2023-06-20 04:33:09 +00:00
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#ifndef STAR_PARAMETRIC_FUNCTION_HPP
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#define STAR_PARAMETRIC_FUNCTION_HPP
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#include "StarInterpolation.hpp"
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namespace Star {
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// Describes a simple table from index to value, which operates on bins
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// corresponding to ranges of indexes. IndexType can be any ordered type,
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// ValueType can be anything.
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template <typename IndexType, typename ValueType = IndexType>
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class ParametricTable {
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public:
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typedef IndexType Index;
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typedef ValueType Value;
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ParametricTable();
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template <typename OtherIndexType, typename OtherValueType>
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explicit ParametricTable(ParametricTable<OtherIndexType, OtherValueType> const& parametricFunction);
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// Construct a ParametricTable with a list of point pairs, which does not
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// have to be sorted (it will be sorted internally). Throws an exception on
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// duplicate index values.
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template <typename PairContainer>
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explicit ParametricTable(PairContainer indexValuePairs);
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// addPoint does not need to be called in order, it will insert the point in
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// the correct ordered position for the given index, and return the position.
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size_t addPoint(IndexType index, ValueType value);
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void clearPoints();
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size_t size() const;
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bool empty() const;
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IndexType const& index(size_t i) const;
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ValueType const& value(size_t i) const;
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// Returns true if the values of the table are also valid indexes (true when
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// the data points are monotonic increasing)
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bool isInvertible() const;
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// Invert the table, switching indexes and values. Throws an exception if
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// the function is not invertible. Will not generally compile unless the
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// Index and Value types are the same type.
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void invert() const;
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// Find the value to the left of the given index. If the index is lower than
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// the lowest index point, returns the first value.
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ValueType const& get(IndexType index) const;
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protected:
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typedef std::vector<IndexType> IndexList;
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typedef std::vector<ValueType> ValueList;
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IndexList const& indexes() const;
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ValueList const& values() const;
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private:
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IndexList m_indexes;
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ValueList m_values;
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};
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// Extension of ParametricTable that simplifies of all the complex
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// interpolation code for interpolating an ordered list of points. Useful for
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// describing a simple 2d or n-dimensional (using VectorN for value type) curve
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// of one variable. IndexType should generally be float or double, and
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// ValueType can be any type that can be interpolated.
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template <typename IndexType, typename ValueType = IndexType>
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class ParametricFunction : public ParametricTable<IndexType, ValueType> {
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public:
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typedef ParametricTable<IndexType, ValueType> Base;
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ParametricFunction(
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InterpolationMode interpolationMode = InterpolationMode::Linear, BoundMode boundMode = BoundMode::Clamp);
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template <typename OtherIndexType, typename OtherValueType>
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explicit ParametricFunction(ParametricFunction<OtherIndexType, OtherValueType> const& parametricFunction);
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template <typename PairContainer>
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explicit ParametricFunction(PairContainer indexValuePairs,
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InterpolationMode interpolationMode = InterpolationMode::Linear,
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BoundMode boundMode = BoundMode::Clamp);
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InterpolationMode interpolationMode() const;
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void setInterpolationMode(InterpolationMode interpolationType);
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BoundMode boundMode() const;
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void setBoundMode(BoundMode boundMode);
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// Interpolates a value at the given index according to the interpolation and
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// bound mode.
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ValueType interpolate(IndexType index) const;
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// Synonym for interpolate
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ValueType operator()(IndexType index) const;
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private:
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InterpolationMode m_interpolationMode;
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BoundMode m_boundMode;
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};
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template <typename IndexType, typename ValueType>
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ParametricTable<IndexType, ValueType>::ParametricTable() {}
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template <typename IndexType, typename ValueType>
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template <typename OtherIndexType, typename OtherValueType>
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ParametricTable<IndexType, ValueType>::ParametricTable(
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ParametricTable<OtherIndexType, OtherValueType> const& parametricTable) {
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for (size_t i = 0; i < parametricTable.size(); ++i) {
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m_indexes.push_back(parametricTable.index(i));
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m_values.push_back(parametricTable.value(i));
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}
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}
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template <typename IndexType, typename ValueType>
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template <typename PairContainer>
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ParametricTable<IndexType, ValueType>::ParametricTable(PairContainer indexValuePairs) {
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if (indexValuePairs.empty())
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return;
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sort(indexValuePairs,
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[](typename PairContainer::value_type const& a, typename PairContainer::value_type const& b) {
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return std::get<0>(a) < std::get<0>(b);
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});
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2023-06-26 18:48:27 +00:00
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for (auto const& pair : indexValuePairs) {
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2023-06-20 04:33:09 +00:00
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m_indexes.push_back(move(std::get<0>(pair)));
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m_values.push_back(move(std::get<1>(pair)));
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}
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for (size_t i = 0; i < size() - 1; ++i) {
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if (m_indexes[i] == m_indexes[i + 1])
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throw MathException("Degenerate index values given in ParametricTable constructor");
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}
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}
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template <typename IndexType, typename ValueType>
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size_t ParametricTable<IndexType, ValueType>::addPoint(IndexType index, ValueType value) {
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size_t insertLocation = std::distance(m_indexes.begin(), std::upper_bound(m_indexes.begin(), m_indexes.end(), index));
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m_indexes.insert(m_indexes.begin() + insertLocation, move(index));
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m_values.insert(m_values.begin() + insertLocation, move(value));
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return insertLocation;
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}
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template <typename IndexType, typename ValueType>
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void ParametricTable<IndexType, ValueType>::clearPoints() {
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m_indexes.clear();
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m_values.clear();
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}
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template <typename IndexType, typename ValueType>
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size_t ParametricTable<IndexType, ValueType>::size() const {
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return m_indexes.size();
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}
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template <typename IndexType, typename ValueType>
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bool ParametricTable<IndexType, ValueType>::empty() const {
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return size() == 0;
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}
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template <typename IndexType, typename ValueType>
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IndexType const& ParametricTable<IndexType, ValueType>::index(size_t i) const {
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return m_indexes.at(i);
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}
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template <typename IndexType, typename ValueType>
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ValueType const& ParametricTable<IndexType, ValueType>::value(size_t i) const {
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return m_values.at(i);
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}
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template <typename IndexType, typename ValueType>
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bool ParametricTable<IndexType, ValueType>::isInvertible() const {
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if (empty())
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return true;
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for (size_t i = 0; i < size() - 1; ++i) {
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if (m_values[i] > m_values[i + 1])
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return false;
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}
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return true;
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}
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template <typename IndexType, typename ValueType>
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void ParametricTable<IndexType, ValueType>::invert() const {
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if (isInvertible())
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throw MathException("invert() called on non-invertible ParametricTable");
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for (size_t i = 0; i < size(); ++i)
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std::swap(m_indexes[i], m_values[i]);
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}
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template <typename IndexType, typename ValueType>
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ValueType const& ParametricTable<IndexType, ValueType>::get(IndexType index) const {
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if (empty())
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throw MathException("get called on empty ParametricTable");
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auto i = std::lower_bound(m_indexes.begin(), m_indexes.end(), index);
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if (i != m_indexes.begin())
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--i;
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return m_values[std::distance(m_indexes.begin(), i)];
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}
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template <typename IndexType, typename ValueType>
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auto ParametricTable<IndexType, ValueType>::indexes() const -> IndexList const & {
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return m_indexes;
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}
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template <typename IndexType, typename ValueType>
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auto ParametricTable<IndexType, ValueType>::values() const -> ValueList const & {
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return m_values;
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}
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template <typename IndexType, typename ValueType>
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ParametricFunction<IndexType, ValueType>::ParametricFunction(InterpolationMode interpolationMode, BoundMode boundMode)
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: m_interpolationMode(interpolationMode), m_boundMode(boundMode) {}
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template <typename IndexType, typename ValueType>
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template <typename OtherIndexType, typename OtherValueType>
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ParametricFunction<IndexType, ValueType>::ParametricFunction(
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ParametricFunction<OtherIndexType, OtherValueType> const& parametricFunction)
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: Base(parametricFunction) {
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m_interpolationMode = parametricFunction.interpolationMode();
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m_boundMode = parametricFunction.boundMode();
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}
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template <typename IndexType, typename ValueType>
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template <typename PairContainer>
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ParametricFunction<IndexType, ValueType>::ParametricFunction(
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PairContainer indexValuePairs, InterpolationMode interpolationMode, BoundMode boundMode)
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: Base(indexValuePairs) {
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m_interpolationMode = interpolationMode;
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m_boundMode = boundMode;
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}
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template <typename IndexType, typename ValueType>
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InterpolationMode ParametricFunction<IndexType, ValueType>::interpolationMode() const {
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return m_interpolationMode;
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}
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template <typename IndexType, typename ValueType>
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void ParametricFunction<IndexType, ValueType>::setInterpolationMode(InterpolationMode interpolationType) {
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m_interpolationMode = interpolationType;
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}
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template <typename IndexType, typename ValueType>
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BoundMode ParametricFunction<IndexType, ValueType>::boundMode() const {
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return m_boundMode;
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}
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template <typename IndexType, typename ValueType>
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void ParametricFunction<IndexType, ValueType>::setBoundMode(BoundMode boundMode) {
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m_boundMode = boundMode;
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}
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template <typename IndexType, typename ValueType>
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ValueType ParametricFunction<IndexType, ValueType>::interpolate(IndexType index) const {
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if (Base::empty())
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return ValueType();
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if (m_interpolationMode == InterpolationMode::HalfStep) {
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return parametricInterpolate2(Base::indexes(), Base::values(), index, StepWeightOperator<IndexType>(), m_boundMode);
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} else if (m_interpolationMode == InterpolationMode::Linear) {
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return parametricInterpolate2(
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Base::indexes(), Base::values(), index, LinearWeightOperator<IndexType>(), m_boundMode);
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} else if (m_interpolationMode == InterpolationMode::Cubic) {
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// ParametricFunction uses CubicWeights with linear extrapolation (not
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// configurable atm)
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return parametricInterpolate4(
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Base::indexes(), Base::values(), index, Cubic4WeightOperator<IndexType>(true), m_boundMode);
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} else {
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throw MathException("Unsupported interpolation type in ParametricFunction::interpolate");
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}
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}
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template <typename IndexType, typename ValueType>
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ValueType ParametricFunction<IndexType, ValueType>::operator()(IndexType index) const {
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return interpolate(index);
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}
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}
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#endif
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