/// <summary>
/// Sets up the data to be displayed in the table. </summary>
/// <param name="data"> a Vector of StateMod_DelayTable objects from which the data to b
/// be displayed in the table will be gathered. </param>
/*
* private void setupData(List data) {
* int num = 0;
* int size = data.size();
* StateMod_DelayTable dt = null;
* String id = null;
* __data = new List[__COLUMNS];
* for (int i = 0; i < __COLUMNS; i++) {
* __data[i] = new Vector();
* }
*
* __rowMap = new Vector();
*
* double total = 0;
* int rowCount = 0;
* for (int i = 0; i < size; i++) {
* total = 0;
* dt = (StateMod_DelayTable)data.get(i);
* id = dt.getID();
* num = dt.getNdly();
* for (int j = 0; j < num; j++) {
* __data[COL_PLAN_ID].add(id);
* __data[COL_RIVER_NODE_ID].add(new Integer(j + 1));
* __data[COL_PERCENT_RETURN].add( new Double(dt.getRet_val(j)));
* total += dt.getRet_val(j);
* __rowMap.add(new Integer(rowCount));
* rowCount++;
* }
*
* __data[COL_PLAN_ID].add("TOTAL " + id);
* __data[COL_RIVER_NODE_ID].add(new Integer(-999));
* __data[COL_PERCENT_RETURN].add(new Double(total));
*
* rowCount++;
* }
* _rows = rowCount;
* }
*/
/// <summary>
/// Sets the value at the specified position to the specified value. </summary>
/// <param name="value"> the value to set the cell to. </param>
/// <param name="row"> the row of the cell for which to set the value. </param>
/// <param name="col"> the col of the cell for which to set the value. </param>
public virtual void setValueAt(object value, int row, int col)
{
if (_sortOrder != null)
{
row = _sortOrder[row];
}
StateMod_ReturnFlow rf = (StateMod_ReturnFlow)_data.get(row);
switch (col)
{
case COL_PLAN_ID:
rf.setID((string)value);
break;
case COL_RIVER_NODE_ID:
rf.setCrtnid((string)value);
break;
case COL_PERCENT_RETURN:
rf.setPcttot((double?)value);
break;
case COL_DELAY_TABLE_ID:
rf.setIrtndl((string)value);
break;
case COL_COMMENT:
rf.setComment((string)value);
break;
}
base.setValueAt(value, row, col);
}
/// <summary>
/// Read return information in and store in a list. </summary>
/// <param name="filename"> filename containing return flow information </param>
/// <param name="smdataCompType"> the StateMod_DataSet component type, passed to the constructor of StateMod_ReturnFlow
/// objects. </param>
/// <exception cref="Exception"> if an error occurs </exception>
//JAVA TO C# CONVERTER WARNING: Method 'throws' clauses are not available in .NET:
//ORIGINAL LINE: public static java.util.List<StateMod_ReturnFlow> readStateModFile(String filename, int smdataCompType) throws Exception
public static IList <StateMod_ReturnFlow> readStateModFile(string filename, int smdataCompType)
{
string routine = "StateMod_ReturnFlow.readStateModFile";
string iline = null;
IList <string> v;
IList <StateMod_ReturnFlow> theReturns = new List <StateMod_ReturnFlow>();
int linecount = 0;
StateMod_ReturnFlow aReturn = null;
StreamReader @in = null;
Message.printStatus(2, routine, "Reading return file: " + filename);
int size = 0;
int errorCount = 0;
try
{
@in = new StreamReader(IOUtil.getPathUsingWorkingDir(filename));
while (!string.ReferenceEquals((iline = @in.ReadLine()), null))
{
++linecount;
// check for comments
if (iline.StartsWith("#", StringComparison.Ordinal) || (iline.Trim().Length == 0))
{
// Special dynamic header comments written by software and blank lines - no need to keep
continue;
}
if (Message.isDebugOn)
{
Message.printDebug(50, routine, "line: " + iline);
}
// Break the line using whitespace, while allowing for quoted strings...
v = StringUtil.breakStringList(iline, " \t", StringUtil.DELIM_ALLOW_STRINGS | StringUtil.DELIM_SKIP_BLANKS);
size = 0;
if (v != null)
{
size = v.Count;
}
if (size < 4)
{
Message.printStatus(2, routine, "Ignoring line " + linecount + " not enough data values. Have " + size + " expecting 4+");
++errorCount;
continue;
}
// Uncomment if testing...
//Message.printStatus ( 2, routine, "" + v );
// Allocate new plan node and set the values
aReturn = new StateMod_ReturnFlow(smdataCompType);
aReturn.setID(v[0].Trim());
aReturn.setName(v[0].Trim()); // Same as ID
aReturn.setCrtnid(v[1].Trim());
aReturn.setCgoto(v[1].Trim()); // Redundant
aReturn.setPcttot(v[2].Trim());
aReturn.setIrtndl(v[3].Trim());
if (v.Count > 4)
{
aReturn.setComment(v[4].Trim());
}
// Set the return to not dirty because it was just initialized...
aReturn.setDirty(false);
// Add the return to the list of returns
theReturns.Add(aReturn);
}
}
catch (Exception e)
{
Message.printWarning(3, routine, "Error reading line " + linecount + " \"" + iline + "\" uniquetempvar.");
Message.printWarning(3, routine, e);
throw e;
}
finally
{
if (@in != null)
{
@in.Close();
}
}
if (errorCount > 0)
{
throw new Exception("There were " + errorCount + " errors processing the data - refer to log file.");
}
return(theReturns);
}