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Fixed all tests \o/ with new TS impl...
Fixed all tests \o/ with new TS impl Signed-off-by: Alexis Jeandet <alexis.jeandet@member.fsf.org>
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DateTimeRange.h
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/ include / Data / DateTimeRange.h
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#ifndef SCIQLOP_DATETIMERANGE_H
#define SCIQLOP_DATETIMERANGE_H
#include <Common/DateUtils.h>
#include <Common/MetaTypes.h>
#include <Common/Numeric.h>
#include <QDebug>
#include <QObject>
#include <cmath>
#include <opaque/numeric_typedef.hpp>
template<typename T>
struct Seconds
: opaque::numeric_typedef<T, Seconds<T>>,
opaque::binop::multipliable<Seconds<T>, true, Seconds<T>, T, T>,
opaque::binop::dividable<Seconds<T>, true, Seconds<T>, T, T>,
opaque::binop::addable<Seconds<T>, true, Seconds<T>, T, T>,
opaque::binop::subtractable<Seconds<T>, true, Seconds<T>, T, T>
{
using base = opaque::numeric_typedef<T, Seconds<T>>;
using base::base;
operator T() const { return this->value; }
};
struct InvalidDateTimeRangeTransformation
{};
struct DateTimeRangeTransformation
{
double zoom;
Seconds<double> shift;
bool operator==(const DateTimeRangeTransformation& other) const
{
return SciQLop::numeric::almost_equal(zoom, other.zoom, 1) &&
SciQLop::numeric::almost_equal<double>(shift, other.shift, 1);
}
DateTimeRangeTransformation
merge(const DateTimeRangeTransformation& other) const
{
return DateTimeRangeTransformation{zoom * other.zoom, shift + other.shift};
}
};
/**
* @brief The SqpRange struct holds the information of time parameters
*/
struct DateTimeRange
{
DateTimeRange() : m_TStart(std::nan("")), m_TEnd(std::nan("")) {}
DateTimeRange(double TStart, double TEnd) : m_TStart(TStart), m_TEnd(TEnd) {}
DateTimeRange(const std::pair<double, double>& range)
: m_TStart(range.first), m_TEnd(range.second)
{}
/// Creates SqpRange from dates and times
static DateTimeRange fromDateTime(const QDate& startDate,
const QTime& startTime,
const QDate& endDate, const QTime& endTime)
{
return {
DateUtils::secondsSinceEpoch(QDateTime{startDate, startTime, Qt::UTC}),
DateUtils::secondsSinceEpoch(QDateTime{endDate, endTime, Qt::UTC})};
}
static DateTimeRange fromDateTime(const QDateTime& start,
const QDateTime& end)
{
return {DateUtils::secondsSinceEpoch(start),
DateUtils::secondsSinceEpoch(end)};
}
/// Start time (UTC)
double m_TStart;
/// End time (UTC)
double m_TEnd;
Seconds<double> delta() const noexcept
{
return Seconds<double>{this->m_TEnd - this->m_TStart};
}
bool contains(const DateTimeRange& dateTime) const noexcept
{
return (m_TStart <= dateTime.m_TStart && m_TEnd >= dateTime.m_TEnd);
}
Seconds<double> center() const noexcept
{
return Seconds<double>((m_TStart + m_TEnd) / 2.);
}
bool intersect(const DateTimeRange& dateTime) const noexcept
{
return (m_TEnd >= dateTime.m_TStart && m_TStart <= dateTime.m_TEnd);
}
inline DateTimeRange transform(const DateTimeRangeTransformation& tr) const
noexcept;
bool operator==(const DateTimeRange& other) const
{
return SciQLop::numeric::almost_equal(m_TStart, other.m_TStart, 1) &&
SciQLop::numeric::almost_equal(m_TEnd, other.m_TEnd, 1);
}
bool operator!=(const DateTimeRange& other) const
{
return !(*this == other);
}
void grow(double factor) noexcept
{
double grow_v{delta() * (factor - 1.) / 2.};
m_TStart -= grow_v;
m_TEnd += grow_v;
}
void shrink(double factor) noexcept
{
double shrink_v{this->delta() * (1. - factor) / 2.};
m_TStart += shrink_v;
m_TEnd -= shrink_v;
}
DateTimeRange& operator*=(double k)
{
this->grow(k);
return *this;
}
DateTimeRange& operator/=(double k)
{
this->shrink(k);
return *this;
}
// compute set difference
std::vector<DateTimeRange> operator-(const DateTimeRange& other) const
{
std::vector<DateTimeRange> result;
if(std::isnan(other.m_TStart) || std::isnan(other.m_TEnd) ||
!this->intersect(other))
{ result.emplace_back(m_TStart, m_TEnd); }
else
{
if(this->m_TStart < other.m_TStart)
{ result.emplace_back(this->m_TStart, other.m_TStart); }
if(this->m_TEnd > other.m_TEnd)
{ result.emplace_back(other.m_TEnd, this->m_TEnd); }
}
return result;
}
};
template<class T> DateTimeRange& operator+=(DateTimeRange& r, Seconds<T> offset)
{
shift(r, offset);
return r;
}
template<class T> DateTimeRange& operator-=(DateTimeRange& r, Seconds<T> offset)
{
shift(r, -offset);
return r;
}
template<class T> void shift(DateTimeRange& r, Seconds<T> offset)
{
r.m_TEnd += static_cast<double>(offset);
r.m_TStart += static_cast<double>(offset);
}
inline DateTimeRange operator*(const DateTimeRange& r, double k)
{
DateTimeRange result{r};
result.grow(k);
return result;
}
inline DateTimeRange operator/(const DateTimeRange& r, double k)
{
DateTimeRange result{r};
result.shrink(k);
return result;
}
template<class T>
DateTimeRange operator+(const DateTimeRange& r, Seconds<T> offset)
{
DateTimeRange result{r};
shift(result, offset);
return result;
}
template<class T>
DateTimeRange operator-(const DateTimeRange& r, Seconds<T> offset)
{
DateTimeRange result{r};
shift(result, -offset);
return result;
}
const auto INVALID_RANGE =
DateTimeRange{std::numeric_limits<double>::quiet_NaN(),
std::numeric_limits<double>::quiet_NaN()};
inline QDebug operator<<(QDebug d, DateTimeRange obj)
{
auto tendDateTimeStart = DateUtils::dateTime(obj.m_TStart);
auto tendDateTimeEnd = DateUtils::dateTime(obj.m_TEnd);
d << "ts: " << tendDateTimeStart << " te: " << tendDateTimeEnd;
return d;
}
DateTimeRange
DateTimeRange::transform(const DateTimeRangeTransformation& tr) const noexcept
{
return DateTimeRange{*this} * tr.zoom + tr.shift;
}
// Required for using shared_ptr in signals/slots
SCIQLOP_REGISTER_META_TYPE(SQPRANGE_REGISTRY, DateTimeRange)
#endif // SCIQLOP_DATETIMERANGE_H