HG_REPOSITORIES/LPP/SciQLOP_Repos/SciQLop Files · core/src/Data/OptionalAxis.cpp

Creates DataSeriesUtils file that will contain methods for handling data holes...

Creates DataSeriesUtils file that will contain methods for handling data holes Renames DataSeriesUtils file in unit tests to avoid conflicts

Alexandre Leroux - - Load All Authors

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             OptionalAxis.cpp
        
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             / core / src / Data / OptionalAxis.cpp
          
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      #include <Data/OptionalAxis.h>

      #include "Data/ArrayData.h"

      OptionalAxis::OptionalAxis() : m_Defined{false}, m_Data{nullptr}, m_Unit{}

      {

      }

      OptionalAxis::OptionalAxis(std::shared_ptr<ArrayData<1> > data, Unit unit)

              : m_Defined{true}, m_Data{data}, m_Unit{std::move(unit)}

      {

          if (m_Data == nullptr) {

              throw std::invalid_argument{"Data can't be null for a defined axis"};

          }

      }

      OptionalAxis::OptionalAxis(const OptionalAxis &other)

              : m_Defined{other.m_Defined},

                m_Data{other.m_Data ? std::make_shared<ArrayData<1> >(*other.m_Data) : nullptr},

                m_Unit{other.m_Unit}

      {

      }

      OptionalAxis &OptionalAxis::operator=(OptionalAxis other)

      {

          std::swap(m_Defined, other.m_Defined);

          std::swap(m_Data, other.m_Data);

          std::swap(m_Unit, other.m_Unit);

          return *this;

      }

      bool OptionalAxis::isDefined() const

      {

          return m_Defined;

      }

      double OptionalAxis::at(int index) const

      {

          if (m_Defined) {

              return (index >= 0 && index < m_Data->size()) ? m_Data->at(index)

                                                            : std::numeric_limits<double>::quiet_NaN();

          }

          else {

              return std::numeric_limits<double>::quiet_NaN();

          }

      }

      std::pair<double, double> OptionalAxis::bounds() const

      {

          if (!m_Defined || m_Data->size() == 0) {

              return std::make_pair(std::numeric_limits<double>::quiet_NaN(),

                                    std::numeric_limits<double>::quiet_NaN());

          }

          else {

              auto minIt = std::min_element(

                  m_Data->cbegin(), m_Data->cend(), [](const auto &it1, const auto &it2) {

                      return SortUtils::minCompareWithNaN(it1.first(), it2.first());

                  });

              // Gets the iterator on the max of all values data

              auto maxIt = std::max_element(

                  m_Data->cbegin(), m_Data->cend(), [](const auto &it1, const auto &it2) {

                      return SortUtils::maxCompareWithNaN(it1.first(), it2.first());

                  });

              return std::make_pair(minIt->first(), maxIt->first());

          }

      }

      int OptionalAxis::size() const

      {

          return m_Defined ? m_Data->size() : 0;

      }

      Unit OptionalAxis::unit() const

      {

          return m_Defined ? m_Unit : Unit{};

      }

      bool OptionalAxis::operator==(const OptionalAxis &other)

      {

          // Axis not defined

          if (!m_Defined) {

              return !other.m_Defined;

          }

          // Axis defined

          return m_Unit == other.m_Unit

                 && std::equal(

                        m_Data->cbegin(), m_Data->cend(), other.m_Data->cbegin(), other.m_Data->cend(),

                        [](const auto &it1, const auto &it2) { return it1.values() == it2.values(); });

      }

      bool OptionalAxis::operator!=(const OptionalAxis &other)

      {

          return !(*this == other);

      }

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				#include <Data/OptionalAxis.h>

				#include "Data/ArrayData.h"

				OptionalAxis::OptionalAxis() : m_Defined{false}, m_Data{nullptr}, m_Unit{}
				{
				}

				OptionalAxis::OptionalAxis(std::shared_ptr<ArrayData<1> > data, Unit unit)
				: m_Defined{true}, m_Data{data}, m_Unit{std::move(unit)}
				{
				if (m_Data == nullptr) {
				throw std::invalid_argument{"Data can't be null for a defined axis"};
				}
				}

				OptionalAxis::OptionalAxis(const OptionalAxis &other)
				: m_Defined{other.m_Defined},
				m_Data{other.m_Data ? std::make_shared<ArrayData<1> >(*other.m_Data) : nullptr},
				m_Unit{other.m_Unit}
				{
				}

				OptionalAxis &OptionalAxis::operator=(OptionalAxis other)
				{
				std::swap(m_Defined, other.m_Defined);
				std::swap(m_Data, other.m_Data);
				std::swap(m_Unit, other.m_Unit);

				return *this;
				}

				bool OptionalAxis::isDefined() const
				{
				return m_Defined;
				}

				double OptionalAxis::at(int index) const
				{
				if (m_Defined) {
				return (index >= 0 && index < m_Data->size()) ? m_Data->at(index)
				: std::numeric_limits<double>::quiet_NaN();
				}
				else {
				return std::numeric_limits<double>::quiet_NaN();
				}
				}

				std::pair<double, double> OptionalAxis::bounds() const
				{
				if (!m_Defined \|\| m_Data->size() == 0) {
				return std::make_pair(std::numeric_limits<double>::quiet_NaN(),
				std::numeric_limits<double>::quiet_NaN());
				}
				else {

				auto minIt = std::min_element(
				m_Data->cbegin(), m_Data->cend(), [](const auto &it1, const auto &it2) {
				return SortUtils::minCompareWithNaN(it1.first(), it2.first());
				});

				// Gets the iterator on the max of all values data
				auto maxIt = std::max_element(
				m_Data->cbegin(), m_Data->cend(), [](const auto &it1, const auto &it2) {
				return SortUtils::maxCompareWithNaN(it1.first(), it2.first());
				});

				return std::make_pair(minIt->first(), maxIt->first());
				}
				}

				int OptionalAxis::size() const
				{
				return m_Defined ? m_Data->size() : 0;
				}

				Unit OptionalAxis::unit() const
				{
				return m_Defined ? m_Unit : Unit{};
				}

				bool OptionalAxis::operator==(const OptionalAxis &other)
				{
				// Axis not defined
				if (!m_Defined) {
				return !other.m_Defined;
				}

				// Axis defined
				return m_Unit == other.m_Unit
				&& std::equal(
				m_Data->cbegin(), m_Data->cend(), other.m_Data->cbegin(), other.m_Data->cend(),
				[](const auto &it1, const auto &it2) { return it1.values() == it2.values(); });
				}

				bool OptionalAxis::operator!=(const OptionalAxis &other)
				{
				return !(*this == other);
				}