GIT_REPOSITORIES/LPP/Users/mperrinel/SciQLop-fork Files · core/src/Data/VectorSeries.cpp

Parser refactoring (1)...

Parser refactoring (1) Creates a helper that will be used to read the properties and values of an AMDA file, to generate the dataset. The helper is intended to replace the current implementation of the parser, to be more generic and thus manage the spectrograms more easily

Alexandre Leroux - - Load All Authors

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             VectorSeries.cpp
        
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      #include "Data/VectorSeries.h"

      namespace {

      /**

       * Flatten the three components of a vector to a single QVector that can be passed to an ArrayData

       *

       * Example:

       * xValues = {1, 2, 3}

       * yValues = {4, 5, 6}

       * zValues = {7, 8, 9}

       *

       * result = {1, 4, 7, 2, 5, 8, 3, 6, 9}

       *

       * @param xValues the x-component values of the vector

       * @param yValues the y-component values of the vector

       * @param zValues the z-component values of the vector

       * @return the single QVector

       * @remarks the three components are consumed

       * @sa ArrayData

       */

      std::vector<double> flatten(std::vector<double> xValues, std::vector<double> yValues,

                                  std::vector<double> zValues)

      {

          if (xValues.size() != yValues.size() || xValues.size() != zValues.size()) {

              /// @todo ALX : log

              return {};

          }

          auto result = std::vector<double>();

          result.reserve(xValues.size() * 3);

          for (int i = 0; i < xValues.size(); i++) {

              result.push_back(xValues[i]);

              result.push_back(yValues[i]);

              result.push_back(zValues[i]);

          }

          return result;

      }

      } // namespace

      VectorSeries::VectorSeries(std::vector<double> xAxisData, std::vector<double> xValuesData,

                                 std::vector<double> yValuesData, std::vector<double> zValuesData,

                                 const Unit &xAxisUnit, const Unit &valuesUnit)

              : VectorSeries{std::move(xAxisData), flatten(std::move(xValuesData), std::move(yValuesData),

                                                           std::move(zValuesData)),

                             xAxisUnit, valuesUnit}

      {

      }

      VectorSeries::VectorSeries(std::vector<double> xAxisData, std::vector<double> valuesData,

                                 const Unit &xAxisUnit, const Unit &valuesUnit)

              : DataSeries{std::make_shared<ArrayData<1> >(std::move(xAxisData)), xAxisUnit,

                           std::make_shared<ArrayData<2> >(std::move(valuesData), 3), valuesUnit}

      {

      }

      std::unique_ptr<IDataSeries> VectorSeries::clone() const

      {

          return std::make_unique<VectorSeries>(*this);

      }

      std::shared_ptr<IDataSeries> VectorSeries::subDataSeries(const SqpRange &range)

      {

          auto subXAxisData = std::vector<double>();

          auto subValuesData = std::vector<double>();

          this->lockRead();

          {

              auto bounds = xAxisRange(range.m_TStart, range.m_TEnd);

              for (auto it = bounds.first; it != bounds.second; ++it) {

                  subXAxisData.push_back(it->x());

                  subValuesData.push_back(it->value(0));

                  subValuesData.push_back(it->value(1));

                  subValuesData.push_back(it->value(2));

              }

          }

          this->unlock();

          return std::make_shared<VectorSeries>(std::move(subXAxisData), std::move(subValuesData),

                                                this->xAxisUnit(), this->valuesUnit());

      }

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				#include "Data/VectorSeries.h"

				namespace {

				/**
				* Flatten the three components of a vector to a single QVector that can be passed to an ArrayData
				*
				* Example:
				* xValues = {1, 2, 3}
				* yValues = {4, 5, 6}
				* zValues = {7, 8, 9}
				*
				* result = {1, 4, 7, 2, 5, 8, 3, 6, 9}
				*
				* @param xValues the x-component values of the vector
				* @param yValues the y-component values of the vector
				* @param zValues the z-component values of the vector
				* @return the single QVector
				* @remarks the three components are consumed
				* @sa ArrayData
				*/
				std::vector<double> flatten(std::vector<double> xValues, std::vector<double> yValues,
				std::vector<double> zValues)
				{
				if (xValues.size() != yValues.size() \|\| xValues.size() != zValues.size()) {
				/// @todo ALX : log
				return {};
				}

				auto result = std::vector<double>();
				result.reserve(xValues.size() * 3);
				for (int i = 0; i < xValues.size(); i++) {
				result.push_back(xValues[i]);
				result.push_back(yValues[i]);
				result.push_back(zValues[i]);
				}

				return result;
				}

				} // namespace

				VectorSeries::VectorSeries(std::vector<double> xAxisData, std::vector<double> xValuesData,
				std::vector<double> yValuesData, std::vector<double> zValuesData,
				const Unit &xAxisUnit, const Unit &valuesUnit)
				: VectorSeries{std::move(xAxisData), flatten(std::move(xValuesData), std::move(yValuesData),
				std::move(zValuesData)),
				xAxisUnit, valuesUnit}
				{
				}

				VectorSeries::VectorSeries(std::vector<double> xAxisData, std::vector<double> valuesData,
				const Unit &xAxisUnit, const Unit &valuesUnit)
				: DataSeries{std::make_shared<ArrayData<1> >(std::move(xAxisData)), xAxisUnit,
				std::make_shared<ArrayData<2> >(std::move(valuesData), 3), valuesUnit}
				{
				}

				std::unique_ptr<IDataSeries> VectorSeries::clone() const
				{
				return std::make_unique<VectorSeries>(*this);
				}

				std::shared_ptr<IDataSeries> VectorSeries::subDataSeries(const SqpRange &range)
				{
				auto subXAxisData = std::vector<double>();
				auto subValuesData = std::vector<double>();

				this->lockRead();
				{
				auto bounds = xAxisRange(range.m_TStart, range.m_TEnd);
				for (auto it = bounds.first; it != bounds.second; ++it) {
				subXAxisData.push_back(it->x());
				subValuesData.push_back(it->value(0));
				subValuesData.push_back(it->value(1));
				subValuesData.push_back(it->value(2));
				}
				}
				this->unlock();

				return std::make_shared<VectorSeries>(std::move(subXAxisData), std::move(subValuesData),
				this->xAxisUnit(), this->valuesUnit());
				}