/// <summary>
/// Example of how to append data from one file to another. It is assumed that:
/// <list type="bullet">
/// <item>The files has identical dynamic and static items</item>
/// <item>The last time step of the target file is equal to the first
/// timestep of the sourceFile, and therefor the first time step
/// from the source file is not added to the target file</item>
/// </list>
/// <para>
/// This example uses the generic DFS functionality, and will work for any type
/// of DFS file.
/// </para>
/// </summary>
public static void AppendToFile(string targetFile, string sourceFile)
{
// Open target for appending and source for reading
IDfsFile target = DfsFileFactory.DfsGenericOpenAppend(targetFile);
IDfsFile source = DfsFileFactory.DfsGenericOpen(sourceFile);
// Time of last time step of file, in the time unit of the time axis.
// This is sufficient as long as TimeAxis.StartTimeOffset equals in
// source and target file (it is zero for most files)
double targetEndTime = target.FileInfo.TimeAxis.TimeSpan();
// Do not add initial time step 0 of source to target file,
// so go directly to time step 1 in source
source.FindTimeStep(1);
// Copy over data
IDfsItemData sourceData2;
while (null != (sourceData2 = source.ReadItemTimeStepNext()))
{
target.WriteItemTimeStepNext(targetEndTime + sourceData2.Time, sourceData2.Data);
}
// Close the files
target.Close();
source.Close();
}
public void ExtractItems(List <int> items)
{
try
{
_OpenFiles();
var starttimestep = 0;
var endtimestep = _inputDfs.FileInfo.TimeAxis.NumberOfTimeSteps - 1;
var stride = 1;
var timesteps = _GetTimeSteps(starttimestep, endtimestep);
_outputDfs = _CreateFromTemplate(_inputDfs, OutputFile, timesteps, stride, items);
_ProcessAllTimeSteps(timesteps, stride, items);
}
finally
{
_inputDfs.Close();
_outputDfs.Close();
}
}
/// <summary>
/// Example on how to modify a custom block.
/// <para>
/// The method assumes that a dfs2 file with the "M21_Misc" custom block, alike
/// the OresundHD.dfs2 test file, is the input file.
/// </para>
/// </summary>
/// <param name="filename">path and name of dfs2 test file</param>
public static void CustomBlockModify(string filename)
{
IDfsFile dfsFile = DfsFileFactory.DfsGenericOpenEdit(filename);
IDfsFileInfo fileInfo = dfsFile.FileInfo;
IDfsCustomBlock customBlock = fileInfo.CustomBlocks[0];
customBlock[3] = 25;
dfsFile.Close();
}
static void Main(string[] args)
{
int[] nodeNumber = new int[] { 899, 2686, 2856, 2866, 2331, 3806, 2231, 3831 };
IDfsFile resFile = DfsFileFactory.DfsGenericOpenEdit(@"E:\FFWS\Model\MIKEHYDRO\GBM_MIKEHYDRO.mhydro - Result Files\RiverBasin_GBM.dfs0");
IDfsFileInfo resfileInfo = resFile.FileInfo;
int noTimeSteps = resfileInfo.TimeAxis.NumberOfTimeSteps;
DateTime[] date = resFile.FileInfo.TimeAxis.GetDateTimes();
DateTime startDate = date[0];
double[] timeSpan = new double[noTimeSteps];
for (int j = 0; j < noTimeSteps; j++)
{
timeSpan[j] = resFile.ReadItemTimeStep(899, j).Time;
}
foreach (int element in nodeNumber)
{
IDfsItemData <float> data;
float[] QSimvalues = new float[noTimeSteps];
for (int j = 0; j < noTimeSteps; j++)
{
data = (IDfsItemData <float>)resFile.ReadItemTimeStep(element, j);
QSimvalues[j] = Convert.ToSingle(data.Data[0]);
}
DfsFactory factory = new DfsFactory();
string filename = @"E:\FFWS\Model\BrahmaputraHD\Boundary\" + element + ".dfs0";
DfsBuilder filecreator = DfsBuilder.Create(element.ToString(), element.ToString(), 2014);
filecreator.SetDataType(1);
filecreator.SetGeographicalProjection(factory.CreateProjectionUndefined());
filecreator.SetTemporalAxis(factory.CreateTemporalNonEqCalendarAxis(eumUnit.eumUsec, new DateTime(startDate.Year, startDate.Month, startDate.Day, startDate.Hour, startDate.Minute, startDate.Second)));
filecreator.SetItemStatisticsType(StatType.RegularStat);
DfsDynamicItemBuilder item = filecreator.CreateDynamicItemBuilder();
item.Set(element.ToString(), eumQuantity.Create(eumItem.eumIDischarge, eumUnit.eumUm3PerSec), DfsSimpleType.Float);
item.SetValueType(DataValueType.Instantaneous);
item.SetAxis(factory.CreateAxisEqD0());
item.SetReferenceCoordinates(1f, 2f, 3f);
filecreator.AddDynamicItem(item.GetDynamicItemInfo());
filecreator.CreateFile(filename);
IDfsFile file = filecreator.GetFile();
IDfsFileInfo fileinfo = file.FileInfo;
for (int j = 0; j < noTimeSteps; j++)
{
file.WriteItemTimeStepNext(timeSpan[j], new float[] { QSimvalues[j] });
}
file.Close();
}
}
/// <summary>
/// Updates the temporal axis of a file with an <see cref="IDfsEqCalendarAxis"/>
/// type time axis.
/// <para>
/// The method will work on a file like the OresundHD.dfs2 test file, which has
/// an <see cref="IDfsEqCalendarAxis"/> type time axis.
/// </para>
/// </summary>
/// <param name="filename">path and name of test file</param>
public static void TemporalAxisModify(string filename)
{
IDfsFile dfsFile = DfsFileFactory.DfsGenericOpenEdit(filename);
IDfsEqCalendarAxis timeAxis = (IDfsEqCalendarAxis)dfsFile.FileInfo.TimeAxis;
// Update values
timeAxis.FirstTimeStepIndex = 3;
timeAxis.StartTimeOffset = 6;
timeAxis.StartDateTime = new DateTime(2009, 2, 2, 21, 43, 00);
timeAxis.TimeUnit = eumUnit.eumUminute;
timeAxis.TimeStep = 1;
dfsFile.Close();
}
public void ExtractDateTimes(DateTime dateTime1, DateTime dateTime2)
{
try
{
_OpenFiles();
var timesteps = _GetTimeSteps(dateTime1, dateTime2);
_outputDfs = _CreateFromTemplate(_inputDfs, OutputFile, timesteps, 1);
_ProcessAllTimeSteps(timesteps);
}
finally
{
_inputDfs.Close();
_outputDfs.Close();
}
}
public void ExtractTimeSteps(int starttimestep, int endtimestep, int stride)
{
try
{
_OpenFiles();
var timesteps = _GetTimeSteps(starttimestep, endtimestep);
_outputDfs = _CreateFromTemplate(_inputDfs, OutputFile, timesteps, stride);
_ProcessAllTimeSteps(timesteps, stride);
}
finally
{
_inputDfs.Close();
_outputDfs.Close();
}
}
public void ExtractTimeSteps(List <int> timesteps, int stride)
{
try
{
_OpenFiles();
_VerifyStride(timesteps.Last(), stride);
_outputDfs = _CreateFromTemplate(_inputDfs, OutputFile, timesteps, stride);
_ProcessAllTimeSteps(timesteps, stride);
}
finally
{
_inputDfs.Close();
_outputDfs.Close();
}
}
/// <summary>
/// Updates the item info.
/// <para>
/// The method assumes that the OresundHD.dfs2 test file
/// (or preferably a copy of it) is the input file.
/// </para>
/// </summary>
/// <param name="filename">path and name of OresundHD.dfs2 test file</param>
public static void DynamicItemInfoModify(string filename)
{
IDfsFile dfsFile = DfsFileFactory.DfsGenericOpenEdit(filename);
IDfsDynamicItemInfo itemInfo = dfsFile.ItemInfo[2];
// Update the values
// old name: "Q Flux m^3/s/m". New name: "ShortD " (padded with spaces)
// old quantity: (eumItem.eumIFlowFlux, eumUnit.eumUm3PerSecPerM)
// old ValueType: Instantaneous
itemInfo.Name = "ShortD";
itemInfo.Quantity = eumQuantity.Create(eumItem.eumIDischarge, eumUnit.eumUm3PerSec);
itemInfo.ValueType = DataValueType.MeanStepBackward;
// Old reference coordinates and orientation is -1.00000002e-35f
itemInfo.SetReferenceCoordinates(1, 2, 3);
itemInfo.SetOrientation(4, 5, 6);
dfsFile.Close();
}
/// <summary>
/// Updates information in the header - <see cref="IDfsFileInfo"/>.
/// <para>
/// The method assumes that the OresundHD.dfs2 test file
/// (or preferably a copy of it) is the input file.
/// </para>
/// <para>
/// Strings are padded with zeros, when too short, and truncated when too long.
/// </para>
/// </summary>
/// <param name="filename">path and name of OresundHD.dfs2 test file</param>
public static void FileInfoModify(string filename)
{
IDfsFile dfsFile = DfsFileFactory.DfsGenericOpenEdit(filename);
IDfsFileInfo fileInfo = dfsFile.FileInfo;
// Modify values
fileInfo.FileTitle = "ups";
fileInfo.ApplicationTitle = "Short title";
fileInfo.ApplicationVersion = 12;
fileInfo.DataType = 10101;
fileInfo.DeleteValueFloat = -5.5e-25f;
fileInfo.DeleteValueByte = 7;
fileInfo.DeleteValueDouble = -7.7e-114;
fileInfo.DeleteValueInt = -123456;
fileInfo.DeleteValueUnsignedInt = 123456;
dfsFile.Close();
}
public void Run(string inputfile, string outputfile)
{
if (!File.Exists(inputfile))
{
throw new Exception(String.Format("Input file {0} does not exist!", inputfile));
}
try
{
_dfsInput = DfsFileFactory.DfsGenericOpen(inputfile);
_dfsOutput = DfsOutput.CreateFromTemplate(_dfsInput, outputfile);
ProcessAllTimeSteps(_dfsOutput);
}
finally
{
_dfsInput.Close();
_dfsOutput.Close();
}
}
public void Run(string inputfile1, string inputfile2, double fac1, double fac2, string outputfile)
{
if (!File.Exists(inputfile1))
{
throw new Exception(String.Format("First input file {0} does not exist!", inputfile1));
}
if (!File.Exists(inputfile2))
{
throw new Exception(String.Format("Second input file {0} does not exist!", inputfile1));
}
var ext1 = Path.GetExtension(inputfile1).ToLower();
var ext2 = Path.GetExtension(inputfile2).ToLower();
if (ext1 != ext2)
{
throw new Exception("Input files must have same extension!");
}
var ext_out = Path.GetExtension(outputfile).ToLower();
if (ext1 != ext_out)
{
throw new Exception("Input and output files must have same extension!");
}
try
{
_dfsInput1 = DfsFileFactory.DfsGenericOpen(inputfile1);
_dfsInput2 = DfsFileFactory.DfsGenericOpen(inputfile2);
_VerifyInputSimilarity(_dfsInput1, _dfsInput2);
_dfsOutput = DfsOutput.CreateFromTemplate(_dfsInput1, outputfile);
ProcessAllTimeSteps(_dfsOutput, (float)fac1, (float)fac2);
}
finally
{
_dfsInput1.Close();
_dfsInput2.Close();
_dfsOutput.Close();
}
}
/// <summary>
/// Introductory example of how to load a dfs0 file.
/// <para>
/// The method assumes that the Rain_stepaccumulated.dfs0 test file
/// is the input file.
/// </para>
/// </summary>
/// <param name="filename">path and name of Rain_stepaccumulated.dfs0 test file</param>
public static double ReadDfs0File(string filename)
{
// Open the file as a generic dfs file
IDfsFile dfs0File = DfsFileFactory.DfsGenericOpen(filename);
// Header information is contained in the IDfsFileInfo
IDfsFileInfo fileInfo = dfs0File.FileInfo;
int steps = fileInfo.TimeAxis.NumberOfTimeSteps; // 19
// Information on each of the dynamic items, here the first one
IDfsSimpleDynamicItemInfo dynamicItemInfo = dfs0File.ItemInfo[0];
string nameOfFirstDynamicItem = dynamicItemInfo.Name; // "Rain"
DfsSimpleType typeOfFirstDynamicItem = dynamicItemInfo.DataType; // Double
ValueType valueType = dynamicItemInfo.ValueType; // StepAccumulated
// Read data of first item, third time step (items start by 1, timesteps by 0),
IDfsItemData datag = dfs0File.ReadItemTimeStep(1, 2);
double value1 = System.Convert.ToDouble(datag.Data.GetValue(0)); // 0.36
// Assuming this is a double value, the item data object can be converted to the correct type
IDfsItemData <double> data = (IDfsItemData <double>)datag;
double value2 = data.Data[0]; // 0.36
// This iterates through all timesteps and items in the file
// For performance reasons it is important to iterate over time steps
// first and items second.
double sum = 0;
for (int i = 0; i < steps; i++)
{
for (int j = 1; j <= dfs0File.ItemInfo.Count; j++)
{
data = (IDfsItemData <double>)dfs0File.ReadItemTimeStep(j, i);
double value = data.Data[0];
sum += value;
}
}
dfs0File.Close();
return(sum);
}
/// <summary>
/// Introductory example of how to load a dfs0 file with a non-time axis
/// as the primary axis. The important part here is to NOT call
/// the <code>data.TimeInSeconds()</code>, because that will fail.
/// </summary>
/// <param name="filename">path and name of Added_Mass.dfs0 test file</param>
public static double ReadNonTimeAxisDfs0(string filename)
{
// Open the file as a generic dfs file
IDfsFile dfs0File = DfsFileFactory.DfsGenericOpen(filename);
// Header information is contained in the IDfsFileInfo
IDfsFileInfo fileInfo = dfs0File.FileInfo;
// The TimeAxis is not a time axis, but a regular axis
int steps = fileInfo.TimeAxis.NumberOfTimeSteps; // 256
TimeAxisType timeAxisType = fileInfo.TimeAxis.TimeAxisType; // TimeNonEquidistant
eumUnit timeUnit = fileInfo.TimeAxis.TimeUnit; // radian-per-second
// Information on each of the dynamic items, here the first one
IDfsSimpleDynamicItemInfo dynamicItemInfo = dfs0File.ItemInfo[0];
string nameOfFirstDynamicItem = dynamicItemInfo.Name; // "DOF_1-1"
DfsSimpleType typeOfFirstDynamicItem = dynamicItemInfo.DataType; // Float
ValueType valueType = dynamicItemInfo.ValueType; // Instantaneous
// This iterates through all timesteps and items in the file
// For performance reasons it is important to iterate over time steps
// first and items second.
double sum = 0;
for (int i = 0; i < steps; i++)
{
for (int j = 1; j <= dfs0File.ItemInfo.Count; j++)
{
var data = (IDfsItemData <float>)dfs0File.ReadItemTimeStep(j, i);
// The Time axis value is not a time value but in radian-per-second.
double axisValue = data.Time;
float value = data.Data[0];
sum += value;
}
}
dfs0File.Close();
return(sum);
}
private void btnDFS0Fromlist_Click(object sender, EventArgs e)
{
if (fileName == "")
{
MessageBox.Show("No files have been selected for processing...\nPlease Load a file first.");
}
else
{
string[] requiredDFS0File = File.ReadAllLines((fileName.Substring(0, fileName.Length - 6) + ".txt"));
string[] availableDFS0 = File.ReadAllLines((fileName.Substring(0, fileName.Length - 6) + "_xy.txt"));
foreach (string element in requiredDFS0File)
{
for (int i = 0; i < availableDFS0.Length; i++)
{
if (element == availableDFS0[i])
{
string itemType = element.Substring(0, 2);
if (itemType == "WL")
{
DfsFactory factory = new DfsFactory();
string filename = dfs0Path + @"\" + element + ".dfs0";
DfsBuilder filecreator = DfsBuilder.Create(element, element, 2012);
filecreator.SetDataType(1);
filecreator.SetGeographicalProjection(factory.CreateProjectionUndefined());
filecreator.SetTemporalAxis(factory.CreateTemporalNonEqCalendarAxis(eumUnit.eumUsec, new DateTime(dfsDate[0].Year, dfsDate[0].Month, dfsDate[0].Day, dfsDate[0].Hour, dfsDate[0].Minute, dfsDate[0].Second)));
filecreator.SetItemStatisticsType(StatType.RegularStat);
DfsDynamicItemBuilder item = filecreator.CreateDynamicItemBuilder();
item.Set(element, eumQuantity.Create(eumItem.eumIWaterLevel, eumUnit.eumUmeter), DfsSimpleType.Float);
item.SetValueType(DataValueType.Instantaneous);
item.SetAxis(factory.CreateAxisEqD0());
item.SetReferenceCoordinates(1f, 2f, 3f);
filecreator.AddDynamicItem(item.GetDynamicItemInfo());
filecreator.CreateFile(filename);
IDfsFile file = filecreator.GetFile();
IDfsFileInfo fileinfo = file.FileInfo;
for (int j = 0; j < dfsDate.Count; j++)
{
file.WriteItemTimeStepNext((dfsDate[j] - dfsDate[0]).TotalSeconds, new float[] { dfsData[j, i] });
}
file.Close();
}
else if (itemType == "Q,")
{
DfsFactory factory = new DfsFactory();
string filename = dfs0Path + @"\" + element + ".dfs0";
DfsBuilder filecreator = DfsBuilder.Create(element, element, 2014);
filecreator.SetDataType(1);
filecreator.SetGeographicalProjection(factory.CreateProjectionUndefined());
filecreator.SetTemporalAxis(factory.CreateTemporalNonEqCalendarAxis(eumUnit.eumUsec, new DateTime(dfsDate[0].Year, dfsDate[0].Month, dfsDate[0].Day, dfsDate[0].Hour, dfsDate[0].Minute, dfsDate[0].Second)));
filecreator.SetItemStatisticsType(StatType.RegularStat);
DfsDynamicItemBuilder item = filecreator.CreateDynamicItemBuilder();
item.Set(element, eumQuantity.Create(eumItem.eumIDischarge, eumUnit.eumUm3PerSec), DfsSimpleType.Float);
item.SetValueType(DataValueType.Instantaneous);
item.SetAxis(factory.CreateAxisEqD0());
item.SetReferenceCoordinates(1f, 2f, 3f);
filecreator.AddDynamicItem(item.GetDynamicItemInfo());
filecreator.CreateFile(filename);
IDfsFile file = filecreator.GetFile();
IDfsFileInfo fileinfo = file.FileInfo;
for (int j = 0; j < dfsDate.Count; j++)
{
file.WriteItemTimeStepNext((dfsDate[j] - dfsDate[0]).TotalSeconds, new float[] { dfsData[j, i] });
}
file.Close();
}
}
}
}
MessageBox.Show("Result file processed suceesssfully.");
}
}
private void btnSingleDFS0_Click(object sender, EventArgs e)
{
try
{
if (fileName == "")
{
MessageBox.Show("No files have been selected for processing...\nPlease Load a file first.");
}
else
{
string itemType = comboBox1.SelectedItem.ToString().Substring(0, 2);
if (itemType == "WL")
{
string element = comboBox1.SelectedItem.ToString().Substring(0, comboBox1.SelectedItem.ToString().Length - 4);
DfsFactory factory = new DfsFactory();
string filename = dfs0Path + @"\" + element + ".dfs0";
DfsBuilder filecreator = DfsBuilder.Create(element, element, 2012);
filecreator.SetDataType(1);
filecreator.SetGeographicalProjection(factory.CreateProjectionUndefined());
filecreator.SetTemporalAxis(factory.CreateTemporalNonEqCalendarAxis(eumUnit.eumUsec, new DateTime(dfsDate[0].Year, dfsDate[0].Month, dfsDate[0].Day, dfsDate[0].Hour, dfsDate[0].Minute, dfsDate[0].Second)));
filecreator.SetItemStatisticsType(StatType.RegularStat);
DfsDynamicItemBuilder item = filecreator.CreateDynamicItemBuilder();
item.Set(element, eumQuantity.Create(eumItem.eumIWaterLevel, eumUnit.eumUmeter), DfsSimpleType.Float);
item.SetValueType(DataValueType.Instantaneous);
item.SetAxis(factory.CreateAxisEqD0());
item.SetReferenceCoordinates(1f, 2f, 3f);
filecreator.AddDynamicItem(item.GetDynamicItemInfo());
filecreator.CreateFile(filename);
IDfsFile file = filecreator.GetFile();
IDfsFileInfo fileinfo = file.FileInfo;
for (int j = 0; j < dfsDate.Count; j++)
{
file.WriteItemTimeStepNext((dfsDate[j] - dfsDate[0]).TotalSeconds, new float[] { dfsData[j, comboBox1.SelectedIndex] });
}
file.Close();
}
else if (itemType == "Q,")
{
string element = comboBox1.SelectedItem.ToString();
DfsFactory factory = new DfsFactory();
string filename = dfs0Path + @"\" + element + ".dfs0";
DfsBuilder filecreator = DfsBuilder.Create(element, element, 2014);
filecreator.SetDataType(1);
filecreator.SetGeographicalProjection(factory.CreateProjectionUndefined());
filecreator.SetTemporalAxis(factory.CreateTemporalNonEqCalendarAxis(eumUnit.eumUsec, new DateTime(dfsDate[0].Year, dfsDate[0].Month, dfsDate[0].Day, dfsDate[0].Hour, dfsDate[0].Minute, dfsDate[0].Second)));
filecreator.SetItemStatisticsType(StatType.RegularStat);
DfsDynamicItemBuilder item = filecreator.CreateDynamicItemBuilder();
item.Set(element, eumQuantity.Create(eumItem.eumIDischarge, eumUnit.eumUm3PerSec), DfsSimpleType.Float);
item.SetValueType(DataValueType.Instantaneous);
item.SetAxis(factory.CreateAxisEqD0());
item.SetReferenceCoordinates(1f, 2f, 3f);
filecreator.AddDynamicItem(item.GetDynamicItemInfo());
filecreator.CreateFile(filename);
IDfsFile file = filecreator.GetFile();
IDfsFileInfo fileinfo = file.FileInfo;
for (int j = 0; j < dfsDate.Count; j++)
{
file.WriteItemTimeStepNext((dfsDate[j] - dfsDate[0]).TotalSeconds, new float[] { dfsData[j, comboBox1.SelectedIndex] });
}
file.Close();
}
MessageBox.Show("Result file processed suceesssfully.");
}
}
catch (Exception error)
{
MessageBox.Show("HD Model Result files cannot be processed due to an error. Error: " + error.Message);
}
}
private void btnLoadNAM_Click(object sender, EventArgs e)
{
OpenFileDialog dialog = new OpenFileDialog();
dialog.Filter = "Mike NAM Result Files|*.RES11";
if (dialog.ShowDialog() != System.Windows.Forms.DialogResult.Cancel)
{
fileName = dialog.FileName;
}
var filepath = fileName.Split('\\');
dfs0Path = filepath[0];
for (int i = 1; i < filepath.Length - 1; i++)
{
dfs0Path = dfs0Path + @"\" + filepath[i];
}
IDfsFile resFile = DfsFileFactory.DfsGenericOpenEdit(fileName);
IDfsFileInfo resfileInfo = resFile.FileInfo;
DateTime[] date = resFile.FileInfo.TimeAxis.GetDateTimes();
DateTime startDate = date[0];
IDfsItemData <float> data;
int noTimeSteps = resfileInfo.TimeAxis.NumberOfTimeSteps;
float[] values = new float[noTimeSteps];
for (int i = 0; i < noTimeSteps; i++)
{
dfsDate.Add(startDate.AddHours(resFile.ReadItemTimeStep(1, i).Time));
}
for (int j = 0; j < resFile.ItemInfo.Count; j++)
{
IDfsSimpleDynamicItemInfo dynamicItemInfo = resFile.ItemInfo[j];
string nameOftDynamicItem = dynamicItemInfo.Name;
string checkname = nameOftDynamicItem.Substring(0, 6);
if (checkname == "RunOff")
{
string filename = dfs0Path + @"\" + nameOftDynamicItem + ".dfs0";
DfsFactory factory = new DfsFactory();
DfsBuilder filecreator = DfsBuilder.Create(nameOftDynamicItem, nameOftDynamicItem, 2014);
filecreator.SetDataType(1);
filecreator.SetGeographicalProjection(factory.CreateProjectionUndefined());
//filecreator.SetTemporalAxis(factory.CreateTemporalEqCalendarAxis(eumUnit.eumUsec, new DateTime(2010, 01, 01, 06, 00, 00), 0, 10800));
filecreator.SetTemporalAxis(factory.CreateTemporalNonEqCalendarAxis(eumUnit.eumUsec, new DateTime(dfsDate[0].Year, dfsDate[0].Month, dfsDate[0].Day, dfsDate[0].Hour, dfsDate[0].Minute, dfsDate[0].Second)));
filecreator.SetItemStatisticsType(StatType.RegularStat);
DfsDynamicItemBuilder item = filecreator.CreateDynamicItemBuilder();
item.Set(nameOftDynamicItem, eumQuantity.Create(eumItem.eumIDischarge, eumUnit.eumUm3PerSec), DfsSimpleType.Float);
item.SetValueType(DataValueType.Instantaneous);
item.SetAxis(factory.CreateAxisEqD0());
item.SetReferenceCoordinates(1f, 2f, 3f);
filecreator.AddDynamicItem(item.GetDynamicItemInfo());
filecreator.CreateFile(filename);
IDfsFile file = filecreator.GetFile();
for (int i = 0; i < noTimeSteps; i++)
{
data = (IDfsItemData <float>)resFile.ReadItemTimeStep(j + 1, i);
values[i] = Convert.ToSingle(data.Data[0]);
file.WriteItemTimeStepNext((dfsDate[i] - dfsDate[0]).TotalSeconds, new float[] { values[i] });
}
file.Close();
}
}
}
/// <summary>
/// Example of how to merge two or more dfs files. The merger is on dynamic item basis,
/// i.e. add all dynamic items of a number of dfs files to a new dfs file.
/// <para>
/// It is assumed that all files has the same time stepping layout. It will merge
/// as many time steps as the file with the least number of timesteps.
/// </para>
/// <para>
/// If merging one of the specific types of dfs files, dfs0 or dfs1 or dfs2 or dfs3,
/// the structure of the files must be identical, i.e. the sizes of the axis must equal.
/// Otherwise, the outcome will not be a valid dfs0/1/2/3 file.
/// </para>
/// </summary>
/// <param name="targetFilename">Path and name of the new file to create</param>
/// <param name="sourcesFilenames">Path and name of the source dfs files</param>
public static void MergeDfsFileItems(string targetFilename, IList <string> sourcesFilenames)
{
// List of sources to be merged - in case of more than one, just extend this.
List <IDfsFile> sources = new List <IDfsFile>();
for (int i = 0; i < sourcesFilenames.Count; i++)
{
sources.Add(DfsFileFactory.DfsGenericOpen(sourcesFilenames[i]));
}
// Use the first file as skeleton for header and static items.
IDfsFile source = sources[0];
IDfsFileInfo fileInfo = source.FileInfo;
DfsBuilder builder = DfsBuilder.Create(fileInfo.FileTitle, fileInfo.ApplicationTitle, fileInfo.ApplicationVersion);
// Set up the header
builder.SetDataType(fileInfo.DataType);
builder.SetGeographicalProjection(fileInfo.Projection);
builder.SetTemporalAxis(fileInfo.TimeAxis);
builder.SetItemStatisticsType(fileInfo.StatsType);
builder.DeleteValueByte = fileInfo.DeleteValueByte;
builder.DeleteValueDouble = fileInfo.DeleteValueDouble;
builder.DeleteValueFloat = fileInfo.DeleteValueFloat;
builder.DeleteValueInt = fileInfo.DeleteValueInt;
builder.DeleteValueUnsignedInt = fileInfo.DeleteValueUnsignedInt;
// Transfer compression keys - if any.
if (fileInfo.IsFileCompressed)
{
int[] xkey;
int[] ykey;
int[] zkey;
fileInfo.GetEncodeKey(out xkey, out ykey, out zkey);
builder.SetEncodingKey(xkey, ykey, zkey);
}
// Copy custom blocks - if any
foreach (IDfsCustomBlock customBlock in fileInfo.CustomBlocks)
{
builder.AddCustomBlock(customBlock);
}
int minNumTimesteps = int.MaxValue;
// Copy dynamic items for all source files
for (int j = 0; j < sources.Count; j++)
{
if (sources[j].FileInfo.TimeAxis.NumberOfTimeSteps < minNumTimesteps)
{
minNumTimesteps = sources[j].FileInfo.TimeAxis.NumberOfTimeSteps;
}
foreach (var itemInfo in sources[j].ItemInfo)
{
builder.AddDynamicItem(itemInfo);
}
}
// Create file
builder.CreateFile(targetFilename);
// Copy static items - add only from main file
IDfsStaticItem sourceStaticItem;
while (null != (sourceStaticItem = source.ReadStaticItemNext()))
{
builder.AddStaticItem(sourceStaticItem);
}
// Get the file
DfsFile file = builder.GetFile();
// Copy dynamic item data
IDfsItemData sourceData;
for (int i = 0; i < minNumTimesteps; i++)
{
for (int j = 0; j < sources.Count; j++)
{
IDfsFile sourcej = sources[j];
// Copy all items for this source
for (int k = 0; k < sourcej.ItemInfo.Count; k++)
{
sourceData = sourcej.ReadItemTimeStepNext();
file.WriteItemTimeStepNext(sourceData.Time, sourceData.Data);
}
}
}
foreach (IDfsFile sourcej in sources)
{
sourcej.Close();
}
file.Close();
}
/// <summary>
/// Disposes the res11-file
/// </summary>
public void Dispose()
{
df.Close();
}
/// <summary>
/// Creates a dfs0 file, with an equidistant time axis and one dynamic item.
/// <para>
/// It uses the generic <see cref="DfsBuilder"/>, since currently no specialized
/// builder exists for the dfs0 files.
/// </para>
/// </summary>
/// <param name="filename">Name of new file</param>
/// <param name="calendarAxis">boolean specifying whether the temporal axis should be a calendar axis or a time axis</param>
public static void CreateDfs0FileFromArray(string filename, bool calendarAxis)
{
DfsFactory factory = new DfsFactory();
DfsBuilder builder = DfsBuilder.Create("TemporalAxisTest", "dfs Timeseries Bridge", 10000);
// Set up file header
builder.SetDataType(1);
builder.SetGeographicalProjection(factory.CreateProjectionUndefined());
if (calendarAxis)
{
builder.SetTemporalAxis(factory.CreateTemporalEqCalendarAxis(eumUnit.eumUsec, new DateTime(2010, 01, 04, 12, 34, 00), 4, 10));
}
else
{
builder.SetTemporalAxis(factory.CreateTemporalEqTimeAxis(eumUnit.eumUsec, 3, 10));
}
builder.SetItemStatisticsType(StatType.RegularStat);
// Set up first item
DfsDynamicItemBuilder item1 = builder.CreateDynamicItemBuilder();
item1.Set("WaterLevel item", eumQuantity.Create(eumItem.eumIWaterLevel, eumUnit.eumUmeter),
DfsSimpleType.Float);
item1.SetValueType(DataValueType.Instantaneous);
item1.SetAxis(factory.CreateAxisEqD0());
item1.SetReferenceCoordinates(1f, 2f, 3f);
builder.AddDynamicItem(item1.GetDynamicItemInfo());
DfsDynamicItemBuilder item2 = builder.CreateDynamicItemBuilder();
item2.Set("WaterDepth item", eumQuantity.Create(eumItem.eumIWaterDepth, eumUnit.eumUmeter),
DfsSimpleType.Float);
item2.SetValueType(DataValueType.Instantaneous);
item2.SetAxis(factory.CreateAxisEqD0());
item2.SetReferenceCoordinates(1f, 2f, 3f);
builder.AddDynamicItem(item2.GetDynamicItemInfo());
// Create file
builder.CreateFile(filename);
IDfsFile file = builder.GetFile();
// Time is not important, since it is equidistant
double[] times = new double[10];
double[,] values = new double[10, 2];
// Write data to file
values[0, 0] = 0f; // water level
values[0, 1] = 100f; // water depth
values[1, 0] = 1f; // water level
values[1, 1] = 101f; // water depth
values[2, 0] = 2f; // water level
values[2, 1] = 102f; // water depth
values[3, 0] = 3f; // etc...
values[3, 1] = 103f;
values[4, 0] = 4f;
values[4, 1] = 104f;
values[5, 0] = 5f;
values[5, 1] = 105f;
values[6, 0] = 10f;
values[6, 1] = 110f;
values[7, 0] = 11f;
values[7, 1] = 111f;
values[8, 0] = 12f;
values[8, 1] = 112f;
values[9, 0] = 13f;
values[9, 1] = 113f;
DHI.Generic.MikeZero.DFS.dfs0.Dfs0Util.WriteDfs0DataDouble(file, times, values);
file.Close();
}
/// <summary>
/// Creates a dfs0 file, with an equidistant time axis and one dynamic item.
/// <para>
/// It uses the generic <see cref="DfsBuilder"/>, since currently no specialized
/// builder exists for the dfs0 files.
/// </para>
/// </summary>
/// <param name="filename">Name of new file</param>
/// <param name="calendarAxis">boolean specifying whether the temporal axis should be a calendar axis or a time axis</param>
public static void CreateDfs0File(string filename, bool calendarAxis)
{
DfsFactory factory = new DfsFactory();
DfsBuilder builder = DfsBuilder.Create("TemporalAxisTest", "dfs Timeseries Bridge", 10000);
// Set up file header
builder.SetDataType(1);
builder.SetGeographicalProjection(factory.CreateProjectionUndefined());
if (calendarAxis)
{
builder.SetTemporalAxis(factory.CreateTemporalEqCalendarAxis(eumUnit.eumUsec, new DateTime(2010, 01, 04, 12, 34, 00), 4, 10));
}
else
{
builder.SetTemporalAxis(factory.CreateTemporalEqTimeAxis(eumUnit.eumUsec, 3, 10));
}
builder.SetItemStatisticsType(StatType.RegularStat);
// Set up first item
DfsDynamicItemBuilder item1 = builder.CreateDynamicItemBuilder();
item1.Set("WaterLevel item", eumQuantity.Create(eumItem.eumIWaterLevel, eumUnit.eumUmeter),
DfsSimpleType.Float);
item1.SetValueType(DataValueType.Instantaneous);
item1.SetAxis(factory.CreateAxisEqD0());
item1.SetReferenceCoordinates(1f, 2f, 3f);
builder.AddDynamicItem(item1.GetDynamicItemInfo());
DfsDynamicItemBuilder item2 = builder.CreateDynamicItemBuilder();
item2.Set("WaterDepth item", eumQuantity.Create(eumItem.eumIWaterDepth, eumUnit.eumUmeter),
DfsSimpleType.Float);
item2.SetValueType(DataValueType.Instantaneous);
item2.SetAxis(factory.CreateAxisEqD0());
item2.SetReferenceCoordinates(1f, 2f, 3f);
builder.AddDynamicItem(item2.GetDynamicItemInfo());
// Create file
builder.CreateFile(filename);
IDfsFile file = builder.GetFile();
// Write data to file
file.WriteItemTimeStepNext(0, new float[] { 0f }); // water level
file.WriteItemTimeStepNext(0, new float[] { 100f }); // water depth
file.WriteItemTimeStepNext(0, new float[] { 1f }); // water level
file.WriteItemTimeStepNext(0, new float[] { 101f }); // water depth
file.WriteItemTimeStepNext(0, new float[] { 2f }); // water level
file.WriteItemTimeStepNext(0, new float[] { 102f }); // water depth
file.WriteItemTimeStepNext(0, new float[] { 3f }); // etc...
file.WriteItemTimeStepNext(0, new float[] { 103f });
file.WriteItemTimeStepNext(0, new float[] { 4f });
file.WriteItemTimeStepNext(0, new float[] { 104f });
file.WriteItemTimeStepNext(0, new float[] { 5f });
file.WriteItemTimeStepNext(0, new float[] { 105f });
file.WriteItemTimeStepNext(0, new float[] { 10f });
file.WriteItemTimeStepNext(0, new float[] { 110f });
file.WriteItemTimeStepNext(0, new float[] { 11f });
file.WriteItemTimeStepNext(0, new float[] { 111f });
file.WriteItemTimeStepNext(0, new float[] { 12f });
file.WriteItemTimeStepNext(0, new float[] { 112f });
file.WriteItemTimeStepNext(0, new float[] { 13f });
file.WriteItemTimeStepNext(0, new float[] { 113f });
file.Close();
}
/// <summary>
/// Create a new file, being the difference of two files.
/// <para>
/// The two input files must be equal in structure, e.g. coming
/// from the same simulation but giving different results.
/// Header and static data must be identical, only difference
/// must be in values of the dynamic data.
/// </para>
/// </summary>
public static void CreateDiffFile(string file1, string file2, string filediff = null)
{
IDfsFile dfs1 = DfsFileFactory.DfsGenericOpen(file1);
IDfsFile dfs2 = DfsFileFactory.DfsGenericOpen(file2);
// Validate that it has the same number of items.
if (dfs1.ItemInfo.Count != dfs2.ItemInfo.Count)
{
throw new Exception("Number of dynamic items does not match");
}
int numItems = dfs1.ItemInfo.Count;
// In case number of time steps does not match, take the smallest.
int numTimes = dfs1.FileInfo.TimeAxis.NumberOfTimeSteps;
if (numTimes > dfs2.FileInfo.TimeAxis.NumberOfTimeSteps)
{
numTimes = dfs2.FileInfo.TimeAxis.NumberOfTimeSteps;
Console.Out.WriteLine("Number of time steps does not match, using the smallest number");
}
// For recording max difference for every item
double[] maxDiff = new double[dfs1.ItemInfo.Count];
// Index in time (index) of maximum and first difference. -1 if no difference
int[] maxDiffTime = new int[dfs1.ItemInfo.Count];
int[] firstDiffTime = new int[dfs1.ItemInfo.Count];
for (int i = 0; i < dfs1.ItemInfo.Count; i++)
{
maxDiffTime[i] = -1;
firstDiffTime[i] = -1;
}
// Copy over info from the first file, assuming the second file contains the same data.
IDfsFileInfo fileInfo = dfs1.FileInfo;
DfsBuilder builder = null;
if (!string.IsNullOrEmpty(filediff))
{
builder = DfsBuilder.Create(fileInfo.FileTitle, fileInfo.ApplicationTitle, fileInfo.ApplicationVersion);
// Set up the header
builder.SetDataType(fileInfo.DataType);
builder.SetGeographicalProjection(fileInfo.Projection);
builder.SetTemporalAxis(fileInfo.TimeAxis);
builder.SetItemStatisticsType(fileInfo.StatsType);
builder.DeleteValueByte = fileInfo.DeleteValueByte;
builder.DeleteValueDouble = fileInfo.DeleteValueDouble;
builder.DeleteValueFloat = fileInfo.DeleteValueFloat;
builder.DeleteValueInt = fileInfo.DeleteValueInt;
builder.DeleteValueUnsignedInt = fileInfo.DeleteValueUnsignedInt;
// Transfer compression keys.
if (fileInfo.IsFileCompressed)
{
int[] xkey;
int[] ykey;
int[] zkey;
fileInfo.GetEncodeKey(out xkey, out ykey, out zkey);
builder.SetEncodingKey(xkey, ykey, zkey);
}
// Copy custom blocks
foreach (IDfsCustomBlock customBlock in fileInfo.CustomBlocks)
{
builder.AddCustomBlock(customBlock);
}
}
// Copy dynamic item definitions
bool[] floatItems = new bool[dfs1.ItemInfo.Count];
for (int i = 0; i < dfs1.ItemInfo.Count; i++)
{
var itemInfo = dfs1.ItemInfo[i];
// Validate item sizes
var itemInfo2 = dfs2.ItemInfo[i];
if (itemInfo.ElementCount != itemInfo2.ElementCount)
{
throw new Exception("Dynamic items must have same size, item number " + (i + 1) +
" has different sizes in the two files");
}
// Validate the data type, only supporting floats and doubles.
if (itemInfo.DataType == DfsSimpleType.Float)
{
floatItems[i] = true;
}
else if (itemInfo.DataType != DfsSimpleType.Double)
{
throw new Exception("Dynamic item must be double or float, item number " + (i + 1) + " is of type " +
(itemInfo.DataType));
}
builder?.AddDynamicItem(itemInfo);
}
// Create file
builder?.CreateFile(filediff);
if (builder != null)
{
// Copy over static items from file 1, assuming the static items of file 2 are identical
IDfsStaticItem si1;
while (null != (si1 = dfs1.ReadStaticItemNext()))
{
builder.AddStaticItem(si1);
}
}
// Get the file
DfsFile diff = builder?.GetFile();
// Write dynamic data to the file, being the difference between the two
for (int i = 0; i < numTimes; i++)
{
for (int j = 0; j < numItems; j++)
{
if (floatItems[j])
{
IDfsItemData <float> data1 = dfs1.ReadItemTimeStepNext() as IDfsItemData <float>;
IDfsItemData <float> data2 = dfs2.ReadItemTimeStepNext() as IDfsItemData <float>;
for (int k = 0; k < data1.Data.Length; k++)
{
float valuediff = data1.Data[k] - data2.Data[k];
data1.Data[k] = valuediff;
float absValueDiff = Math.Abs(valuediff);
if (absValueDiff > maxDiff[j])
{
maxDiff[j] = absValueDiff;
maxDiffTime[j] = i;
if (firstDiffTime[j] == -1)
{
firstDiffTime[j] = i;
}
}
}
diff?.WriteItemTimeStepNext(data1.Time, data1.Data);
}
else
{
IDfsItemData <double> data1 = dfs1.ReadItemTimeStepNext() as IDfsItemData <double>;
IDfsItemData <double> data2 = dfs2.ReadItemTimeStepNext() as IDfsItemData <double>;
for (int k = 0; k < data1.Data.Length; k++)
{
double valuediff = data1.Data[k] - data2.Data[k];
data1.Data[k] = valuediff;
double absValueDiff = Math.Abs(valuediff);
if (absValueDiff > maxDiff[j])
{
maxDiff[j] = absValueDiff;
maxDiffTime[j] = i;
if (firstDiffTime[j] == -1)
{
firstDiffTime[j] = i;
}
}
}
diff?.WriteItemTimeStepNext(data1.Time, data1.Data);
}
}
}
System.Console.WriteLine("Difference statistics:");
for (int i = 0; i < maxDiffTime.Length; i++)
{
if (maxDiffTime[i] < 0)
{
Console.WriteLine("{0,-30}: no difference", dfs1.ItemInfo[i].Name);
}
else
{
Console.WriteLine("{0,-30}: Max difference at timestep {1,3}: {2}. First difference at timestep {3}", dfs1.ItemInfo[i].Name, maxDiffTime[i], maxDiff[i], firstDiffTime[i]);
}
}
dfs1.Close();
dfs2.Close();
diff?.Close();
}
/// <summary>
/// Example of how to copy a Dfs file.
/// <para>
/// This example is intended to show how to generically copy a file. In
/// case a copy with modified data is required, this could be used as a base
/// for the copy.
/// </para>
/// </summary>
/// <param name="sourceFilename">Path and name of the source dfs file</param>
/// <param name="filename">Path and name of the new file to create</param>
public static void CopyDfsFile(string sourceFilename, string filename)
{
IDfsFile source = DfsFileFactory.DfsGenericOpen(sourceFilename);
IDfsFileInfo fileInfo = source.FileInfo;
DfsBuilder builder = DfsBuilder.Create(fileInfo.FileTitle, fileInfo.ApplicationTitle, fileInfo.ApplicationVersion);
// Set up the header
builder.SetDataType(fileInfo.DataType);
builder.SetGeographicalProjection(fileInfo.Projection);
builder.SetTemporalAxis(fileInfo.TimeAxis);
builder.SetItemStatisticsType(fileInfo.StatsType);
builder.DeleteValueByte = fileInfo.DeleteValueByte;
builder.DeleteValueDouble = fileInfo.DeleteValueDouble;
builder.DeleteValueFloat = fileInfo.DeleteValueFloat;
builder.DeleteValueInt = fileInfo.DeleteValueInt;
builder.DeleteValueUnsignedInt = fileInfo.DeleteValueUnsignedInt;
// Transfer compression keys - if any.
if (fileInfo.IsFileCompressed)
{
int[] xkey;
int[] ykey;
int[] zkey;
fileInfo.GetEncodeKey(out xkey, out ykey, out zkey);
builder.SetEncodingKey(xkey, ykey, zkey);
}
// Copy custom blocks - if any
foreach (IDfsCustomBlock customBlock in fileInfo.CustomBlocks)
{
builder.AddCustomBlock(customBlock);
}
// Copy dynamic items
foreach (var itemInfo in source.ItemInfo)
{
builder.AddDynamicItem(itemInfo);
}
// Create file
builder.CreateFile(filename);
// Copy static items
IDfsStaticItem sourceStaticItem;
while (null != (sourceStaticItem = source.ReadStaticItemNext()))
{
builder.AddStaticItem(sourceStaticItem);
}
// Get the file
DfsFile file = builder.GetFile();
// Copy dynamic item data
IDfsItemData sourceData;
while (null != (sourceData = source.ReadItemTimeStepNext()))
{
file.WriteItemTimeStepNext(sourceData.Time, sourceData.Data);
}
source.Close();
file.Close();
}
public bool GenerateWebTideNode(TVFileModel TVFileModelBC, int WebTideNodeNumb, List <Coord> CoordList, List <TVFileModel> tvFileModelList, int BoundaryConditionCodeNumber, List <List <WaterLevelResult> > AllWLResults, List <IEnumerable <CurrentResult> > AllCurrentResults)
{
List <eumItem> eumItemList = new List <eumItem>();
DfsFactory factory = new DfsFactory();
IDfsFile dfsOldFile = DfsFileFactory.DfsGenericOpen(TVFileModelBC.ServerFilePath + TVFileModelBC.ServerFileName);
DfsBuilder dfsNewFile = DfsBuilder.Create(dfsOldFile.FileInfo.FileTitle, dfsOldFile.FileInfo.ApplicationTitle, dfsOldFile.FileInfo.ApplicationVersion);
double WebTideStepsInMinutes = ((double)((IDfsEqCalendarAxis)((dfsOldFile.FileInfo).TimeAxis)).TimeStep / 60);
DateTime?dateTimeTemp = null;
int? NumberOfTimeSteps = null;
int? TimeStepInterval = null;
using (PFS pfs = new PFS(base.fi))
{
dateTimeTemp = pfs.GetVariableDateTime("FemEngineHD/TIME", "start_time");
if (dateTimeTemp == null)
{
dfsOldFile.Close();
return(false);
}
NumberOfTimeSteps = pfs.GetVariable <int>("FemEngineHD/TIME", "number_of_time_steps", 1);
if (NumberOfTimeSteps == null)
{
dfsOldFile.Close();
return(false);
}
TimeStepInterval = pfs.GetVariable <int>("FemEngineHD/TIME", "time_step_interval", 1);
if (TimeStepInterval == null)
{
dfsOldFile.Close();
return(false);
}
}
DateTime StartDate = ((DateTime)dateTimeTemp).AddHours(-1);
DateTime EndDate = ((DateTime)dateTimeTemp).AddSeconds((int)NumberOfTimeSteps * (int)TimeStepInterval).AddHours(1);
dfsNewFile.SetDataType(dfsOldFile.FileInfo.DataType);
dfsNewFile.SetGeographicalProjection(dfsOldFile.FileInfo.Projection);
dfsNewFile.SetTemporalAxis(factory.CreateTemporalEqCalendarAxis(eumUnit.eumUsec, StartDate, 0, WebTideStepsInMinutes * 60));
dfsNewFile.SetItemStatisticsType(StatType.RegularStat);
foreach (IDfsDynamicItemInfo di in dfsOldFile.ItemInfo)
{
DfsDynamicItemBuilder ddib = dfsNewFile.CreateDynamicItemBuilder();
ddib.Set(di.Name, eumQuantity.Create(di.Quantity.Item, di.Quantity.Unit), di.DataType);
ddib.SetValueType(di.ValueType);
ddib.SetAxis(factory.CreateAxisEqD1(eumUnit.eumUsec, CoordList.Count, 0, 1));
ddib.SetReferenceCoordinates(di.ReferenceCoordinateX, di.ReferenceCoordinateY, di.ReferenceCoordinateZ);
dfsNewFile.AddDynamicItem(ddib.GetDynamicItemInfo());
eumItemList.Add(di.Quantity.Item);
}
dfsOldFile.Close();
string[] NewFileErrors = dfsNewFile.Validate();
StringBuilder sbErr = new StringBuilder();
foreach (string s in NewFileErrors)
{
sbErr.AppendLine(s);
}
if (NewFileErrors.Count() > 0)
{
ErrorMessage = string.Format(CSSPDHIRes.CouldNotCreate_, TVFileModelBC.ServerFileName.Replace(".dfs0", "dfs1"));
OnCSSPDHIChanged(new CSSPDHIEventArgs(new CSSPDHIMessage("Error", -1, false, ErrorMessage)));
return(false);
}
string NewFileNameBC = TVFileModelBC.ServerFileName;
if (CoordList.Count == 0)
{
ErrorMessage = CSSPDHIRes.NumberOfWebTideNodesIsZero;
OnCSSPDHIChanged(new CSSPDHIEventArgs(new CSSPDHIMessage("Error", -1, false, ErrorMessage)));
return(false);
}
if (eumItemList.Count == 1)
{
if (eumItemList[0] == eumItem.eumIWaterLevel || eumItemList[0] == eumItem.eumIWaterDepth)
{
List <WaterLevelResult> WLResults = null;
dfsNewFile.CreateFile(TVFileModelBC.ServerFilePath + NewFileNameBC);
IDfsFile file = dfsNewFile.GetFile();
for (int i = 0; i < WLResults.ToList().Count; i++)
{
float[] floatArray = new float[AllWLResults.Count];
for (int j = 0; j < AllWLResults.Count; j++)
{
floatArray[j] = ((float)((List <WaterLevelResult>)AllWLResults[j].ToList())[i].WaterLevel);
}
file.WriteItemTimeStepNext(0, floatArray); // water level array
}
file.Close();
}
else
{
ErrorMessage = string.Format(CSSPDHIRes.FileContainsOneParamButItsNotOfTypeWLOrWDItIs_, eumItemList[0].ToString());
OnCSSPDHIChanged(new CSSPDHIEventArgs(new CSSPDHIMessage("Error", -1, false, ErrorMessage)));
return(false);
}
}
else if (eumItemList.Count == 2)
{
if (eumItemList[0] == eumItem.eumIuVelocity && eumItemList[1] == eumItem.eumIvVelocity)
{
// read web tide for the required time
List <CurrentResult> CurrentResults = null;
dfsNewFile.CreateFile(TVFileModelBC.ServerFilePath + NewFileNameBC);
IDfsFile file = dfsNewFile.GetFile();
for (int i = 0; i < CurrentResults.ToList().Count; i++)
{
float[] floatArrayX = new float[AllCurrentResults.Count];
float[] floatArrayY = new float[AllCurrentResults.Count];
for (int j = 0; j < AllCurrentResults.Count; j++)
{
floatArrayX[j] = ((float)((List <CurrentResult>)AllCurrentResults[j].ToList())[i].x_velocity);
floatArrayY[j] = ((float)((List <CurrentResult>)AllCurrentResults[j].ToList())[i].y_velocity);
}
file.WriteItemTimeStepNext(0, floatArrayX); // Current xVelocity
file.WriteItemTimeStepNext(0, floatArrayY); // Current yVelocity
}
file.Close();
}
else
{
ErrorMessage = string.Format(CSSPDHIRes.FileContains2ParamButItsNotOfUVAndVVItIs_And_, eumItemList[0].ToString(), eumItemList[1].ToString());
OnCSSPDHIChanged(new CSSPDHIEventArgs(new CSSPDHIMessage("Error", -1, false, ErrorMessage)));
return(false);
}
}
else
{
// this is not a file that is used for Water Level or Currents
}
return(false);
}
