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Add Apple runtime config to find CatalogueAPI at runtime when building with cmake
Add Apple runtime config to find CatalogueAPI at runtime when building with cmake
Alexandre Leroux - - Load All Authors

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r1031:958f5923ee65
r1099:124e87e46711
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OptionalAxis.cpp
107 lines | 2.6 KiB | text/x-c | CppLexer
/ core / src / Data / OptionalAxis.cpp
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#include <Data/OptionalAxis.h>
#include "Data/ArrayData.h"
OptionalAxis::OptionalAxis()
: m_Defined{false}, m_Data{std::make_shared<ArrayData<1> >(std::vector<double>{})}, 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}, 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;
}
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);
}
ArrayDataIterator OptionalAxis::begin()
{
return m_Data->begin();
}
ArrayDataIterator OptionalAxis::end()
{
return m_Data->end();
}
ArrayDataIterator OptionalAxis::cbegin() const
{
return m_Data->cbegin();
}
ArrayDataIterator OptionalAxis::cend() const
{
return m_Data->cend();
}