QTest::newRow("xAxisRange8") << createScalarSeries({1., 2., 3., 4., 5.}, |
|
548 | 546 | {100., 200., 300., 400., 500.}) |
|
549 |
<< 5. << 9. << |
|
|
547 | << 5. << 9. << DataContainer{5.} << DataContainer{500.}; | |
|
550 | 548 | } |
|
551 | 549 | |
|
552 | 550 | void TestDataSeries::testXAxisRange() |
@@ -555,8 +553,8 void TestDataSeries::testXAxisRange() | |||
|
555 | 553 | QFETCH(double, min); |
|
556 | 554 | QFETCH(double, max); |
|
557 | 555 | |
|
558 |
QFETCH( |
|
|
559 |
QFETCH( |
|
|
556 | QFETCH(DataContainer, expectedXAxisData); | |
|
557 | QFETCH(DataContainer, expectedValuesData); | |
|
560 | 558 | |
|
561 | 559 | auto bounds = dataSeries->xAxisRange(min, max); |
|
562 | 560 | validateRange(bounds.first, bounds.second, expectedXAxisData, expectedValuesData); |
@@ -4,7 +4,9 | |||
|
4 | 4 | |
|
5 | 5 | namespace { |
|
6 | 6 | |
|
7 | void verifyArrayData(const ArrayData<1> &arrayData, const QVector<double> &expectedData) | |
|
7 | using DataContainer = std::vector<double>; | |
|
8 | ||
|
9 | void verifyArrayData(const ArrayData<1> &arrayData, const DataContainer &expectedData) | |
|
8 | 10 | { |
|
9 | 11 | QVERIFY(std::equal( |
|
10 | 12 | arrayData.cbegin(), arrayData.cend(), expectedData.cbegin(), expectedData.cend(), |
@@ -44,18 +46,18 private slots: | |||
|
44 | 46 | void TestOneDimArrayData::testData_data() |
|
45 | 47 | { |
|
46 | 48 | // Test structure |
|
47 |
QTest::addColumn< |
|
|
48 |
QTest::addColumn< |
|
|
49 | QTest::addColumn<DataContainer>("inputData"); // array's data input | |
|
50 | QTest::addColumn<DataContainer>("expectedData"); // expected data | |
|
49 | 51 | |
|
50 | 52 | // Test cases |
|
51 |
QTest::newRow("data1") << |
|
|
52 |
<< |
|
|
53 | QTest::newRow("data1") << DataContainer{1., 2., 3., 4., 5.} | |
|
54 | << DataContainer{1., 2., 3., 4., 5.}; | |
|
53 | 55 | } |
|
54 | 56 | |
|
55 | 57 | void TestOneDimArrayData::testData() |
|
56 | 58 | { |
|
57 |
QFETCH( |
|
|
58 |
QFETCH( |
|
|
59 | QFETCH(DataContainer, inputData); | |
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60 | QFETCH(DataContainer, expectedData); | |
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59 | 61 | |
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60 | 62 | ArrayData<1> arrayData{inputData}; |
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61 | 63 | verifyArrayData(arrayData, expectedData); |
@@ -64,26 +66,24 void TestOneDimArrayData::testData() | |||
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64 | 66 | void TestOneDimArrayData::testAdd_data() |
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65 | 67 | { |
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66 | 68 | // Test structure |
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67 |
QTest::addColumn< |
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68 |
QTest::addColumn< |
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69 | QTest::addColumn<DataContainer>("inputData"); // array's data input | |
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70 | QTest::addColumn<DataContainer>("otherData"); // array data's input to merge with | |
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69 | 71 |
QTest::addColumn<bool>("prepend"); |
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70 |
QTest::addColumn< |
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72 | QTest::addColumn<DataContainer>("expectedData"); // expected data after merge | |
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71 | 73 | |
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72 | 74 | // Test cases |
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73 |
QTest::newRow("appendMerge") << |
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74 |
<< |
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75 | << QVector<double>{1., 2., 3., 4., 5., 6., 7., 8.}; | |
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76 | QTest::newRow("prependMerge") << QVector<double>{1., 2., 3., 4., 5.} | |
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77 | << QVector<double>{6., 7., 8.} << true | |
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78 | << QVector<double>{6., 7., 8., 1., 2., 3., 4., 5.}; | |
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75 | QTest::newRow("appendMerge") << DataContainer{1., 2., 3., 4., 5.} << DataContainer{6., 7., 8.} | |
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76 | << false << DataContainer{1., 2., 3., 4., 5., 6., 7., 8.}; | |
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77 | QTest::newRow("prependMerge") << DataContainer{1., 2., 3., 4., 5.} << DataContainer{6., 7., 8.} | |
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78 | << true << DataContainer{6., 7., 8., 1., 2., 3., 4., 5.}; | |
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79 | 79 | } |
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80 | 80 | |
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81 | 81 | void TestOneDimArrayData::testAdd() |
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82 | 82 | { |
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83 |
QFETCH( |
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84 |
QFETCH( |
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83 | QFETCH(DataContainer, inputData); | |
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84 | QFETCH(DataContainer, otherData); | |
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85 | 85 | QFETCH(bool, prepend); |
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86 |
QFETCH( |
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86 | QFETCH(DataContainer, expectedData); | |
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87 | 87 | |
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88 | 88 | ArrayData<1> arrayData{inputData}; |
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89 | 89 | ArrayData<1> other{otherData}; |
@@ -95,18 +95,18 void TestOneDimArrayData::testAdd() | |||
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95 | 95 | void TestOneDimArrayData::testAt_data() |
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96 | 96 | { |
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97 | 97 | // Test structure |
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98 |
QTest::addColumn< |
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98 | QTest::addColumn<DataContainer>("inputData"); // array data's input | |
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99 | 99 |
QTest::addColumn<int>("index"); |
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100 | 100 |
QTest::addColumn<double>("expectedData"); |
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101 | 101 | |
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102 | 102 | // Test cases |
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103 |
QTest::newRow("data1") << |
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104 |
QTest::newRow("data2") << |
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103 | QTest::newRow("data1") << DataContainer{1., 2., 3., 4., 5.} << 0 << 1.; | |
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104 | QTest::newRow("data2") << DataContainer{1., 2., 3., 4., 5.} << 3 << 4.; | |
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105 | 105 | } |
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106 | 106 | |
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107 | 107 | void TestOneDimArrayData::testAt() |
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108 | 108 | { |
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109 |
QFETCH( |
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109 | QFETCH(DataContainer, inputData); | |
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110 | 110 | QFETCH(int, index); |
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111 | 111 | QFETCH(double, expectedData); |
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112 | 112 | |
@@ -117,34 +117,34 void TestOneDimArrayData::testAt() | |||
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117 | 117 | void TestOneDimArrayData::testClear_data() |
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118 | 118 | { |
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119 | 119 | // Test structure |
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120 |
QTest::addColumn< |
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120 | QTest::addColumn<DataContainer>("inputData"); // array data's input | |
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121 | 121 | |
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122 | 122 | // Test cases |
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123 |
QTest::newRow("data1") << |
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|
123 | QTest::newRow("data1") << DataContainer{1., 2., 3., 4., 5.}; | |
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124 | 124 | } |
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125 | 125 | |
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126 | 126 | void TestOneDimArrayData::testClear() |
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127 | 127 | { |
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128 |
QFETCH( |
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128 | QFETCH(DataContainer, inputData); | |
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129 | 129 | |
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130 | 130 | ArrayData<1> arrayData{inputData}; |
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131 | 131 | arrayData.clear(); |
|
132 |
verifyArrayData(arrayData, |
|
|
132 | verifyArrayData(arrayData, DataContainer{}); | |
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133 | 133 | } |
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134 | 134 | |
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135 | 135 | void TestOneDimArrayData::testSize_data() |
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136 | 136 | { |
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137 | 137 | // Test structure |
|
138 |
QTest::addColumn< |
|
|
138 | QTest::addColumn<DataContainer>("inputData"); // array data's input | |
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139 | 139 |
QTest::addColumn<int>("expectedSize"); |
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140 | 140 | |
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141 | 141 | // Test cases |
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142 |
QTest::newRow("data1") << |
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142 | QTest::newRow("data1") << DataContainer{1., 2., 3., 4., 5.} << 5; | |
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143 | 143 | } |
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144 | 144 | |
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145 | 145 | void TestOneDimArrayData::testSize() |
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146 | 146 | { |
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147 |
QFETCH( |
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147 | QFETCH(DataContainer, inputData); | |
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148 | 148 | QFETCH(int, expectedSize); |
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149 | 149 | |
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150 | 150 | ArrayData<1> arrayData{inputData}; |
@@ -154,22 +154,22 void TestOneDimArrayData::testSize() | |||
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154 | 154 | void TestOneDimArrayData::testSort_data() |
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155 | 155 | { |
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156 | 156 | // Test structure |
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157 |
QTest::addColumn< |
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157 | QTest::addColumn<DataContainer>("inputData"); // array data's input | |
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158 | 158 | QTest::addColumn<std::vector<int> >("sortPermutation"); // permutation used to sort data |
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159 |
QTest::addColumn< |
|
|
159 | QTest::addColumn<DataContainer>("expectedData"); // expected data after sorting | |
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160 | 160 | |
|
161 | 161 | // Test cases |
|
162 |
QTest::newRow("data1") << |
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|
163 |
<< |
|
|
164 |
QTest::newRow("data2") << |
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|
165 |
<< |
|
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162 | QTest::newRow("data1") << DataContainer{1., 2., 3., 4., 5.} << std::vector<int>{0, 2, 3, 1, 4} | |
|
163 | << DataContainer{1., 3., 4., 2., 5.}; | |
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164 | QTest::newRow("data2") << DataContainer{1., 2., 3., 4., 5.} << std::vector<int>{4, 1, 2, 3, 0} | |
|
165 | << DataContainer{5., 2., 3., 4., 1.}; | |
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166 | 166 | } |
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167 | 167 | |
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168 | 168 | void TestOneDimArrayData::testSort() |
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169 | 169 | { |
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170 |
QFETCH( |
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170 | QFETCH(DataContainer, inputData); | |
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171 | 171 | QFETCH(std::vector<int>, sortPermutation); |
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172 |
QFETCH( |
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172 | QFETCH(DataContainer, expectedData); | |
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173 | 173 | |
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174 | 174 | ArrayData<1> arrayData{inputData}; |
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175 | 175 | auto sortedArrayData = arrayData.sort(sortPermutation); |
@@ -2,31 +2,32 | |||
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2 | 2 | #include <QObject> |
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3 | 3 | #include <QtTest> |
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4 | 4 | |
|
5 |
using Container = |
|
|
6 | using InputData = QPair<QVector<double>, int>; | |
|
5 | using DataContainer = std::vector<double>; | |
|
6 | using Container = std::vector<DataContainer>; | |
|
7 | using InputData = QPair<DataContainer, int>; | |
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7 | 8 | |
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8 | 9 | namespace { |
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9 | 10 | |
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10 | 11 | InputData flatten(const Container &container) |
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11 | 12 | { |
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12 |
if (container. |
|
|
13 | if (container.empty()) { | |
|
13 | 14 | return {}; |
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14 | 15 | } |
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15 | 16 | |
|
16 | 17 | // We assume here that each component of the container have the same size |
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17 | 18 | auto containerSize = container.size(); |
|
18 |
auto componentSize = container.f |
|
|
19 | auto componentSize = container.front().size(); | |
|
19 | 20 | |
|
20 |
auto result = |
|
|
21 | auto result = DataContainer{}; | |
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21 | 22 | result.reserve(componentSize * containerSize); |
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22 | 23 | |
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23 | 24 | for (auto i = 0; i < componentSize; ++i) { |
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24 | 25 | for (auto j = 0; j < containerSize; ++j) { |
|
25 |
result. |
|
|
26 | result.push_back(container.at(j).at(i)); | |
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26 | 27 | } |
|
27 | 28 | } |
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28 | 29 | |
|
29 | return {result, containerSize}; | |
|
30 | return {result, static_cast<int>(containerSize)}; | |
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30 | 31 | } |
|
31 | 32 | |
|
32 | 33 | void verifyArrayData(const ArrayData<2> &arrayData, const Container &expectedData) |
@@ -175,7 +176,7 void TestTwoDimArrayData::testClear() | |||
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175 | 176 | ArrayData<2> arrayData{inputData.first, inputData.second}; |
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176 | 177 | arrayData.clear(); |
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177 | 178 | |
|
178 |
auto emptyData = Container(inputData.second, |
|
|
179 | auto emptyData = Container(inputData.second, DataContainer{}); | |
|
179 | 180 | verifyArrayData(arrayData, emptyData); |
|
180 | 181 | } |
|
181 | 182 |
@@ -194,15 +194,16 std::shared_ptr<IDataSeries> AmdaResultParser::readTxt(const QString &filePath, | |||
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194 | 194 | case ValueType::SCALAR: |
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195 | 195 | Q_ASSERT(results.second.size() == 1); |
|
196 | 196 | return std::make_shared<ScalarSeries>( |
|
197 |
std::move(results.first |
|
|
197 | std::move(results.first.toStdVector()), | |
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198 | std::move(results.second.takeFirst().toStdVector()), xAxisUnit, Unit{}); | |
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198 | 199 | case ValueType::VECTOR: { |
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199 | 200 | Q_ASSERT(results.second.size() == 3); |
|
200 | auto xValues = results.second.takeFirst(); | |
|
201 | auto yValues = results.second.takeFirst(); | |
|
202 | auto zValues = results.second.takeFirst(); | |
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203 |
return std::make_shared<VectorSeries>(std::move(results.first) |
|
|
204 |
std::move(yValues), |
|
|
205 | Unit{}); | |
|
201 | auto xValues = results.second.takeFirst().toStdVector(); | |
|
202 | auto yValues = results.second.takeFirst().toStdVector(); | |
|
203 | auto zValues = results.second.takeFirst().toStdVector(); | |
|
204 | return std::make_shared<VectorSeries>(std::move(results.first.toStdVector()), | |
|
205 | std::move(xValues), std::move(yValues), | |
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206 | std::move(zValues), xAxisUnit, Unit{}); | |
|
206 | 207 | } |
|
207 | 208 | case ValueType::UNKNOWN: |
|
208 | 209 | // Invalid case |
@@ -18,7 +18,7 std::shared_ptr<IDataSeries> CosinusProvider::retrieveData(QUuid acqIdentifier, | |||
|
18 | 18 | auto dataIndex = 0; |
|
19 | 19 | |
|
20 | 20 | // Gets the timerange from the parameters |
|
21 | double freq = 1.0; | |
|
21 | double freq = 100.0; | |
|
22 | 22 | double start = std::ceil(dataRangeRequested.m_TStart * freq); // 100 htz |
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23 | 23 | double end = std::floor(dataRangeRequested.m_TEnd * freq); // 100 htz |
|
24 | 24 | |
@@ -30,10 +30,10 std::shared_ptr<IDataSeries> CosinusProvider::retrieveData(QUuid acqIdentifier, | |||
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30 | 30 | // Generates scalar series containing cosinus values (one value per second) |
|
31 | 31 | auto dataCount = end - start; |
|
32 | 32 | |
|
33 |
auto xAxisData = |
|
|
33 | auto xAxisData = std::vector<double>{}; | |
|
34 | 34 | xAxisData.resize(dataCount); |
|
35 | 35 | |
|
36 |
auto valuesData = |
|
|
36 | auto valuesData = std::vector<double>{}; | |
|
37 | 37 | valuesData.resize(dataCount); |
|
38 | 38 | |
|
39 | 39 | int progress = 0; |
@@ -43,8 +43,8 std::shared_ptr<IDataSeries> CosinusProvider::retrieveData(QUuid acqIdentifier, | |||
|
43 | 43 | if (it != m_VariableToEnableProvider.end() && it.value()) { |
|
44 | 44 | const auto timeOnFreq = time / freq; |
|
45 | 45 | |
|
46 |
xAxisData |
|
|
47 |
valuesData |
|
|
46 | xAxisData[dataIndex] = timeOnFreq; | |
|
47 | valuesData[dataIndex] = std::cos(timeOnFreq); | |
|
48 | 48 | |
|
49 | 49 | // progression |
|
50 | 50 | int currentProgress = (time - start) * 100.0 / progressEnd; |
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