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#pragma once
#include "traits.h"
#include <vector>
using TIndex = std::vector<size_t>;
class BaseParameters
{
public:
virtual ~BaseParameters();
};
struct Region
{
real lonb, lone, latb, late;
};
struct GridPointLocation
{
size_t ix, iy;
real x, y;
};
class BaseData
{
protected:
static constexpr real fillval = 1.0e10;
std::vector<real> data;
MString unit, stname, lname, comment;
BaseData(size_t n, MString&& unit_ = ""): data(n), unit(std::move(unit_)) {}
public:
BaseData() = default;
BaseData(const BaseData&) = delete;
BaseData(BaseData&&) = default;
BaseData& operator=(BaseData&&) = default;
const real& V(size_t i) const { return data[i]; }
real& V(size_t i) { return data[i]; }
const real& operator()(size_t i) const { return data[i]; }
real& operator()(size_t i) { return data[i]; }
size_t N() const { return data.size(); }
bool IsFill(size_t i) const { return V(i) == Fillval(); }
static real Fillval() { return fillval; }
explicit operator bool() const { return N() != 0; }
void SetUnit(const MString& str) { unit = str; }
void SetStandartName(const MString& str) { stname = str; }
void SetLongName(const MString& str) { lname = str; }
void SetComment(const MString& str) { comment = str; }
const MString& Unit() const { return unit; }
const MString& StandartName() const { return stname; }
const MString& LongName() const { return lname; }
const MString& Comment() const { return comment; }
};
class UngriddedData: public BaseData
{
std::vector<real> lons, lats;
public:
template<class Lon, class Lat> UngriddedData(size_t n, Lon genlon, Lat genlat, MString&& unit = ""): BaseData(n, std::move(unit)), lons(n), lats(n)
{
for(size_t i = 0; i < n; i++)
{
lons[i] = genlon(i);
lats[i] = genlat(i);
}
};
UngriddedData() = default;
real Lon(size_t i) const { return lons[i]; }
real Lat(size_t i) const { return lats[i]; }
};
template<class Data> class DefaultAverager: public Data
{
static constexpr bool isuv = IsUVData<Data>;
std::vector<size_t> count;
static bool DataOk(const Data* d, size_t i)
{
if constexpr(isuv)
return d->U(i) != Data::Fillval() && d->V(i) != Data::Fillval();
else
return d->V(i) != Data::Fillval();
}
public:
void Add(Data&& d)
{
if(!d) return;
if(!*this)
{
*static_cast<Data*>(this) = std::move(d);
count.resize(Data::N());
for(size_t i = 0; i < Data::N(); i++) count[i] = DataOk(this, i) ? 1 : 0;
return;
}
if(Data::N() != d.N()) return;
for(size_t i = 0; i < Data::N(); i++)
if(DataOk(&d, i))
{
if(DataOk(this, i))
{
if constexpr(isuv)
{
Data::U(i) += d.U(i);
Data::U2(i) += d.U2(i);
}
Data::V(i) += d.V(i);
count[i]++;
}
else
{
if constexpr(isuv)
{
Data::U(i) = d.U(i);
Data::U2(i) = d.U2(i);
}
Data::V(i) = d.V(i);
count[i] = 1;
}
}
}
DefaultAverager& Div()
{
if(!*this) return *this;
for(size_t i = 0; i < Data::N(); i++)
if(count[i] != 0)
{
if constexpr(isuv)
{
Data::U(i) /= count[i];
Data::U2(i) /= count[i];
}
Data::V(i) /= count[i];
}
return *this;
}
};
namespace internal
{
template<class Data, class Dummy = void> struct GetAverager_
{
using type = DefaultAverager<Data>;
};
template<class Data> struct GetAverager_<Data, void_<typename Data::Averager>>
{
using type = typename Data::Averager;
};
} // namespace internal
template<class Data> using Averager = internal::GetAverager_<Data>::type;