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#ifndef SCIQLOP_DATASERIES_H
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#define SCIQLOP_DATASERIES_H
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#include "CoreGlobal.h"
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#include <Common/SortUtils.h>
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#include <Data/ArrayData.h>
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#include <Data/IDataSeries.h>
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#include <QLoggingCategory>
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#include <QReadLocker>
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#include <QReadWriteLock>
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#include <memory>
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// We don't use the Qt macro since the log is used in the header file, which causes multiple log
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// definitions with inheritance. Inline method is used instead
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inline const QLoggingCategory &LOG_DataSeries()
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{
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static const QLoggingCategory category{"DataSeries"};
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return category;
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}
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/**
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* @brief The DataSeries class is the base (abstract) implementation of IDataSeries.
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*
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* It proposes to set a dimension for the values data.
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*
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* A DataSeries is always sorted on its x-axis data.
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*
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* @tparam Dim The dimension of the values data
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*
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*/
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template <int Dim>
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class SCIQLOP_CORE_EXPORT DataSeries : public IDataSeries {
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public:
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class IteratorValue {
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public:
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explicit IteratorValue(const DataSeries &dataSeries, bool begin)
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: m_XIt(begin ? dataSeries.xAxisData()->cbegin() : dataSeries.xAxisData()->cend()),
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m_ValuesIt(begin ? dataSeries.valuesData()->cbegin()
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: dataSeries.valuesData()->cend())
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{
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}
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double x() const { return m_XIt->at(0); }
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double value() const { return m_ValuesIt->at(0); }
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double value(int componentIndex) const { return m_ValuesIt->at(componentIndex); }
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void next()
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{
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++m_XIt;
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++m_ValuesIt;
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}
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bool operator==(const IteratorValue &other) const
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{
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return std::tie(m_XIt, m_ValuesIt) == std::tie(other.m_XIt, other.m_ValuesIt);
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}
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private:
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ArrayData<1>::Iterator m_XIt;
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typename ArrayData<Dim>::Iterator m_ValuesIt;
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};
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class Iterator {
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public:
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using iterator_category = std::forward_iterator_tag;
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using value_type = const IteratorValue;
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using difference_type = std::ptrdiff_t;
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using pointer = value_type *;
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using reference = value_type &;
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Iterator(const DataSeries &dataSeries, bool begin) : m_CurrentValue{dataSeries, begin} {}
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virtual ~Iterator() noexcept = default;
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Iterator(const Iterator &) = default;
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Iterator(Iterator &&) = default;
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Iterator &operator=(const Iterator &) = default;
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Iterator &operator=(Iterator &&) = default;
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Iterator &operator++()
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{
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m_CurrentValue.next();
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return *this;
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}
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pointer operator->() const { return &m_CurrentValue; }
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reference operator*() const { return m_CurrentValue; }
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bool operator==(const Iterator &other) const
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{
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return m_CurrentValue == other.m_CurrentValue;
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}
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bool operator!=(const Iterator &other) const { return !(*this == other); }
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private:
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IteratorValue m_CurrentValue;
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};
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/// @sa IDataSeries::xAxisData()
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std::shared_ptr<ArrayData<1> > xAxisData() override { return m_XAxisData; }
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const std::shared_ptr<ArrayData<1> > xAxisData() const { return m_XAxisData; }
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/// @sa IDataSeries::xAxisUnit()
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Unit xAxisUnit() const override { return m_XAxisUnit; }
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/// @return the values dataset
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std::shared_ptr<ArrayData<Dim> > valuesData() { return m_ValuesData; }
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const std::shared_ptr<ArrayData<Dim> > valuesData() const { return m_ValuesData; }
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/// @sa IDataSeries::valuesUnit()
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Unit valuesUnit() const override { return m_ValuesUnit; }
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SqpRange range() const override
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{
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if (!m_XAxisData->cdata().isEmpty()) {
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return SqpRange{m_XAxisData->cdata().first(), m_XAxisData->cdata().last()};
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}
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return SqpRange{};
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}
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void clear()
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{
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m_XAxisData->clear();
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m_ValuesData->clear();
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}
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/// Merges into the data series an other data series
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/// @remarks the data series to merge with is cleared after the operation
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void merge(IDataSeries *dataSeries) override
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{
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dataSeries->lockWrite();
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lockWrite();
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if (auto other = dynamic_cast<DataSeries<Dim> *>(dataSeries)) {
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const auto &otherXAxisData = other->xAxisData()->cdata();
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const auto &xAxisData = m_XAxisData->cdata();
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// As data series are sorted, we can improve performances of merge, by call the sort
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// method only if the two data series overlap.
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if (!otherXAxisData.empty()) {
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auto firstValue = otherXAxisData.front();
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auto lastValue = otherXAxisData.back();
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auto xAxisDataBegin = xAxisData.cbegin();
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auto xAxisDataEnd = xAxisData.cend();
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bool prepend;
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bool sortNeeded;
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if (std::lower_bound(xAxisDataBegin, xAxisDataEnd, firstValue) == xAxisDataEnd) {
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// Other data series if after data series
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prepend = false;
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sortNeeded = false;
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}
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else if (std::upper_bound(xAxisDataBegin, xAxisDataEnd, lastValue)
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== xAxisDataBegin) {
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// Other data series if before data series
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prepend = true;
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sortNeeded = false;
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}
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else {
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// The two data series overlap
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prepend = false;
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sortNeeded = true;
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}
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// Makes the merge
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m_XAxisData->add(*other->xAxisData(), prepend);
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m_ValuesData->add(*other->valuesData(), prepend);
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if (sortNeeded) {
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sort();
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}
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}
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// Clears the other data series
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other->clear();
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}
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else {
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qCWarning(LOG_DataSeries())
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<< QObject::tr("Detection of a type of IDataSeries we cannot merge with !");
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}
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unlock();
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dataSeries->unlock();
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}
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// ///////// //
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// Iterators //
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// ///////// //
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Iterator cbegin() const { return Iterator{*this, true}; }
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Iterator cend() const { return Iterator{*this, false}; }
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std::pair<Iterator, Iterator> subData(double min, double max) const
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{
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if (min > max) {
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std::swap(min, max);
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}
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auto begin = cbegin();
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auto end = cend();
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auto lowerIt
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= std::lower_bound(begin, end, min, [](const auto &itValue, const auto &value) {
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return itValue.x() < value;
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});
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auto upperIt
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= std::upper_bound(begin, end, max, [](const auto &value, const auto &itValue) {
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return value < itValue.x();
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});
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return std::make_pair(lowerIt, upperIt);
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}
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// /////// //
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// Mutexes //
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// /////// //
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virtual void lockRead() { m_Lock.lockForRead(); }
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virtual void lockWrite() { m_Lock.lockForWrite(); }
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virtual void unlock() { m_Lock.unlock(); }
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protected:
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/// Protected ctor (DataSeries is abstract). The vectors must have the same size, otherwise a
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/// DataSeries with no values will be created.
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/// @remarks data series is automatically sorted on its x-axis data
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explicit DataSeries(std::shared_ptr<ArrayData<1> > xAxisData, const Unit &xAxisUnit,
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std::shared_ptr<ArrayData<Dim> > valuesData, const Unit &valuesUnit)
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: m_XAxisData{xAxisData},
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m_XAxisUnit{xAxisUnit},
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m_ValuesData{valuesData},
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m_ValuesUnit{valuesUnit}
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{
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if (m_XAxisData->size() != m_ValuesData->size()) {
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clear();
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}
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// Sorts data if it's not the case
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const auto &xAxisCData = m_XAxisData->cdata();
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if (!std::is_sorted(xAxisCData.cbegin(), xAxisCData.cend())) {
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sort();
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}
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}
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/// Copy ctor
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explicit DataSeries(const DataSeries<Dim> &other)
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: m_XAxisData{std::make_shared<ArrayData<1> >(*other.m_XAxisData)},
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m_XAxisUnit{other.m_XAxisUnit},
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m_ValuesData{std::make_shared<ArrayData<Dim> >(*other.m_ValuesData)},
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m_ValuesUnit{other.m_ValuesUnit}
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{
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// Since a series is ordered from its construction and is always ordered, it is not
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// necessary to call the sort method here ('other' is sorted)
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}
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/// Assignment operator
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template <int D>
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DataSeries &operator=(DataSeries<D> other)
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{
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std::swap(m_XAxisData, other.m_XAxisData);
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std::swap(m_XAxisUnit, other.m_XAxisUnit);
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std::swap(m_ValuesData, other.m_ValuesData);
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std::swap(m_ValuesUnit, other.m_ValuesUnit);
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return *this;
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}
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private:
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/**
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* Sorts data series on its x-axis data
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*/
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void sort() noexcept
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{
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auto permutation = SortUtils::sortPermutation(*m_XAxisData, std::less<double>());
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m_XAxisData = m_XAxisData->sort(permutation);
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m_ValuesData = m_ValuesData->sort(permutation);
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}
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std::shared_ptr<ArrayData<1> > m_XAxisData;
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Unit m_XAxisUnit;
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std::shared_ptr<ArrayData<Dim> > m_ValuesData;
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Unit m_ValuesUnit;
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QReadWriteLock m_Lock;
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};
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#endif // SCIQLOP_DATASERIES_H
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