private void CreateNewBeliefDataSet(Dict <string, EvidenceTable> mergedDataSet)
{
if (this.BeliefsData.Count == 0 || this.BeliefsData[this.BeliefsData[0].Key].Count <
mergedDataSet.Values[0].Count)
{
var evidenceDateTime = mergedDataSet.Values[0].DateTimes;
var noOfEvidenceRows = mergedDataSet.Values[0].Count;
this.BeliefsData = new Dict <string, EvidenceTable>();
foreach (var vertex in this.Network.Vertices)
{
var beliefTable = new EvidenceTable(evidenceDateTime);
var i = 0;
while (i < noOfEvidenceRows)
{
var beliefRow = new EvidenceRow
{
From = mergedDataSet[0].Value[i].From,
To = mergedDataSet[0].Value[i].To
};
beliefTable.Add(beliefRow);
i++;
}
this.BeliefsData.Add(vertex.Key, beliefTable);
}
}
}
public CellEditCommand(EvidenceRow row, string colName, Vertex selVertex, object newData, object oldData)
{
this.Row = row;
this.ColumnName = colName;
this.SelectedVertex = selVertex;
this.NewData = newData;
this.OldData = oldData;
}
private static bool Contains(this Dict <string, EvidenceTable> evidenceSet, EvidenceRow evidenceRow)
{
var values = new ObservableCollection <EvidenceTable>();
foreach (var kvp in evidenceSet)
{
values.Add(kvp.Value);
}
return(values.Any(table => table.Any(row => row.From == evidenceRow.From && row.To == evidenceRow.To)));
}
private Dict <string, EvidenceTable> CaptureInterpolatedData(Dict <string, EvidenceTable> mergedDataSet)
{
var interpolatedData = new Dict <string, EvidenceTable>();
//if (this.SelectedInterpolationData == null)
//{
// return interpolatedData;
//}
foreach (var kvp in this.PipeLineData.UserDataObj)
{
var interpolatedTable = new EvidenceTable(this.dates);
interpolatedData.Add(kvp.Key, interpolatedTable);
foreach (var column in kvp.Value.InterpolatedNodeData)
{
if (column.Value.Points == null)
{
continue;
}
this.SelectedInterpolationData = column.Value;
if (interpolatedTable.Count == 0)
{
foreach (var mergedEvidenceRow in mergedDataSet.Values[0])
{
var interpolatedRow = new EvidenceRow {
From = mergedEvidenceRow.From, To = mergedEvidenceRow.To
};
interpolatedTable.Add(interpolatedRow);
}
}
// interpolatedData.Add(kvp.Key, interpolatedTable);
foreach (var interpolatedRow in interpolatedTable)
{
var midRangeValue = (interpolatedRow.From + interpolatedRow.To) / 2;
var evidenceString = this.SelectedInterpolationData.GetEvidenceString(midRangeValue, this.VerticalAxis.Equals(LinearAxis)?VertexAxisType.Linear: VertexAxisType.Logarithmic);
interpolatedRow[column.Key] = this.Network.Vertices[kvp.Key].States.ParseEvidenceString(evidenceString);
}
}
Console.WriteLine();
}
return(interpolatedData);
}
public bool Contains(EvidenceRow other)
{
if (!other.From.Equals(other.To))
{
return(this.From <= other.From && other.To <= this.To);
}
// Ex: section such as 0-12/12-24 should not be picked up for point value 12-12
var pointValue = other.From;
if (this.From.Equals(pointValue) || this.To.Equals(pointValue))
{
return(this.From.Equals(other.From) && this.To.Equals(other.To));
}
return(this.From <= other.From && other.To <= this.To);
}
public static void AddRangeAnnotation(this RadCartesianChart chart, EvidenceRow dataRow, string columnName)
{
var from = (double)dataRow["From"];
var to = (double)dataRow["To"];
var vertexEvidence = dataRow[columnName] as VertexEvidence;
chart.Annotations.Add(new CartesianMarkedZoneAnnotation
{
Fill = new SolidColorBrush(Colors.Goldenrod),
HorizontalFrom = @from,
HorizontalTo = to,
Stroke = new SolidColorBrush(Colors.Goldenrod),
Tag = dataRow,
VerticalFrom = vertexEvidence.Params[0],
VerticalTo = vertexEvidence.Params[1],
ZIndex = -200,
});
}
public static void UpdateCommentBlocks(this RadCartesianChart chart, EvidenceRow row, NumericalAxis verticalAxis)
{
var fillBrush = new SolidColorBrush(Color.FromRgb(236, 236, 236));
var strokeBrush = new SolidColorBrush(Colors.LightGray);
var from = (double)row["From"];
var to = (double)row["To"];
var comment = (string)row["Comment"];
chart.Annotations.Remove(annotation => ReferenceEquals(annotation.Tag, row));
if (from == to)
{
chart.Annotations.Add(new CartesianCustomLineAnnotation
{
HorizontalFrom = @from,
HorizontalTo = to,
Stroke = strokeBrush,
StrokeThickness = 2,
Tag = row,
VerticalFrom = verticalAxis.Minimum,
VerticalTo = verticalAxis.Maximum,
ZIndex = -500
});
}
else
{
chart.Annotations.Add(new CartesianMarkedZoneAnnotation
{
Fill = fillBrush,
HorizontalFrom = @from,
HorizontalTo = to,
Stroke = strokeBrush,
Tag = row,
VerticalFrom = verticalAxis.Minimum,
VerticalTo = verticalAxis.Maximum,
ZIndex = -500
});
}
}
public static void AddLineAnnotation(this RadCartesianChart chart, EvidenceRow dataRow, string columnName)
{
var from = (double)dataRow["From"];
var to = (double)dataRow["To"];
var vertexEvidence = dataRow[columnName] as VertexEvidence;
var verticalValue = vertexEvidence.Type == VertexEvidenceType.Number
? vertexEvidence.Params[0]
: vertexEvidence.Params[vertexEvidence.Value.IndexOf(val => val == 1)];
chart.Annotations.Add(new CartesianCustomLineAnnotation
{
HorizontalFrom = @from,
HorizontalTo = to,
Stroke = new SolidColorBrush(Colors.Goldenrod),
StrokeThickness = 2,
Tag = dataRow,
VerticalFrom = verticalValue,
VerticalTo = verticalValue,
ZIndex = -200
});
}
public static Dict <string, EvidenceTable> Merge(Dict <string, NodeData> userDataObj, List <double> baseRowsList, Network network)
{
var unmergedEvidenceSet = new Dict <string, EvidenceTable>();
var mergedEvidenceSet = new Dict <string, EvidenceTable>();
var newList = new List <double>();
if (baseRowsList != null)
{
newList = baseRowsList.ToList();
}
foreach (var kvp in userDataObj)
{
foreach (var row in kvp.Value.UserTable)
{
var colNames = row.GetDynamicMemberNames().ToList();
foreach (var colName in colNames)
{
if (row[colName] == "")
{
row[colName] = new VertexEvidence {
Type = VertexEvidenceType.Null
};
}
}
}
}
// Remove Empty EvidenceTables
var deleteNodes = new List <string>();
foreach (var kvp in userDataObj)
{
if (!kvp.Value.UserTable.Any())
{
deleteNodes.Add(kvp.Key);
}
else
{
var isEmpty = true;
foreach (var row in kvp.Value.UserTable)
{
foreach (var colName in row.GetDynamicMemberNames().ToList())
{
if ((row[colName] as VertexEvidence).Type != VertexEvidenceType.Null)
{
isEmpty = false;
}
if ((row[colName] as VertexEvidence).Type == VertexEvidenceType.Invalid)
{
row[colName] = new VertexEvidence {
Type = VertexEvidenceType.Null
};
}
}
}
if (isEmpty)
{
deleteNodes.Add(kvp.Key);
}
}
}
foreach (var key in deleteNodes)
{
userDataObj.Remove(key);
}
foreach (var kvp in userDataObj)
{
unmergedEvidenceSet.Add(kvp.Key, kvp.Value.UserTable);
}
// Generate a list which holds the modified section ranges
foreach (var kvp in unmergedEvidenceSet)
{
var evidenceTable = kvp.Value;
foreach (var evidenceRow in evidenceTable)
{
newList.Add(evidenceRow.From);
newList.Add(evidenceRow.To);
}
}
newList.Sort(); // sorting the new list
foreach (var kvp in unmergedEvidenceSet)
{
var unmergeEvidenceTableKey = kvp.Key;
var unmergedEvidenceTable = kvp.Value;
if (unmergedEvidenceTable.Count == 0)
{
continue;
}
var mergedEvidenceTable = new EvidenceTable(unmergedEvidenceTable.DateTimes);
for (var i = 0; i < newList.Count - 1; i++)
{
var evidenceRow = new EvidenceRow {
From = newList[i], To = newList[i + 1]
};
// If this is a point feature and no table contains it, then don't add.
if (!unmergedEvidenceSet.Contains(evidenceRow) && newList[i] == newList[i + 1])
{
continue;
}
// multiple inputs for a single point feature are allowed
if (unmergedEvidenceSet.Contains(evidenceRow) && newList[i] == newList[i + 1])
{
mergedEvidenceTable.Add(evidenceRow);
}
else
{
mergedEvidenceTable.AddUnique(evidenceRow);
}
}
EvidenceRow uniqueRow = null;
var deleteRows = new ObservableCollection <EvidenceRow>();
foreach (var mergedEvidenceRow in mergedEvidenceTable)
{
if (uniqueRow == null)
{
uniqueRow = mergedEvidenceRow;
continue;
}
if (mergedEvidenceRow.From == uniqueRow.From && mergedEvidenceRow.To == uniqueRow.To)
{
deleteRows.Add(mergedEvidenceRow);
}
else
{
uniqueRow = mergedEvidenceRow;
}
}
mergedEvidenceTable.Remove(deleteRows);
foreach (var mergedEvidenceRow in mergedEvidenceTable)
{
var unmergedEvidenceRows = unmergedEvidenceTable.Where(row => row.Contains(mergedEvidenceRow)).ToList();
var columnNames = mergedEvidenceRow.GetDynamicMemberNames().ToList();
if (unmergedEvidenceRows.Count() > 1) // merged section has multiple input values
{
var avgEvidenceValues = GetEvidenceAverage(unmergedEvidenceRows, network.Vertices[unmergeEvidenceTableKey].States.Count());
foreach (var columnName in columnNames)
{
var evidenceString = avgEvidenceValues[columnName].ValueToDistribution();
mergedEvidenceRow[columnName] = network.Vertices[unmergeEvidenceTableKey].States.ParseEvidenceString(evidenceString);
}
}
else
{
foreach (var columnName in columnNames)
{
mergedEvidenceRow[columnName] = !unmergedEvidenceRows.Any()
? new VertexEvidence {
Type = VertexEvidenceType.Null
}
: unmergedEvidenceRows.FirstOrDefault()[columnName];
}
}
}
mergedEvidenceSet.Add(unmergeEvidenceTableKey, mergedEvidenceTable);
}
return(mergedEvidenceSet);
}
public static void AddInterpolatedDistributionAnnotation(this RadCartesianChart chart, Vertex selectedVertex, EvidenceRow dataRow, string columnName)
{
var from = (double)dataRow["From"];
var to = (double)dataRow["To"];
var vertexEvidence = dataRow[columnName] as VertexEvidence;
foreach (var state in selectedVertex.States)
{
var stateIndex = selectedVertex.States.IndexOf(state);
var gammaAdjustedValue = Math.Pow(vertexEvidence.Value[stateIndex], 0.7);
chart.Annotations.Add(new CartesianMarkedZoneAnnotation
{
Fill = new SolidColorBrush(Color.FromArgb((byte)(gammaAdjustedValue * 255), 218, 165, 32)),
HorizontalFrom = @from,
HorizontalTo = to,
Stroke = new SolidColorBrush(Color.FromArgb((byte)(gammaAdjustedValue * 255), 218, 165, 32)),
Tag = dataRow,
VerticalFrom = state.SafeMin,
VerticalTo = state.SafeMax,
ZIndex = -200
});
}
}
public static void AddTriangularDistributionAnnotation(this RadCartesianChart chart, Vertex selectedVertex, EvidenceRow dataRow, string columnName)
{
var from = (double)dataRow["From"];
var to = (double)dataRow["To"];
var vertexEvidence = dataRow[columnName] as VertexEvidence;
var fill1 = new LinearGradientBrush
{
StartPoint = new Point(0, 0),
EndPoint = new Point(0, 1)
};
fill1.GradientStops.Add(new GradientStop {
Offset = 0, Color = Color.FromArgb(255, 218, 165, 32)
});
fill1.GradientStops.Add(new GradientStop {
Offset = 1, Color = Color.FromArgb(50, 218, 165, 32)
});
chart.Annotations.Add(new CartesianMarkedZoneAnnotation
{
Fill = fill1,
HorizontalFrom = @from,
HorizontalTo = to,
Stroke = new SolidColorBrush(Colors.Goldenrod),
Tag = dataRow,
VerticalFrom = vertexEvidence.Params[1],
VerticalTo = vertexEvidence.Params[0],
ZIndex = -200
});
var fill2 = new LinearGradientBrush
{
StartPoint = new Point(0, 0),
EndPoint = new Point(0, 1)
};
fill2.GradientStops.Add(new GradientStop {
Offset = 0, Color = Color.FromArgb(0, 218, 165, 32)
});
fill2.GradientStops.Add(new GradientStop {
Offset = 1, Color = Color.FromArgb(255, 218, 165, 32)
});
chart.Annotations.Add(new CartesianMarkedZoneAnnotation
{
Fill = fill2,
HorizontalFrom = @from,
HorizontalTo = to,
Stroke = new SolidColorBrush(Colors.Goldenrod),
Tag = dataRow,
VerticalFrom = vertexEvidence.Params[2],
VerticalTo = vertexEvidence.Params[1],
ZIndex = -200
});
}
public static void AddPointAnnotation(this RadCartesianChart chart, EvidenceRow dataRow, string columnName)
{
var from = (double)dataRow["From"];
var to = (double)dataRow["To"];
var comment = (string)dataRow["Comment"];
var vertexEvidence = dataRow[columnName] as VertexEvidence;
var verticalValue = vertexEvidence.Type == VertexEvidenceType.Number
? vertexEvidence.Params[0]
: vertexEvidence.Params[vertexEvidence.Value.IndexOf(val => val == 1)];
var commentTextBlock = new TextBlock {
Text = comment, Margin = new Thickness(8, 0, 0, 0)
};
var ellipse = new Ellipse
{
Fill = new SolidColorBrush(Colors.Goldenrod),
Height = 8,
Stroke = new SolidColorBrush(Colors.Goldenrod),
Width = 8,
};
chart.Annotations.Add(new CartesianCustomAnnotation
{
Content = ellipse,
HorizontalAlignment = HorizontalAlignment.Center,
HorizontalValue = (from + to) / 2,
Tag = dataRow,
VerticalAlignment = VerticalAlignment.Center,
VerticalValue = verticalValue,
ZIndex = -200
});
if (comment == null || comment.Equals(""))
{
return;
}
if (chart.VerticalAxis as LinearAxis == null)
{
chart.Annotations.Add(new CartesianCustomAnnotation
{
Content = commentTextBlock,
HorizontalAlignment = (from + to) / 2 > 0.9 * (chart.HorizontalAxis as LinearAxis).Maximum ? HorizontalAlignment.Left : HorizontalAlignment.Right,
HorizontalValue = (from + to) / 2,
Tag = dataRow,
VerticalAlignment = verticalValue > 0.9 * (chart.VerticalAxis as LogarithmicAxis).Maximum ? VerticalAlignment.Bottom : VerticalAlignment.Top,
VerticalValue = verticalValue,
ZIndex = -200
});
}
else
{
chart.Annotations.Add(new CartesianCustomAnnotation
{
Content = commentTextBlock,
HorizontalAlignment = (from + to) / 2 > 0.9 * (chart.HorizontalAxis as LinearAxis).Maximum ? HorizontalAlignment.Left : HorizontalAlignment.Right,
HorizontalValue = (from + to) / 2,
Tag = dataRow,
VerticalAlignment = verticalValue > 0.9 * (chart.VerticalAxis as LinearAxis).Maximum ? VerticalAlignment.Bottom : VerticalAlignment.Top,
VerticalValue = verticalValue,
ZIndex = -200
});
}
}
private void Plot(EvidenceRow dataRow, string columnName)
{
var fillBrush = new SolidColorBrush(Colors.Goldenrod);
var strokeBrush = new SolidColorBrush(Colors.Goldenrod);
var from = (double)dataRow["From"];
var to = (double)dataRow["To"];
var vertexEvidence = dataRow[columnName] as VertexEvidence;
if (vertexEvidence == null)
{
this.Chart.Annotations.Remove(annotation => ReferenceEquals(annotation.Tag, dataRow));
return;
}
if (vertexEvidence.Type == VertexEvidenceType.Invalid)
{
// MessageBox.Show("Invalid input entered");
dataRow[columnName] = new VertexEvidence {
Type = VertexEvidenceType.Null
};
return;
}
// Remove older annotations
this.Chart.Annotations.Remove(annotation => ReferenceEquals(annotation.Tag, dataRow));
this.Chart.AddNodeStateLines(this.SelectedVertex, this.PipeLineData.BaseTableMax, this.PipeLineData.BaseTableMin, this.VerticalAxis);
if (selectedTheme == DataTheme.User)
{
if (vertexEvidence.Type == VertexEvidenceType.Number)
{
if (from == to)
{
this.Chart.AddPointAnnotation(dataRow, columnName);
}
else
{
this.Chart.AddLineAnnotation(dataRow, columnName);
}
}
else if (vertexEvidence.Type == VertexEvidenceType.Range)
{
this.Chart.AddRangeAnnotation(dataRow, columnName);
}
else if (vertexEvidence.Type == VertexEvidenceType.State)
{
if (from == to)
{
this.Chart.AddPointAnnotation(dataRow, columnName);
}
else
{
this.Chart.AddLineAnnotation(dataRow, columnName);
}
}
else if (vertexEvidence.Type == VertexEvidenceType.Triangular)
{
this.Chart.AddTriangularDistributionAnnotation(this.SelectedVertex, dataRow, columnName);
}
else if (vertexEvidence.Type != VertexEvidenceType.Null)
{
this.Chart.AddInterpolatedDistributionAnnotation(this.SelectedVertex, dataRow, columnName);
}
}
else if (vertexEvidence.Type != VertexEvidenceType.Null)
{
this.Chart.AddInterpolatedDistributionAnnotation(this.SelectedVertex, dataRow, columnName);
}
}
