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

Creates enum that represents the value types that can be read in AMDA...

Creates enum that represents the value types that can be read in AMDA This enum is passed in parameter of the reading method to parse the result file according to it

Alexandre Leroux - - Load All Authors

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             Variable.cpp
        
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      #include "Variable/Variable.h"

      #include <Data/IDataSeries.h>

      #include <Data/SqpRange.h>

      #include <QMutex>

      #include <QReadWriteLock>

      #include <QThread>

      Q_LOGGING_CATEGORY(LOG_Variable, "Variable")

      struct Variable::VariablePrivate {

          explicit VariablePrivate(const QString &name, const SqpRange &dateTime,

                                   const QVariantHash &metadata)

                  : m_Name{name}, m_Range{dateTime}, m_Metadata{metadata}, m_DataSeries{nullptr}

          {

          }

          void lockRead() { m_Lock.lockForRead(); }

          void lockWrite() { m_Lock.lockForWrite(); }

          void unlock() { m_Lock.unlock(); }

          QString m_Name;

          SqpRange m_Range;

          SqpRange m_CacheRange;

          QVariantHash m_Metadata;

          std::shared_ptr<IDataSeries> m_DataSeries;

          QReadWriteLock m_Lock;

      };

      Variable::Variable(const QString &name, const SqpRange &dateTime, const QVariantHash &metadata)

              : impl{spimpl::make_unique_impl<VariablePrivate>(name, dateTime, metadata)}

      {

      }

      QString Variable::name() const noexcept

      {

          impl->lockRead();

          auto name = impl->m_Name;

          impl->unlock();

          return name;

      }

      SqpRange Variable::range() const noexcept

      {

          impl->lockRead();

          auto range = impl->m_Range;

          impl->unlock();

          return range;

      }

      void Variable::setRange(const SqpRange &range) noexcept

      {

          impl->lockWrite();

          impl->m_Range = range;

          impl->unlock();

      }

      SqpRange Variable::cacheRange() const noexcept

      {

          impl->lockRead();

          auto cacheRange = impl->m_CacheRange;

          impl->unlock();

          return cacheRange;

      }

      void Variable::setCacheRange(const SqpRange &cacheRange) noexcept

      {

          impl->lockWrite();

          impl->m_CacheRange = cacheRange;

          impl->unlock();

      }

      void Variable::setDataSeries(std::shared_ptr<IDataSeries> dataSeries) noexcept

      {

          qCDebug(LOG_Variable()) << "TORM Variable::setDataSeries"

                                  << QThread::currentThread()->objectName();

          if (!dataSeries) {

              /// @todo ALX : log

              return;

          }

          impl->lockWrite();

          impl->m_DataSeries = dataSeries->clone();

          impl->unlock();

      }

      void Variable::mergeDataSeries(std::shared_ptr<IDataSeries> dataSeries) noexcept

      {

          qCDebug(LOG_Variable()) << "TORM Variable::mergeDataSeries"

                                  << QThread::currentThread()->objectName();

          if (!dataSeries) {

              /// @todo ALX : log

              return;

          }

          // Add or merge the data

          // Inits the data series of the variable

          impl->lockWrite();

          if (!impl->m_DataSeries) {

              impl->m_DataSeries = dataSeries->clone();

          }

          else {

              impl->m_DataSeries->merge(dataSeries.get());

          }

          impl->unlock();

          // sub the data

          auto subData = this->dataSeries()->subDataSeries(this->cacheRange());

          qCDebug(LOG_Variable()) << "TORM: Variable::mergeDataSeries sub" << subData->range();

          this->setDataSeries(subData);

          qCDebug(LOG_Variable()) << "TORM: Variable::mergeDataSeries set" << this->dataSeries()->range();

      }

      std::shared_ptr<IDataSeries> Variable::dataSeries() const noexcept

      {

          impl->lockRead();

          auto dataSeries = impl->m_DataSeries;

          impl->unlock();

          return dataSeries;

      }

      QVariantHash Variable::metadata() const noexcept

      {

          impl->lockRead();

          auto metadata = impl->m_Metadata;

          impl->unlock();

          return metadata;

      }

      bool Variable::contains(const SqpRange &range) const noexcept

      {

          impl->lockRead();

          auto res = impl->m_Range.contains(range);

          impl->unlock();

          return res;

      }

      bool Variable::intersect(const SqpRange &range) const noexcept

      {

          impl->lockRead();

          auto res = impl->m_Range.intersect(range);

          impl->unlock();

          return res;

      }

      bool Variable::isInside(const SqpRange &range) const noexcept

      {

          impl->lockRead();

          auto res = range.contains(SqpRange{impl->m_Range.m_TStart, impl->m_Range.m_TEnd});

          impl->unlock();

          return res;

      }

      bool Variable::cacheContains(const SqpRange &range) const noexcept

      {

          impl->lockRead();

          auto res = impl->m_CacheRange.contains(range);

          impl->unlock();

          return res;

      }

      bool Variable::cacheIntersect(const SqpRange &range) const noexcept

      {

          impl->lockRead();

          auto res = impl->m_CacheRange.intersect(range);

          impl->unlock();

          return res;

      }

      bool Variable::cacheIsInside(const SqpRange &range) const noexcept

      {

          impl->lockRead();

          auto res = range.contains(SqpRange{impl->m_CacheRange.m_TStart, impl->m_CacheRange.m_TEnd});

          impl->unlock();

          return res;

      }

      QVector<SqpRange> Variable::provideNotInCacheRangeList(const SqpRange &range) const noexcept

      {

          auto notInCache = QVector<SqpRange>{};

          if (!this->cacheContains(range)) {

              if (range.m_TEnd <= impl->m_CacheRange.m_TStart

                  || range.m_TStart >= impl->m_CacheRange.m_TEnd) {

                  notInCache << range;

              }

              else if (range.m_TStart < impl->m_CacheRange.m_TStart

                       && range.m_TEnd <= impl->m_CacheRange.m_TEnd) {

                  notInCache << SqpRange{range.m_TStart, impl->m_CacheRange.m_TStart};

              }

              else if (range.m_TStart < impl->m_CacheRange.m_TStart

                       && range.m_TEnd > impl->m_CacheRange.m_TEnd) {

                  notInCache << SqpRange{range.m_TStart, impl->m_CacheRange.m_TStart}

                             << SqpRange{impl->m_CacheRange.m_TEnd, range.m_TEnd};

              }

              else if (range.m_TStart < impl->m_CacheRange.m_TEnd) {

                  notInCache << SqpRange{impl->m_CacheRange.m_TEnd, range.m_TEnd};

              }

              else {

                  qCCritical(LOG_Variable()) << tr("Detection of unknown case.")

                                             << QThread::currentThread();

              }

          }

          return notInCache;

      }

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				#include "Variable/Variable.h"

				#include <Data/IDataSeries.h>
				#include <Data/SqpRange.h>

				#include <QMutex>
				#include <QReadWriteLock>
				#include <QThread>

				Q_LOGGING_CATEGORY(LOG_Variable, "Variable")

				struct Variable::VariablePrivate {
				explicit VariablePrivate(const QString &name, const SqpRange &dateTime,
				const QVariantHash &metadata)
				: m_Name{name}, m_Range{dateTime}, m_Metadata{metadata}, m_DataSeries{nullptr}
				{
				}

				void lockRead() { m_Lock.lockForRead(); }
				void lockWrite() { m_Lock.lockForWrite(); }
				void unlock() { m_Lock.unlock(); }

				QString m_Name;

				SqpRange m_Range;
				SqpRange m_CacheRange;
				QVariantHash m_Metadata;
				std::shared_ptr<IDataSeries> m_DataSeries;

				QReadWriteLock m_Lock;
				};

				Variable::Variable(const QString &name, const SqpRange &dateTime, const QVariantHash &metadata)
				: impl{spimpl::make_unique_impl<VariablePrivate>(name, dateTime, metadata)}
				{
				}

				QString Variable::name() const noexcept
				{
				impl->lockRead();
				auto name = impl->m_Name;
				impl->unlock();
				return name;
				}

				SqpRange Variable::range() const noexcept
				{
				impl->lockRead();
				auto range = impl->m_Range;
				impl->unlock();
				return range;
				}

				void Variable::setRange(const SqpRange &range) noexcept
				{
				impl->lockWrite();
				impl->m_Range = range;
				impl->unlock();
				}

				SqpRange Variable::cacheRange() const noexcept
				{
				impl->lockRead();
				auto cacheRange = impl->m_CacheRange;
				impl->unlock();
				return cacheRange;
				}

				void Variable::setCacheRange(const SqpRange &cacheRange) noexcept
				{
				impl->lockWrite();
				impl->m_CacheRange = cacheRange;
				impl->unlock();
				}

				void Variable::setDataSeries(std::shared_ptr<IDataSeries> dataSeries) noexcept
				{
				qCDebug(LOG_Variable()) << "TORM Variable::setDataSeries"
				<< QThread::currentThread()->objectName();
				if (!dataSeries) {
				/// @todo ALX : log
				return;
				}
				impl->lockWrite();
				impl->m_DataSeries = dataSeries->clone();
				impl->unlock();
				}

				void Variable::mergeDataSeries(std::shared_ptr<IDataSeries> dataSeries) noexcept
				{
				qCDebug(LOG_Variable()) << "TORM Variable::mergeDataSeries"
				<< QThread::currentThread()->objectName();
				if (!dataSeries) {
				/// @todo ALX : log
				return;
				}

				// Add or merge the data
				// Inits the data series of the variable
				impl->lockWrite();
				if (!impl->m_DataSeries) {
				impl->m_DataSeries = dataSeries->clone();
				}
				else {
				impl->m_DataSeries->merge(dataSeries.get());
				}
				impl->unlock();

				// sub the data
				auto subData = this->dataSeries()->subDataSeries(this->cacheRange());
				qCDebug(LOG_Variable()) << "TORM: Variable::mergeDataSeries sub" << subData->range();
				this->setDataSeries(subData);
				qCDebug(LOG_Variable()) << "TORM: Variable::mergeDataSeries set" << this->dataSeries()->range();
				}

				std::shared_ptr<IDataSeries> Variable::dataSeries() const noexcept
				{
				impl->lockRead();
				auto dataSeries = impl->m_DataSeries;
				impl->unlock();

				return dataSeries;
				}

				QVariantHash Variable::metadata() const noexcept
				{
				impl->lockRead();
				auto metadata = impl->m_Metadata;
				impl->unlock();
				return metadata;
				}

				bool Variable::contains(const SqpRange &range) const noexcept
				{
				impl->lockRead();
				auto res = impl->m_Range.contains(range);
				impl->unlock();
				return res;
				}

				bool Variable::intersect(const SqpRange &range) const noexcept
				{

				impl->lockRead();
				auto res = impl->m_Range.intersect(range);
				impl->unlock();
				return res;
				}

				bool Variable::isInside(const SqpRange &range) const noexcept
				{
				impl->lockRead();
				auto res = range.contains(SqpRange{impl->m_Range.m_TStart, impl->m_Range.m_TEnd});
				impl->unlock();
				return res;
				}

				bool Variable::cacheContains(const SqpRange &range) const noexcept
				{
				impl->lockRead();
				auto res = impl->m_CacheRange.contains(range);
				impl->unlock();
				return res;
				}

				bool Variable::cacheIntersect(const SqpRange &range) const noexcept
				{
				impl->lockRead();
				auto res = impl->m_CacheRange.intersect(range);
				impl->unlock();
				return res;
				}

				bool Variable::cacheIsInside(const SqpRange &range) const noexcept
				{
				impl->lockRead();
				auto res = range.contains(SqpRange{impl->m_CacheRange.m_TStart, impl->m_CacheRange.m_TEnd});
				impl->unlock();
				return res;
				}


				QVector<SqpRange> Variable::provideNotInCacheRangeList(const SqpRange &range) const noexcept
				{
				auto notInCache = QVector<SqpRange>{};

				if (!this->cacheContains(range)) {
				if (range.m_TEnd <= impl->m_CacheRange.m_TStart
				\|\| range.m_TStart >= impl->m_CacheRange.m_TEnd) {
				notInCache << range;
				}
				else if (range.m_TStart < impl->m_CacheRange.m_TStart
				&& range.m_TEnd <= impl->m_CacheRange.m_TEnd) {
				notInCache << SqpRange{range.m_TStart, impl->m_CacheRange.m_TStart};
				}
				else if (range.m_TStart < impl->m_CacheRange.m_TStart
				&& range.m_TEnd > impl->m_CacheRange.m_TEnd) {
				notInCache << SqpRange{range.m_TStart, impl->m_CacheRange.m_TStart}
				<< SqpRange{impl->m_CacheRange.m_TEnd, range.m_TEnd};
				}
				else if (range.m_TStart < impl->m_CacheRange.m_TEnd) {
				notInCache << SqpRange{impl->m_CacheRange.m_TEnd, range.m_TEnd};
				}
				else {
				qCCritical(LOG_Variable()) << tr("Detection of unknown case.")
				<< QThread::currentThread();
				}
				}

				return notInCache;
				}