#pragma once
#include "basedata.h"

class Simple2DData: public BaseData
{
 real   x0 = 0.0, y0 = 0.0;
 size_t nx = 0, ny = 0;
 real   xstep = 0.0, ystep = 0.0;

 public:
 using BaseData::IsFill;
 using BaseData::V;
 using BaseData::operator();
 Simple2DData() = default;

 Simple2DData(size_t nx_, size_t ny_, real x0_, real y0_, real xs_, real ys_, MString&& unit = ""):
     BaseData(nx_ * ny_, std::move(unit)), x0(x0_), y0(y0_), nx(nx_), ny(ny_), xstep(xs_), ystep(ys_)
 {
 }

 Simple2DData CopyGrid() const { return {nx, ny, x0, y0, xstep, ystep}; }

 const real& V(size_t ix, size_t iy) const { return V(iy * nx + ix); }
 real&       V(size_t ix, size_t iy) { return V(iy * nx + ix); }

 const real& operator()(size_t ix, size_t iy) const { return V(iy * nx + ix); }
 real&       operator()(size_t ix, size_t iy) { return V(iy * nx + ix); }

 size_t Nx() const { return nx; }
 size_t Ny() const { return ny; }

 bool IsFill(size_t ix, size_t iy) const { return IsFill(iy * nx + ix); }

 real Lon(size_t ix, [[maybe_unused]] size_t iy) const { return x0 + ix * xstep; }
 real Lat([[maybe_unused]] size_t ix, size_t iy) const { return y0 + iy * ystep; }

 real Lon(size_t i) const { return Lon(i % nx, i / nx); }
 real Lat(size_t i) const { return Lat(i % nx, i / nx); }

 real Ix2Lon(size_t ix) const { return x0 + ix * xstep; }
 real Iy2Lat(size_t iy) const { return y0 + iy * ystep; }

 real XStep() const { return xstep; }
 real YStep() const { return ystep; }
};

class Rect2DData: public BaseData
{
 std::vector<real> lon, lat;

 public:
 using BaseData::IsFill;
 using BaseData::V;
 using BaseData::operator();
 Rect2DData() = default;

 Rect2DData(const std::vector<real>& lons, const std::vector<real>& lats, MString&& unit = ""): BaseData(lons.size() * lats.size(), std::move(unit)), lon(lons), lat(lats) {}

 const real& V(size_t ix, size_t iy) const { return V(iy * Nx() + ix); }
 real&       V(size_t ix, size_t iy) { return V(iy * Nx() + ix); }

 const real& operator()(size_t ix, size_t iy) const { return V(iy * Nx() + ix); }
 real&       operator()(size_t ix, size_t iy) { return V(iy * Nx() + ix); }

 size_t Nx() const { return lon.size(); }
 size_t Ny() const { return lat.size(); }

 bool IsFill(size_t ix, size_t iy) const { return IsFill(iy * Nx() + ix); }

 real Lon(size_t ix, [[maybe_unused]] size_t iy) const { return lon[ix]; }
 real Lat([[maybe_unused]] size_t ix, size_t iy) const { return lat[iy]; }

 real Lon(size_t i) const { return Lon(i % Nx(), i / Nx()); }
 real Lat(size_t i) const { return Lat(i % Nx(), i / Nx()); }

 real Ix2Lon(size_t ix) const { return lon[ix]; }
 real Iy2Lat(size_t iy) const { return lat[iy]; }
};