#region License Information
/* HeuristicLab
* Copyright (C) 2002-2012 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
*
* This file is part of HeuristicLab.
*
* HeuristicLab is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* HeuristicLab is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with HeuristicLab. If not, see .
*/
#endregion
using System;
using System.Collections.Generic;
using System.Drawing;
using System.Linq;
using System.Windows.Forms;
using HeuristicLab.Common;
using HeuristicLab.Data;
using HeuristicLab.MainForm;
using HeuristicLab.MainForm.WindowsForms;
using HeuristicLab.Optimization;
namespace HeuristicLab.Problems.DataAnalysis.Symbolic.Views {
[Content(typeof(RunCollection), false)]
[View("Variable Impacts")]
public sealed partial class RunCollectionVariableImpactView : AsynchronousContentView {
private const string variableImpactResultName = "Variable impacts";
private const string crossValidationFoldsResultName = "CrossValidation Folds";
private const string numberOfFoldsParameterName = "Folds";
public RunCollectionVariableImpactView() {
InitializeComponent();
}
public new RunCollection Content {
get { return (RunCollection)base.Content; }
set { base.Content = value; }
}
#region events
protected override void RegisterContentEvents() {
base.RegisterContentEvents();
Content.UpdateOfRunsInProgressChanged += Content_UpdateOfRunsInProgressChanged;
Content.ItemsAdded += Content_ItemsAdded;
Content.ItemsRemoved += Content_ItemsRemoved;
Content.CollectionReset += Content_CollectionReset;
RegisterRunEvents(Content);
}
protected override void DeregisterContentEvents() {
base.RegisterContentEvents();
Content.UpdateOfRunsInProgressChanged -= Content_UpdateOfRunsInProgressChanged;
Content.ItemsAdded -= Content_ItemsAdded;
Content.ItemsRemoved -= Content_ItemsRemoved;
Content.CollectionReset -= Content_CollectionReset;
DeregisterRunEvents(Content);
}
private void RegisterRunEvents(IEnumerable runs) {
foreach (IRun run in runs)
run.Changed += Run_Changed;
}
private void DeregisterRunEvents(IEnumerable runs) {
foreach (IRun run in runs)
run.Changed -= Run_Changed;
}
private void Content_ItemsAdded(object sender, HeuristicLab.Collections.CollectionItemsChangedEventArgs e) {
RegisterRunEvents(e.Items);
UpdateData();
}
private void Content_ItemsRemoved(object sender, HeuristicLab.Collections.CollectionItemsChangedEventArgs e) {
DeregisterRunEvents(e.Items);
UpdateData();
}
private void Content_CollectionReset(object sender, HeuristicLab.Collections.CollectionItemsChangedEventArgs e) {
DeregisterRunEvents(e.OldItems);
RegisterRunEvents(e.Items);
UpdateData();
}
private void Content_UpdateOfRunsInProgressChanged(object sender, EventArgs e) {
if (!Content.UpdateOfRunsInProgress) UpdateData();
}
private void Run_Changed(object sender, EventArgs e) {
if (!Content.UpdateOfRunsInProgress) UpdateData();
}
#endregion
protected override void OnContentChanged() {
base.OnContentChanged();
this.UpdateData();
}
private void comboBox_SelectedValueChanged(object sender, EventArgs e) {
if (comboBox.SelectedItem != null) {
var visibleRuns = from run in Content where run.Visible select run;
if (comboBox.SelectedIndex == 0) {
var selectedFolds = from r in visibleRuns
let foldCollection = (RunCollection)r.Results[crossValidationFoldsResultName]
from run in foldCollection
let name = (r.Name + " " + run.Name)
select new { run, name };
matrixView.Content = CalculateVariableImpactMatrix(selectedFolds.Select(x => x.run).ToArray(), selectedFolds.Select(x => x.name).ToArray());
} else {
var selectedFolds = from r in visibleRuns
let foldCollection = (RunCollection)r.Results[crossValidationFoldsResultName]
let run = foldCollection.ElementAt(comboBox.SelectedIndex - 1)
let name = (r.Name + " " + run.Name)
select new { run, name };
matrixView.Content = CalculateVariableImpactMatrix(selectedFolds.Select(x => x.run).ToArray(), selectedFolds.Select(x => x.name).ToArray());
}
}
}
private void UpdateData() {
if (InvokeRequired) {
Invoke((Action)UpdateData);
} else {
if (Content != null) {
comboBox.Items.Clear();
comboBox.Enabled = false;
comboBox.Visible = false;
foldsLabel.Visible = false;
variableImpactsGroupBox.Dock = DockStyle.Fill;
var visibleRuns = Content.Where(r => r.Visible).ToArray();
if (visibleRuns.Length == 0) {
DisplayMessage("Run collection is empty.");
} else if (visibleRuns.All(r => r.Parameters.ContainsKey(numberOfFoldsParameterName))) {
// check if all runs are comparable (CV or normal runs)
CheckAndUpdateCvRuns();
} else if (visibleRuns.All(r => !r.Parameters.ContainsKey(numberOfFoldsParameterName))) {
CheckAndUpdateNormalRuns();
} else {
// there is a mix of CV and normal runs => show an error message
DisplayMessage("The run collection contains a mixture of normal runs and cross-validation runs. Variable impact calculation does not work in this case.");
}
}
}
}
private void CheckAndUpdateCvRuns() {
var visibleRuns = from run in Content where run.Visible select run;
var representativeRun = visibleRuns.First();
// make sure all runs have the same number of folds
int nFolds = ((IntValue)representativeRun.Parameters[numberOfFoldsParameterName]).Value;
if (visibleRuns.All(r => ((IntValue)r.Parameters[numberOfFoldsParameterName]).Value == nFolds)) {
var allFoldResults = visibleRuns.SelectMany(run => (RunCollection)run.Results[crossValidationFoldsResultName]);
// make sure each fold contains variable impacts
if (!allFoldResults.All(r => r.Results.ContainsKey(variableImpactResultName))) {
DisplayMessage("At least one of the runs does not contain a variable impact result.");
} else {
// make sure each of the runs has the same input variables
var allVariableNames = from run in allFoldResults
let varImpacts = (DoubleMatrix)run.Results[variableImpactResultName]
select varImpacts.RowNames;
var groupedVariableNames = allVariableNames
.SelectMany(x => x)
.GroupBy(x => x);
if (groupedVariableNames.Any(g => g.Count() != allFoldResults.Count())) {
DisplayMessage("At least one of the runs has a different input variable set than the rest.");
} else {
// populate combobox
comboBox.Items.Add("Overall");
for (int foldIndex = 0; foldIndex < nFolds; foldIndex++) {
comboBox.Items.Add("Fold " + foldIndex);
}
comboBox.SelectedIndex = 0;
comboBox.Enabled = true;
comboBox.Visible = true;
foldsLabel.Visible = true;
variableImpactsGroupBox.Controls.Clear();
variableImpactsGroupBox.Dock = DockStyle.None;
variableImpactsGroupBox.Anchor = AnchorStyles.Left | AnchorStyles.Top | AnchorStyles.Right |
AnchorStyles.Bottom;
variableImpactsGroupBox.Height = this.Height - comboBox.Height - 12;
variableImpactsGroupBox.Width = this.Width;
matrixView.Dock = DockStyle.Fill;
variableImpactsGroupBox.Controls.Add(matrixView);
}
}
} else {
DisplayMessage("At least on of the cross-validation runs has a different number of folds than the rest.");
}
}
private void CheckAndUpdateNormalRuns() {
// make sure all runs contain variable impact results
var visibleRuns = from run in Content where run.Visible select run;
if (!visibleRuns.All(r => r.Results.ContainsKey(variableImpactResultName))) {
DisplayMessage("At least one of the runs does not contain a variable impact result.");
} else {
// make sure each of the runs has the same input variables
var allVariableNames = from run in visibleRuns
let varImpacts = (DoubleMatrix)run.Results[variableImpactResultName]
select varImpacts.RowNames;
var groupedVariableNames = allVariableNames
.SelectMany(x => x)
.GroupBy(x => x);
if (groupedVariableNames.Any(g => g.Count() != visibleRuns.Count())) {
DisplayMessage("At least one of the runs has a different input variable set than the rest.");
} else {
if (!variableImpactsGroupBox.Controls.Contains(matrixView)) {
variableImpactsGroupBox.Controls.Clear();
matrixView.Dock = DockStyle.Fill;
variableImpactsGroupBox.Controls.Add(matrixView);
}
matrixView.Content = CalculateVariableImpactMatrix(visibleRuns.ToArray(), visibleRuns.Select(r => r.Name).ToArray());
}
}
}
private DoubleMatrix CalculateVariableImpactMatrix(IRun[] runs, string[] runNames) {
DoubleMatrix matrix = null;
IEnumerable allVariableImpacts = (from run in runs
select run.Results[variableImpactResultName]).Cast();
IEnumerable variableNames = (from variableImpact in allVariableImpacts
from variableName in variableImpact.RowNames
select variableName)
.Distinct();
// filter variableNames: only include names that have at least one non-zero value in a run
List variableNamesList = (from variableName in variableNames
where GetVariableImpacts(variableName, allVariableImpacts).Any(x => !x.IsAlmost(0.0))
select variableName)
.ToList();
List statictics = new List { "Median Rank", "Mean", "StdDev", "pValue" };
List columnNames = new List(runNames);
columnNames.AddRange(statictics);
int numberOfRuns = runs.Length;
matrix = new DoubleMatrix(variableNamesList.Count, numberOfRuns + statictics.Count);
matrix.SortableView = true;
matrix.ColumnNames = columnNames;
// calculate statistics
List> variableImpactsOverRuns = (from variableName in variableNamesList
select GetVariableImpacts(variableName, allVariableImpacts).ToList())
.ToList();
List> variableRanks = (from variableName in variableNamesList
select GetVariableImpactRanks(variableName, allVariableImpacts).ToList())
.ToList();
if (variableImpactsOverRuns.Count() > 0) {
// the variable with the worst median impact value is chosen as the reference variable
// this is problematic if all variables are relevant, however works often in practice
List referenceImpacts = (from impacts in variableImpactsOverRuns
let avg = impacts.Median()
orderby avg
select impacts)
.First();
// for all variables
for (int row = 0; row < variableImpactsOverRuns.Count; row++) {
// median rank
matrix[row, numberOfRuns] = variableRanks[row].Median();
// also show mean and std.dev. of relative variable impacts to indicate the relative difference in impacts of variables
matrix[row, numberOfRuns + 1] = Math.Round(variableImpactsOverRuns[row].Average(), 3);
matrix[row, numberOfRuns + 2] = Math.Round(variableImpactsOverRuns[row].StandardDeviation(), 3);
double leftTail = 0; double rightTail = 0; double bothTails = 0;
// calc differences of impacts for current variable and reference variable
double[] z = new double[referenceImpacts.Count];
for (int i = 0; i < z.Length; i++) {
z[i] = variableImpactsOverRuns[row][i] - referenceImpacts[i];
}
// wilcoxon signed rank test is used because the impact values of two variables in a single run are not independent
alglib.wsr.wilcoxonsignedranktest(z, z.Length, 0, ref bothTails, ref leftTail, ref rightTail);
matrix[row, numberOfRuns + 3] = Math.Round(bothTails, 4);
}
}
// fill matrix with impacts from runs
for (int i = 0; i < runs.Length; i++) {
IRun run = runs[i];
DoubleMatrix runVariableImpacts = (DoubleMatrix)run.Results[variableImpactResultName];
for (int j = 0; j < runVariableImpacts.Rows; j++) {
int rowIndex = variableNamesList.FindIndex(s => s == runVariableImpacts.RowNames.ElementAt(j));
if (rowIndex > -1) {
matrix[rowIndex, i] = Math.Round(runVariableImpacts[j, 0], 3);
}
}
}
// sort by median
var sortedMatrix = (DoubleMatrix)matrix.Clone();
var sortedIndexes = from i in Enumerable.Range(0, sortedMatrix.Rows)
orderby matrix[i, numberOfRuns]
select i;
int targetIndex = 0;
foreach (var sourceIndex in sortedIndexes) {
for (int c = 0; c < matrix.Columns; c++)
sortedMatrix[targetIndex, c] = matrix[sourceIndex, c];
targetIndex++;
}
sortedMatrix.RowNames = sortedIndexes.Select(i => variableNamesList[i]);
return sortedMatrix;
}
private IEnumerable GetVariableImpactRanks(string variableName, IEnumerable allVariableImpacts) {
foreach (DoubleMatrix runVariableImpacts in allVariableImpacts) {
// certainly not yet very efficient because ranks are computed multiple times for the same run
string[] variableNames = runVariableImpacts.RowNames.ToArray();
double[] values = (from row in Enumerable.Range(0, runVariableImpacts.Rows)
select runVariableImpacts[row, 0] * -1)
.ToArray();
Array.Sort(values, variableNames);
// calculate ranks
double[] ranks = new double[values.Length];
// check for tied ranks
int i = 0;
while (i < values.Length) {
ranks[i] = i + 1;
int j = i + 1;
while (j < values.Length && values[i].IsAlmost(values[j])) {
ranks[j] = ranks[i];
j++;
}
i = j;
}
int rankIndex = 0;
foreach (string rowVariableName in variableNames) {
if (rowVariableName == variableName)
yield return ranks[rankIndex];
rankIndex++;
}
}
}
private IEnumerable GetVariableImpacts(string variableName, IEnumerable allVariableImpacts) {
foreach (DoubleMatrix runVariableImpacts in allVariableImpacts) {
int row = 0;
foreach (string rowName in runVariableImpacts.RowNames) {
if (rowName == variableName)
yield return runVariableImpacts[row, 0];
row++;
}
}
}
private void DisplayMessage(string message) {
variableImpactsGroupBox.Controls.Remove(matrixView);
var label = new Label { TextAlign = ContentAlignment.MiddleCenter, Text = message, Dock = DockStyle.Fill };
variableImpactsGroupBox.Controls.Add(label);
}
}
}