odm/sources/AVISOLOCAL.cpp

#define MICHLIB_NOSOURCE
#include "AVISOLOCAL.h"

MString AVISOLOCALData::Info() const
{
 if(!isOk()) return "";

 NCFileA           nc;
 struct CoordNames cn;
 struct DimNames   dn;
 std::set<MString> vars;

 nc.Reset(datapath + "/uv-" + times[0].ToString() + ".nc");
 if(!nc) return "Can't open file " + datapath + "/uv-" + times[0].ToString() + ".nc";

 GetVars(nc, vars);
 dn = GetDNames(nc);
 cn = GetCNames(nc);

 MString svars;
 {
  bool first = true;
  for(const auto& v: vars)
  {
   svars += (first ? "" : ", ") + v;
   first = false;
  }
 }

 auto lons = nc.VR(cn.lonname);
 auto lats = nc.VR(cn.latname);
 if(!(lons && lats)) return "Can't get longitudes/latitudes";

 real lonb    = lons(0);
 real latb    = lats(0);
 real lone    = lons(dn.nx - 1);
 real late    = lats(dn.ny - 1);
 real lonstep = (lone - lonb) / (dn.nx - 1);
 real latstep = (late - latb) / (dn.ny - 1);

 // clang-format off
 return
  "Dataset: " + DataTitle() + "\n" +
  " Begin date: " + Time(0).ToString() + "\n" +
  " End date: " + Time(NTimes()-1).ToString() + "\n" +
  " Time step: " + Timestep() + " seconds\n" +
  " Time moments: " + NTimes() + "\n" +
  " Region: (" + lonb + " : " + lone + ") x (" + latb + " : " + late + ")\n" +
  " Grid: " + dn.nx + "x" + dn.ny + " (" + lonstep + " x " + latstep + ")\n" +
  " Supported variables: " + svars;
 // clang-format on
}

MString AVISOLOCALData::Open(const CLArgs& args)
{
 GPL.UsePrefix("AVISOLOCAL");
 datapath = GPL.ParameterSValue("Datapath", "");
 RegExp regex("uv-([0-9]{4}-[0-9]{2}-[0-9]{2}).nc");
 regex.Compile();

 DIR*           dir = opendir(datapath.Buf());
 struct dirent* de;
 if(nullptr == dir) return "Can't open directory " + datapath;
 while((de = readdir(dir)))
 {
  if(!regex.Match(de->d_name)) continue;
  times.emplace_back(MString(de->d_name + regex.Off(1), regex.Len(1)));
 }
 closedir(dir);
 std::sort(times.begin(), times.end());
 return "";
}

std::pair<const BaseParameters*, MString> AVISOLOCALData::Parameters(michlib_internal::ParameterListEx& pars, const CLArgs& args, const struct Region& reg) const
{
 std::unique_ptr<struct Parameters> ppar{new struct Parameters};
 ppar->lonb = reg.lonb;
 ppar->lone = reg.lone;
 ppar->latb = reg.latb;
 ppar->late = reg.late;

 pars.SetParameter("lonb", ppar->lonb);
 pars.SetParameter("latb", ppar->latb);
 pars.SetParameter("lone", ppar->lone);
 pars.SetParameter("late", ppar->late);

 return {ppar.release(), ""};
}

bool AVISOLOCALData::Read(const MString& vname, std::map<MString, AVISOLOCALData::Data>& cache, const BaseParameters* ip, size_t i) const
{
 if(cache.contains(vname)) return true;
 if(!isOk()) return false;

 auto    p = dynamic_cast<const struct Parameters*>(ip);
 NCFileA nc;
 MString name    = "";
 bool    isfloat = false, isint2 = false, isint4 = false;

 nc.Reset(datapath + "/uv-" + times[i].ToString() + ".nc");
 if(!nc) return false;
 {
  auto head = nc.Header();
  for(const auto& v: head.Variables())
  {
   auto stname = nc.A<MString>(v.Name(), "standard_name");
   if(!stname) continue;
   if(StName2Name(stname) == vname)
   {
    name    = v.Name();
    isint2  = v.Type().Id() == NC_SHORT;
    isint4  = v.Type().Id() == NC_INT;
    isfloat = v.Type().Id() == NC_FLOAT;
   }
  }
 }

 if(!name.Exist()) // Conversion read
  return TransformationRead(this, vname, cache, ip, i);

 // Direct read
 Data data;
 if(isint2) data = ReadVarRaw<int2>(nc, name, p);
 if(isint4) data = ReadVarRaw<int4>(nc, name, p);
 if(isfloat) data = ReadVarRaw<float>(nc, name, p);
 if(data)
 {
  cache[vname] = std::move(data);
  return true;
 }

 return false;
}

template<class DataType> AVISOLOCALData::Data AVISOLOCALData::ReadVarRaw(const NCFileA& nc, const MString& name, const struct AVISOLOCALData::Parameters* p) const
{
 real     unitmul = 1.0;
 DataType fill;
 real     offset = 0.0, scale = 1.0;

 {
  auto a_fill     = nc.A<DataType>(name, "_FillValue");
  auto a_offset_d = nc.A<double>(name, "add_offset");
  auto a_scale_d  = nc.A<double>(name, "scale_factor");
  auto a_offset_f = nc.A<float>(name, "add_offset");
  auto a_scale_f  = nc.A<float>(name, "scale_factor");
  if(!a_fill) return Data();
  fill = a_fill;
  if(a_offset_d) offset = a_offset_d;
  if(a_scale_d) scale = a_scale_d;
  if(a_offset_f) offset = a_offset_f;
  if(a_scale_f) scale = a_scale_f;
 }

 auto cn = GetCNames(nc);
 auto dn = GetDNames(nc);

 auto lons = nc.VR(cn.lonname);
 auto lats = nc.VR(cn.latname);
 if(!(lons && lats)) return Data();

 auto lonb    = lons(0);
 auto latb    = lats(0);
 auto lone    = lons(dn.nx - 1);
 auto late    = lats(dn.ny - 1);
 auto lonstep = (lone - lonb) / (dn.nx - 1);
 auto latstep = (late - latb) / (dn.ny - 1);

 auto dom  = DetGeoDomain(lonb, lone);
 real lon1 = ToGeoDomain(p->lonb, dom);
 real lon2 = ToGeoDomain(p->lone, dom);
 real lat1 = p->latb;
 real lat2 = p->late;

 // Special case when the longitude lies in a small sector between the end and the start
 if(lon1 < lonb) lon1 = lone;
 if(lon2 > lone) lon2 = lonb;

 auto yb = static_cast<size_t>(Floor((lat1 - latb) / latstep));
 auto ye = static_cast<size_t>(Ceil((lat2 - latb) / latstep));
 if(ye > dn.ny - 1) ye = dn.ny - 1;
 if(yb >= ye) return Data();

 auto xb = static_cast<size_t>(Floor((lon1 - lonb) / lonstep));
 auto xe = static_cast<size_t>(Ceil((lon2 - lonb) / lonstep));

 if(xb == xe) return Data();

 MString unit;
 {
  auto unitatt = nc.A<MString>(name, "units");
  if(unitatt) unit = unitatt;
 }
 if(unit == "m s-1" || unit == "m/s")
 {
  unitmul = 100.0;
  unit    = "cm/s";
 }

 Data data((xb < xe) ? (xe - xb + 1) : (dn.nx + xe - xb + 1), ye - yb + 1, lons(xb), lats(yb), lonstep, latstep, std::move(unit));

 if(xb < xe)
 {
  auto var = nc.V<DataType>(name, {dn.lonname, xb, xe - xb + 1}, {dn.latname, yb, ye - yb + 1});

  if(!var) return Data();
  if(var.DimLen(0) != data.Nx() || var.DimLen(1) != data.Ny()) return Data();

  for(size_t ix = 0; ix < var.DimLen(0); ix++)
   for(size_t iy = 0; iy < var.DimLen(1); iy++)
   {
    DataType v   = var(ix, iy);
    data(ix, iy) = (v == fill) ? Data::Fillval() : ((v * scale + offset) * unitmul);
   }
 }
 else
 {
  auto var1 = nc.V<DataType>(name, {dn.lonname, xb}, {dn.latname, yb, ye - yb + 1});
  auto var2 = nc.V<DataType>(name, {dn.lonname, 0, xe + 1}, {dn.latname, yb, ye - yb + 1});

  if(!(var1 && var2)) return Data();
  if((var1.DimLen(0) + var2.DimLen(0)) != data.Nx() || var1.DimLen(1) != data.Ny() || var2.DimLen(1) != data.Ny()) return Data();
  for(size_t ix = 0; ix < var1.DimLen(0); ix++)
   for(size_t iy = 0; iy < var1.DimLen(1); iy++)
   {
    DataType v   = var1(ix, iy);
    data(ix, iy) = (v == fill) ? Data::Fillval() : ((v * scale + offset) * unitmul);
   }
  for(size_t ix = 0; ix < var2.DimLen(0); ix++)
   for(size_t iy = 0; iy < var2.DimLen(1); iy++)
   {
    DataType v                    = var2(ix, iy);
    data(ix + var1.DimLen(0), iy) = (v == fill) ? Data::Fillval() : ((v * scale + offset) * unitmul);
   }
 }
 return data;
}
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago			`#define MICHLIB_NOSOURCE`
			`#include "AVISOLOCAL.h"`

			`MString AVISOLOCALData::Info() const`
			`{`
			`if(!isOk()) return "";`

			`NCFileA nc;`
Removed some features from the NCZarr interface. Removed direct access to variables and dimensions in NCZarr, dimensions are now bound to variables. Separate CoordsNames and DimNames structures in the NCFuncs class. 3 months ago			`struct CoordNames cn;`
			`struct DimNames dn;`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago			`std::set<MString> vars;`

			`nc.Reset(datapath + "/uv-" + times[0].ToString() + ".nc");`
			`if(!nc) return "Can't open file " + datapath + "/uv-" + times[0].ToString() + ".nc";`

			`GetVars(nc, vars);`
			`dn = GetDNames(nc);`
			`cn = GetCNames(nc);`

			`MString svars;`
			`{`
			`bool first = true;`
			`for(const auto& v: vars)`
			`{`
			`svars += (first ? "" : ", ") + v;`
			`first = false;`
			`}`
			`}`

			`auto lons = nc.VR(cn.lonname);`
			`auto lats = nc.VR(cn.latname);`
			`if(!(lons && lats)) return "Can't get longitudes/latitudes";`

			`real lonb = lons(0);`
			`real latb = lats(0);`
			`real lone = lons(dn.nx - 1);`
			`real late = lats(dn.ny - 1);`
			`real lonstep = (lone - lonb) / (dn.nx - 1);`
			`real latstep = (late - latb) / (dn.ny - 1);`

			`// clang-format off`
			`return`
The function DataTitle is made public 1 year ago			`"Dataset: " + DataTitle() + "\n" +`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago			`" Begin date: " + Time(0).ToString() + "\n" +`
			`" End date: " + Time(NTimes()-1).ToString() + "\n" +`
			`" Time step: " + Timestep() + " seconds\n" +`
			`" Time moments: " + NTimes() + "\n" +`
			`" Region: (" + lonb + " : " + lone + ") x (" + latb + " : " + late + ")\n" +`
			`" Grid: " + dn.nx + "x" + dn.ny + " (" + lonstep + " x " + latstep + ")\n" +`
			`" Supported variables: " + svars;`
			`// clang-format on`
			`}`

			`MString AVISOLOCALData::Open(const CLArgs& args)`
			`{`
			`GPL.UsePrefix("AVISOLOCAL");`
			`datapath = GPL.ParameterSValue("Datapath", "");`
			`RegExp regex("uv-([0-9]{4}-[0-9]{2}-[0-9]{2}).nc");`
			`regex.Compile();`

			`DIR* dir = opendir(datapath.Buf());`
			`struct dirent* de;`
			`if(nullptr == dir) return "Can't open directory " + datapath;`
			`while((de = readdir(dir)))`
			`{`
			`if(!regex.Match(de->d_name)) continue;`
			`times.emplace_back(MString(de->d_name + regex.Off(1), regex.Len(1)));`
			`}`
			`closedir(dir);`
			`std::sort(times.begin(), times.end());`
			`return "";`
			`}`

The data source classes get the region from outside rather than reading it themselves from the parameters. 1 year ago			`std::pair<const BaseParameters*, MString> AVISOLOCALData::Parameters(michlib_internal::ParameterListEx& pars, const CLArgs& args, const struct Region& reg) const`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago			`{`
			`std::unique_ptr<struct Parameters> ppar{new struct Parameters};`
The data source classes get the region from outside rather than reading it themselves from the parameters. 1 year ago			`ppar->lonb = reg.lonb;`
			`ppar->lone = reg.lone;`
			`ppar->latb = reg.latb;`
			`ppar->late = reg.late;`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago
			`pars.SetParameter("lonb", ppar->lonb);`
			`pars.SetParameter("latb", ppar->latb);`
			`pars.SetParameter("lone", ppar->lone);`
			`pars.SetParameter("late", ppar->late);`

			`return {ppar.release(), ""};`
			`}`

Reading and caching multiple variables from the source. 1 year ago			`bool AVISOLOCALData::Read(const MString& vname, std::map<MString, AVISOLOCALData::Data>& cache, const BaseParameters* ip, size_t i) const`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago			`{`
Reading and caching multiple variables from the source. 1 year ago			`if(cache.contains(vname)) return true;`
			`if(!isOk()) return false;`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago
			`auto p = dynamic_cast<const struct Parameters*>(ip);`
			`NCFileA nc;`
			`MString name = "";`
			`bool isfloat = false, isint2 = false, isint4 = false;`

			`nc.Reset(datapath + "/uv-" + times[i].ToString() + ".nc");`
Reading and caching multiple variables from the source. 1 year ago			`if(!nc) return false;`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago			`{`
			`auto head = nc.Header();`
			`for(const auto& v: head.Variables())`
			`{`
			`auto stname = nc.A<MString>(v.Name(), "standard_name");`
			`if(!stname) continue;`
			`if(StName2Name(stname) == vname)`
			`{`
			`name = v.Name();`
			`isint2 = v.Type().Id() == NC_SHORT;`
			`isint4 = v.Type().Id() == NC_INT;`
			`isfloat = v.Type().Id() == NC_FLOAT;`
			`}`
			`}`
			`}`

			`if(!name.Exist()) // Conversion read`
NCFuncs::CheckVar now returns a VarPresence enum instead of a bool. The calculation of derived variables has been moved to a separate function in NCFuncs. Added calculation of geostrophic velocities based on sea surface height. The uv and genintfile actions can now use geostrophic velocities. 12 months ago			`return TransformationRead(this, vname, cache, ip, i);`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago
			`// Direct read`
Reading and caching multiple variables from the source. 1 year ago			`Data data;`
			`if(isint2) data = ReadVarRaw<int2>(nc, name, p);`
			`if(isint4) data = ReadVarRaw<int4>(nc, name, p);`
			`if(isfloat) data = ReadVarRaw<float>(nc, name, p);`
			`if(data)`
			`{`
			`cache[vname] = std::move(data);`
			`return true;`
			`}`

			`return false;`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago			`}`

			`template<class DataType> AVISOLOCALData::Data AVISOLOCALData::ReadVarRaw(const NCFileA& nc, const MString& name, const struct AVISOLOCALData::Parameters* p) const`
			`{`
			`real unitmul = 1.0;`
			`DataType fill;`
			`real offset = 0.0, scale = 1.0;`

			`{`
			`auto a_fill = nc.A<DataType>(name, "_FillValue");`
			`auto a_offset_d = nc.A<double>(name, "add_offset");`
			`auto a_scale_d = nc.A<double>(name, "scale_factor");`
			`auto a_offset_f = nc.A<float>(name, "add_offset");`
			`auto a_scale_f = nc.A<float>(name, "scale_factor");`
			`if(!a_fill) return Data();`
			`fill = a_fill;`
			`if(a_offset_d) offset = a_offset_d;`
			`if(a_scale_d) scale = a_scale_d;`
			`if(a_offset_f) offset = a_offset_f;`
			`if(a_scale_f) scale = a_scale_f;`
			`}`

			`auto cn = GetCNames(nc);`
			`auto dn = GetDNames(nc);`

			`auto lons = nc.VR(cn.lonname);`
			`auto lats = nc.VR(cn.latname);`
			`if(!(lons && lats)) return Data();`

			`auto lonb = lons(0);`
			`auto latb = lats(0);`
			`auto lone = lons(dn.nx - 1);`
			`auto late = lats(dn.ny - 1);`
			`auto lonstep = (lone - lonb) / (dn.nx - 1);`
			`auto latstep = (late - latb) / (dn.ny - 1);`

			`auto dom = DetGeoDomain(lonb, lone);`
			`real lon1 = ToGeoDomain(p->lonb, dom);`
			`real lon2 = ToGeoDomain(p->lone, dom);`
			`real lat1 = p->latb;`
			`real lat2 = p->late;`

Fixed a bug when the longitude lies in a small sector between the end and start 1 year ago			`// Special case when the longitude lies in a small sector between the end and the start`
			`if(lon1 < lonb) lon1 = lone;`
			`if(lon2 > lone) lon2 = lonb;`

Added source AVISOLOCAL and made a some code rearrangement. 1 year ago			`auto yb = static_cast<size_t>(Floor((lat1 - latb) / latstep));`
			`auto ye = static_cast<size_t>(Ceil((lat2 - latb) / latstep));`
			`if(ye > dn.ny - 1) ye = dn.ny - 1;`
			`if(yb >= ye) return Data();`

			`auto xb = static_cast<size_t>(Floor((lon1 - lonb) / lonstep));`
			`auto xe = static_cast<size_t>(Ceil((lon2 - lonb) / lonstep));`

			`if(xb == xe) return Data();`

Support for units of measurement in sources and the tsc module. 1 year ago			`MString unit;`
			`{`
			`auto unitatt = nc.A<MString>(name, "units");`
			`if(unitatt) unit = unitatt;`
			`}`
			`if(unit == "m s-1" \|\| unit == "m/s")`
			`{`
			`unitmul = 100.0;`
			`unit = "cm/s";`
			`}`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago
Support for units of measurement in sources and the tsc module. 1 year ago			`Data data((xb < xe) ? (xe - xb + 1) : (dn.nx + xe - xb + 1), ye - yb + 1, lons(xb), lats(yb), lonstep, latstep, std::move(unit));`
Added source AVISOLOCAL and made a some code rearrangement. 1 year ago
			`if(xb < xe)`
			`{`
			`auto var = nc.V<DataType>(name, {dn.lonname, xb, xe - xb + 1}, {dn.latname, yb, ye - yb + 1});`

			`if(!var) return Data();`
			`if(var.DimLen(0) != data.Nx() \|\| var.DimLen(1) != data.Ny()) return Data();`

			`for(size_t ix = 0; ix < var.DimLen(0); ix++)`
			`for(size_t iy = 0; iy < var.DimLen(1); iy++)`
			`{`
			`DataType v = var(ix, iy);`
			`data(ix, iy) = (v == fill) ? Data::Fillval() : ((v * scale + offset) * unitmul);`
			`}`
			`}`
			`else`
			`{`
			`auto var1 = nc.V<DataType>(name, {dn.lonname, xb}, {dn.latname, yb, ye - yb + 1});`
			`auto var2 = nc.V<DataType>(name, {dn.lonname, 0, xe + 1}, {dn.latname, yb, ye - yb + 1});`

			`if(!(var1 && var2)) return Data();`
			`if((var1.DimLen(0) + var2.DimLen(0)) != data.Nx() \|\| var1.DimLen(1) != data.Ny() \|\| var2.DimLen(1) != data.Ny()) return Data();`
			`for(size_t ix = 0; ix < var1.DimLen(0); ix++)`
			`for(size_t iy = 0; iy < var1.DimLen(1); iy++)`
			`{`
			`DataType v = var1(ix, iy);`
			`data(ix, iy) = (v == fill) ? Data::Fillval() : ((v * scale + offset) * unitmul);`
			`}`
			`for(size_t ix = 0; ix < var2.DimLen(0); ix++)`
			`for(size_t iy = 0; iy < var2.DimLen(1); iy++)`
			`{`
			`DataType v = var2(ix, iy);`
			`data(ix + var1.DimLen(0), iy) = (v == fill) ? Data::Fillval() : ((v * scale + offset) * unitmul);`
			`}`
			`}`
			`return data;`
			`}`