private void InterpolateCvY(double value)
{
var interpColumnName = CvYColumnConverter.NameFromValue(value);
var interpTable = new TableProcessing.Table("Interpolate " + interpColumnName);
interpTable.AddColumn(tables.OrdinKtgr.Column("PY"));
var floorValue = double.NegativeInfinity;
var ceilValue = double.PositiveInfinity;
for (var i = 0; i < tables.OrdinKtgr.DataTable.Columns.Count; i++)
{
var column = tables.OrdinKtgr.DataTable.Columns[i];
if (column.ColumnName.IndexOf("CvY_", StringComparison.Ordinal) != 0)
{
continue;
}
var CV_value = CvYColumnConverter.ValueFromName(column.ColumnName);
if (CV_value < value)
{
floorValue = CV_value;
}
else if (CV_value > value)
{
ceilValue = CV_value;
break;
}
}
var floorStr = CvYColumnConverter.NameFromValue(floorValue);
var ceilStr = CvYColumnConverter.NameFromValue(ceilValue);
interpTable.AddColumn(tables.OrdinKtgr.Column(floorStr));
var column_res = interpTable.Column(interpColumnName);
interpTable.AddColumn(tables.OrdinKtgr.Column(ceilStr));
interpTable.IterateRows(row =>
{
double[] x = { floorValue, ceilValue };
double[] y =
{
row[floorStr].DoubleValue,
row[ceilStr].DoubleValue
};
var res = LinearSpline.Interpolate(x, y).Interpolate(value);
row.Set(column_res.Name, res);
}, column_res.Name);
tables.OrdinKtgr.AddColumn(interpTable.Column(interpColumnName));
}
private void Calc_PY()
{
var interpTable = new TableProcessing.Table("Інтерполяція PY");
tables.AddCustomTable(interpTable);
interpTable.AddColumn("PY");
interpTable.AddRow("0,001");
interpTable.AddRow("0,01");
interpTable.AddRow("0,03");
interpTable.AddRow("0,05");
interpTable.AddRow("0,1");
interpTable.AddRow("0,3");
interpTable.AddRow("0,5");
for (var i = 1; i <= 99; i++)
{
interpTable.AddRow(i);
}
tables.CalcsHydro.IterateRows(row =>
{
var kY = row["kY"].DoubleValue;
var CvY_columnName = row["CvY_Column"].StringValue;
if (CvY_columnName.IndexOf("CvY_", StringComparison.Ordinal) != 0)
{
return;
}
if (!tables.OrdinKtgr.DataTable.Columns.Contains(CvY_columnName))
{
var value_CvY = CvYColumnConverter.ValueFromName(CvY_columnName);
InterpolateCvY(value_CvY);
}
var PY_cells = tables.OrdinKtgr.Column("PY").GetCells();
var CvY_cells = tables.OrdinKtgr.Column(CvY_columnName).GetCells();
var x = new List <double>();
var y = new List <double>();
for (var i = 0; i < PY_cells.Count; i++)
{
Etc.NoThrow(() =>
{
var xValue = PY_cells[i].DoubleValue;
var yValue = CvY_cells[i].DoubleValue;
x.Add(xValue);
y.Add(yValue);
});
}
Etc.NoThrow(() =>
{
var spline = LinearSpline.Interpolate(x, y);
interpTable.IterateRows(row2 =>
{
row2.Set(CvY_columnName,
spline.Interpolate(row2["PY"].DoubleValue));
}, CvY_columnName);
});
var PY = Find_PY(interpTable, kY, CvY_columnName);
row.Set("PY", PY);
}, "PY");
tables.Result.AddColumn(tables.CalcsHydro.Column("PY"));
}
private void TestConvertToValue(string name, double value)
{
Assert.AreEqual(value, CvYColumnConverter.ValueFromName(name), "name({0}) -> value({1})", name, value);
}