public int Read(IntPtr pItem)
{
int eumT = 0, eumU = 0;
DfsSimpleType dataT = DfsSimpleType.Int;
DfsDLLWrapper.dfsGetItemInfo(pItem, out eumT, out EUMTypeString, out Name, out eumU, out EUMUnitString, out dataT);
EUMType = (eumItem)eumT;
EUMUnit = (eumUnit)eumU;
dataType = (DfsSimpleType)dataT;
//if (dataType != UfsSimpleType.UFS_FLOAT)return err("Only float dataType supported.");
dim = DfsDLLWrapper.dfsGetItemDim(pItem);
dataValType = DfsDLLWrapper.dfsGetItemValueType(pItem);
sAxisType = (SpaceAxisType)DfsDLLWrapper.dfsGetItemAxisType(pItem);
switch (sAxisType)
{
case SpaceAxisType.EqD0:
DfsDLLWrapper.dfsGetItemAxisEqD0(pItem, out eumU, out axisEUMUnitString);
nPointsX = 1;
break;
case SpaceAxisType.EqD1:
DfsDLLWrapper.dfsGetItemAxisEqD1(pItem, out eumU, out axisEUMUnitString, out m_nPointsX, out XMinLimit, out DX);
break;
case SpaceAxisType.EqD2:
DfsDLLWrapper.dfsGetItemAxisEqD2(pItem, out eumU, out axisEUMUnitString, out m_nPointsX, out m_nPointsY, out XMinLimit, out YMinLimit, out DX, out DY);
break;
case SpaceAxisType.EqD3:
DfsDLLWrapper.dfsGetItemAxisEqD3(pItem, out eumU, out axisEUMUnitString, out m_nPointsX, out m_nPointsY, out m_nPointsZ, out XMinLimit, out YMinLimit, out ZMinLimit, out DX, out DY, out DZ);
break;
default:
return(_err("Unsupported space axis " + sAxisType.ToString()));
}
axisEUMUnit = (eumUnit)eumU;
return(0);
}
/// <summary>
/// Opens an existing dfs-file
/// </summary>
/// <param name="DFSFileName"></param>
public DFSBase(string DFSFileName)
: this()
{
_filename = DFSFileName;
AbsoluteFileName = Path.GetFullPath(DFSFileName);
try
{
DfsDLLWrapper.dfsFileRead(AbsoluteFileName, out _headerPointer, out _filePointer);
}
catch (Exception e)
{
return; //Not a valid file.
}
NumberOfItems = DfsDLLWrapper.dfsGetNoOfItems(_headerPointer);
string eum_unit = "";
int unit = 0;
int data_type = 0;
int item_type = 0;
float x = 0;
float y = 0;
float z = 0;
float dx = 0;
float dy = 0;
float dz = 0;
IntPtr name = new IntPtr();
//Reads the projection
LastStatus = dfsGetGeoInfoUTMProj(_headerPointer, ref name, ref _xOrigin, ref _yOrigin, ref _orientation);
//Reads the space axis
_spaceAxis = (SpaceAxisType)DfsDLLWrapper.dfsGetItemAxisType(FirstItem.ItemPointer);
//Now read axes info dependent on the type of axis
switch (_spaceAxis)
{
case SpaceAxisType.CurveLinearD2:
break;
case SpaceAxisType.CurveLinearD3:
break;
case SpaceAxisType.EqD0:
break;
case SpaceAxisType.EqD1:
break;
case SpaceAxisType.EqD2: //DFS2 from MikeShe
DfsDLLWrapper.dfsGetItemAxisEqD2(FirstItem.ItemPointer, out item_type, out eum_unit, out _numberOfColumns, out _numberOfRows, out x, out y, out dx, out dy);
break;
case SpaceAxisType.EqD3: //DFS3 from MikeShe
DfsDLLWrapper.dfsGetItemAxisEqD3(FirstItem.ItemPointer, out item_type, out eum_unit, out _numberOfColumns, out _numberOfRows, out _numberOfLayers, out x, out y, out z, out dx, out dy, out dz);
break;
case SpaceAxisType.NeqD1:
var coords = new Coords[1];
DfsDLLWrapper.dfsGetItemAxisNeqD1(FirstItem.ItemPointer, out unit, out eum_unit, out data_type, out coords);
break;
case SpaceAxisType.NeqD2:
break;
case SpaceAxisType.NeqD3:
break;
case SpaceAxisType.Undefined:
break;
default:
break;
}
_gridSize = dx;
//Prepares an array of floats to recieve the data
dfsdata = new float[_numberOfColumns * _numberOfRows * _numberOfLayers];
//Now look at time axis
_timeAxis = (TimeAxisType) DfsDLLWrapper.dfsGetTimeAxisType(_headerPointer);
string startdate = "";
string starttime = "";
double tstart = 0;
double tstep = 0;
int nt = 0;
int tindex = 0;
switch (_timeAxis)
{
case TimeAxisType.TimeEquidistant: //Some DFS2 here
DfsDLLWrapper.dfsGetEqTimeAxis(_headerPointer, out unit, out eum_unit, out tstart, out tstep, out nt, out tindex);
break;
case TimeAxisType.CalendarEquidistant: //Dfs2 and dfs3 here
DfsDLLWrapper.dfsGetEqCalendarAxis(_headerPointer, out startdate, out starttime, out unit, out eum_unit, out tstart, out tstep, out nt, out tindex);
if (unit == 1400)
_timeStep = TimeSpan.FromSeconds(tstep);
else if (unit == 1401) //This is a guess
_timeStep = TimeSpan.FromMinutes(tstep);
else if (unit == 1402)
_timeStep = TimeSpan.FromHours(tstep);
break;
case TimeAxisType.TimeNonEquidistant: //This has not been tested
DfsDLLWrapper.dfsGetNeqTimeAxis(_headerPointer, out unit, out eum_unit, out tstart, out tstep, out nt, out tindex);
break;
case TimeAxisType.CalendarNonEquidistant://Only dfs0 can have varying time steps
DfsDLLWrapper.dfsGetNeqCalendarAxis(_headerPointer, out startdate, out starttime, out unit, out eum_unit, out tstart, out tstep, out nt, out tindex);
break;
case TimeAxisType.Undefined:
break;
default:
break;
}
NumberOfTimeStepsWritten = nt;
timeStepUnit = (TimeInterval)unit;
if (_timeAxis == TimeAxisType.CalendarNonEquidistant | _timeAxis == TimeAxisType.TimeEquidistant)
_times = new double[nt];
if (startdate != "" & starttime != "")
{
_timesteps.Add(DateTime.Parse(startdate).Add(TimeSpan.Parse(starttime)));
}
else //Time equidistant files enter here.
_timesteps.Add(new DateTime(2002, 1, 1));
//Now build the list of timesteps
for (int i = 1; i < nt; i++)
{
if (_timeAxis == TimeAxisType.CalendarNonEquidistant) //dfs0 with time varying.
_timesteps.Add(_timesteps[0].Add(GetTimeSpan(i)));
else
_timesteps.Add(_timesteps[i - 1].Add(_timeStep));
}
}
/// <summary>
/// Opens an existing dfs-file
/// </summary>
/// <param name="DFSFileName"></param>
public DFSBase(string DFSFileName)
: this()
{
_filename = DFSFileName;
AbsoluteFileName = Path.GetFullPath(DFSFileName);
try
{
DfsDLLWrapper.dfsFileRead(AbsoluteFileName, out _headerPointer, out _filePointer);
}
catch (Exception e)
{
return; //Not a valid file.
}
NumberOfItems = DfsDLLWrapper.dfsGetNoOfItems(_headerPointer);
string eum_unit = "";
int unit = 0;
int data_type = 0;
int item_type = 0;
float x = 0;
float y = 0;
float z = 0;
float dx = 0;
float dy = 0;
float dz = 0;
IntPtr name = new IntPtr();
//Reads the projection
LastStatus = dfsGetGeoInfoUTMProj(_headerPointer, ref name, ref _xOrigin, ref _yOrigin, ref _orientation);
//Reads the space axis
_spaceAxis = (SpaceAxisType)DfsDLLWrapper.dfsGetItemAxisType(FirstItem.ItemPointer);
//Now read axes info dependent on the type of axis
switch (_spaceAxis)
{
case SpaceAxisType.CurveLinearD2:
break;
case SpaceAxisType.CurveLinearD3:
break;
case SpaceAxisType.EqD0:
break;
case SpaceAxisType.EqD1:
break;
case SpaceAxisType.EqD2: //DFS2 from MikeShe
DfsDLLWrapper.dfsGetItemAxisEqD2(FirstItem.ItemPointer, out item_type, out eum_unit, out _numberOfColumns, out _numberOfRows, out x, out y, out dx, out dy);
break;
case SpaceAxisType.EqD3: //DFS3 from MikeShe
DfsDLLWrapper.dfsGetItemAxisEqD3(FirstItem.ItemPointer, out item_type, out eum_unit, out _numberOfColumns, out _numberOfRows, out _numberOfLayers, out x, out y, out z, out dx, out dy, out dz);
break;
case SpaceAxisType.NeqD1:
var coords = new Coords[1];
DfsDLLWrapper.dfsGetItemAxisNeqD1(FirstItem.ItemPointer, out unit, out eum_unit, out data_type, out coords);
break;
case SpaceAxisType.NeqD2:
break;
case SpaceAxisType.NeqD3:
break;
case SpaceAxisType.Undefined:
break;
default:
break;
}
_gridSize = dx;
//Prepares an array of floats to recieve the data
dfsdata = new float[_numberOfColumns * _numberOfRows * _numberOfLayers];
//Now look at time axis
_timeAxis = (TimeAxisType)DfsDLLWrapper.dfsGetTimeAxisType(_headerPointer);
string startdate = "";
string starttime = "";
double tstart = 0;
double tstep = 0;
int nt = 0;
int tindex = 0;
switch (_timeAxis)
{
case TimeAxisType.TimeEquidistant: //Some DFS2 here
DfsDLLWrapper.dfsGetEqTimeAxis(_headerPointer, out unit, out eum_unit, out tstart, out tstep, out nt, out tindex);
break;
case TimeAxisType.CalendarEquidistant: //Dfs2 and dfs3 here
DfsDLLWrapper.dfsGetEqCalendarAxis(_headerPointer, out startdate, out starttime, out unit, out eum_unit, out tstart, out tstep, out nt, out tindex);
if (unit == 1400)
{
_timeStep = TimeSpan.FromSeconds(tstep);
}
else if (unit == 1401) //This is a guess
{
_timeStep = TimeSpan.FromMinutes(tstep);
}
else if (unit == 1402)
{
_timeStep = TimeSpan.FromHours(tstep);
}
break;
case TimeAxisType.TimeNonEquidistant: //This has not been tested
DfsDLLWrapper.dfsGetNeqTimeAxis(_headerPointer, out unit, out eum_unit, out tstart, out tstep, out nt, out tindex);
break;
case TimeAxisType.CalendarNonEquidistant://Only dfs0 can have varying time steps
DfsDLLWrapper.dfsGetNeqCalendarAxis(_headerPointer, out startdate, out starttime, out unit, out eum_unit, out tstart, out tstep, out nt, out tindex);
break;
case TimeAxisType.Undefined:
break;
default:
break;
}
NumberOfTimeStepsWritten = nt;
timeStepUnit = (TimeInterval)unit;
if (_timeAxis == TimeAxisType.CalendarNonEquidistant | _timeAxis == TimeAxisType.TimeEquidistant)
{
_times = new double[nt];
}
if (startdate != "" & starttime != "")
{
_timesteps.Add(DateTime.Parse(startdate).Add(TimeSpan.Parse(starttime)));
}
else //Time equidistant files enter here.
{
_timesteps.Add(new DateTime(2002, 1, 1));
}
//Now build the list of timesteps
for (int i = 1; i < nt; i++)
{
if (_timeAxis == TimeAxisType.CalendarNonEquidistant) //dfs0 with time varying.
{
_timesteps.Add(_timesteps[0].Add(GetTimeSpan(i)));
}
else
{
_timesteps.Add(_timesteps[i - 1].Add(_timeStep));
}
}
}
