#region License Information /* HeuristicLab * Copyright (C) 2002-2016 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.ComponentModel; using System.Drawing; using System.Linq; using System.Windows.Forms; using System.Windows.Forms.DataVisualization.Charting; using HeuristicLab.Common; using HeuristicLab.Core; using HeuristicLab.Data; using HeuristicLab.MainForm; using HeuristicLab.MainForm.WindowsForms; namespace HeuristicLab.Optimization.Views { [View("Bubble Chart")] [Content(typeof(RunCollection), false)] public partial class RunCollectionBubbleChartView : AsynchronousContentView { private enum SizeDimension { Constant = 0 } private enum AxisDimension { Index = 0 } private string xAxisValue; private string yAxisValue; private string sizeAxisValue; private readonly Dictionary> runToDataPointMapping = new Dictionary>(); private readonly Dictionary runToIndexMapping = new Dictionary(); private readonly Dictionary> categoricalMapping = new Dictionary>(); private readonly Dictionary xJitter = new Dictionary(); private readonly Dictionary yJitter = new Dictionary(); private readonly HashSet selectedRuns = new HashSet(); private readonly Random random = new Random(); private double xJitterFactor = 0.0; private double yJitterFactor = 0.0; private bool isSelecting = false; private bool suppressUpdates = false; private readonly RunCollectionContentConstraint visibilityConstraint = new RunCollectionContentConstraint() { Active = true }; public RunCollectionBubbleChartView() { InitializeComponent(); chart.ContextMenuStrip.Items.Insert(0, openBoxPlotViewToolStripMenuItem); chart.ContextMenuStrip.Items.Insert(1, getDataAsMatrixToolStripMenuItem); chart.ContextMenuStrip.Items.Insert(2, new ToolStripSeparator()); chart.ContextMenuStrip.Items.Insert(3, hideRunsToolStripMenuItem); chart.ContextMenuStrip.Items.Insert(4, unhideAllRunToolStripMenuItem); chart.ContextMenuStrip.Items.Insert(5, colorResetToolStripMenuItem); chart.ContextMenuStrip.Items.Insert(6, new ToolStripSeparator()); chart.ContextMenuStrip.Opening += new System.ComponentModel.CancelEventHandler(ContextMenuStrip_Opening); colorDialog.Color = Color.Orange; colorRunsButton.Image = this.GenerateImage(16, 16, this.colorDialog.Color); isSelecting = false; chart.CustomizeAllChartAreas(); chart.ChartAreas[0].CursorX.Interval = 1; chart.ChartAreas[0].CursorY.Interval = 1; chart.ChartAreas[0].AxisX.ScaleView.Zoomable = !this.isSelecting; chart.ChartAreas[0].AxisY.ScaleView.Zoomable = !this.isSelecting; } public new RunCollection Content { get { return (RunCollection)base.Content; } set { base.Content = value; } } public IStringConvertibleMatrix Matrix { get { return this.Content; } } public IEnumerable SelectedRuns { get { return selectedRuns; } } public string SelectedXAxis { get { return xAxisValue; } set { if (xAxisComboBox.Items.Contains(value)) { xAxisComboBox.SelectedItem = value; } } } public string SelectedYAxis { get { return yAxisValue; } set { if (yAxisComboBox.Items.Contains(value)) { yAxisComboBox.SelectedItem = value; } } } protected override void RegisterContentEvents() { base.RegisterContentEvents(); Content.Reset += new EventHandler(Content_Reset); Content.ColumnNamesChanged += new EventHandler(Content_ColumnNamesChanged); Content.ItemsAdded += new HeuristicLab.Collections.CollectionItemsChangedEventHandler(Content_ItemsAdded); Content.ItemsRemoved += new HeuristicLab.Collections.CollectionItemsChangedEventHandler(Content_ItemsRemoved); Content.CollectionReset += new HeuristicLab.Collections.CollectionItemsChangedEventHandler(Content_CollectionReset); Content.OptimizerNameChanged += new EventHandler(Content_AlgorithmNameChanged); Content.UpdateOfRunsInProgressChanged += new EventHandler(Content_UpdateOfRunsInProgressChanged); RegisterRunEvents(Content); } protected override void DeregisterContentEvents() { base.DeregisterContentEvents(); Content.Reset -= new EventHandler(Content_Reset); Content.ColumnNamesChanged -= new EventHandler(Content_ColumnNamesChanged); Content.ItemsAdded -= new HeuristicLab.Collections.CollectionItemsChangedEventHandler(Content_ItemsAdded); Content.ItemsRemoved -= new HeuristicLab.Collections.CollectionItemsChangedEventHandler(Content_ItemsRemoved); Content.CollectionReset -= new HeuristicLab.Collections.CollectionItemsChangedEventHandler(Content_CollectionReset); Content.OptimizerNameChanged -= new EventHandler(Content_AlgorithmNameChanged); Content.UpdateOfRunsInProgressChanged -= new EventHandler(Content_UpdateOfRunsInProgressChanged); DeregisterRunEvents(Content); } protected virtual void RegisterRunEvents(IEnumerable runs) { foreach (IRun run in runs) run.PropertyChanged += run_PropertyChanged; } protected virtual void DeregisterRunEvents(IEnumerable runs) { foreach (IRun run in runs) run.PropertyChanged -= run_PropertyChanged; } private void Content_CollectionReset(object sender, HeuristicLab.Collections.CollectionItemsChangedEventArgs e) { DeregisterRunEvents(e.OldItems); RegisterRunEvents(e.Items); } private void Content_ItemsRemoved(object sender, HeuristicLab.Collections.CollectionItemsChangedEventArgs e) { DeregisterRunEvents(e.Items); } private void Content_ItemsAdded(object sender, HeuristicLab.Collections.CollectionItemsChangedEventArgs e) { RegisterRunEvents(e.Items); } private void run_PropertyChanged(object sender, PropertyChangedEventArgs e) { if (suppressUpdates) return; if (InvokeRequired) this.Invoke((Action)run_PropertyChanged, sender, e); else { if (e.PropertyName == "Color" || e.PropertyName == "Visible") { IRun run = (IRun)sender; UpdateRun(run); UpdateCursorInterval(); chart.ChartAreas[0].RecalculateAxesScale(); UpdateAxisLabels(); } } } private void Content_UpdateOfRunsInProgressChanged(object sender, EventArgs e) { if (InvokeRequired) this.Invoke(new EventHandler(Content_UpdateOfRunsInProgressChanged), sender, e); else { suppressUpdates = Content.UpdateOfRunsInProgress; if (suppressUpdates) return; UpdateDataPoints(); UpdateAxisLabels(); } } private void UpdateRun(IRun run) { if (runToDataPointMapping.ContainsKey(run)) { foreach (DataPoint point in runToDataPointMapping[run]) { if (!run.Visible) { this.chart.Series[0].Points.Remove(point); continue; } if (selectedRuns.Contains(run)) { point.Color = Color.Red; point.MarkerStyle = MarkerStyle.Cross; } else { point.Color = Color.FromArgb(255 - LogTransform(transparencyTrackBar.Value), ((IRun)point.Tag).Color); point.MarkerStyle = MarkerStyle.Circle; } } if (!run.Visible) runToDataPointMapping.Remove(run); } else { AddDataPoint(run); } if (this.chart.Series[0].Points.Count == 0) noRunsLabel.Visible = true; else noRunsLabel.Visible = false; } protected override void OnContentChanged() { base.OnContentChanged(); UpdateComboBoxes(); UpdateDataPoints(); UpdateCaption(); } private void RebuildInverseIndex() { if (Content != null) { runToIndexMapping.Clear(); int i = 0; foreach (var run in Content) { runToIndexMapping.Add(run, i); i++; } } } private void Content_ColumnNamesChanged(object sender, EventArgs e) { if (InvokeRequired) Invoke(new EventHandler(Content_ColumnNamesChanged), sender, e); else UpdateComboBoxes(); } private void UpdateCaption() { Caption = Content != null ? Content.OptimizerName + " Bubble Chart" : ViewAttribute.GetViewName(GetType()); } private void UpdateComboBoxes() { string selectedXAxis = (string)this.xAxisComboBox.SelectedItem; string selectedYAxis = (string)this.yAxisComboBox.SelectedItem; string selectedSizeAxis = (string)this.sizeComboBox.SelectedItem; this.xAxisComboBox.Items.Clear(); this.yAxisComboBox.Items.Clear(); this.sizeComboBox.Items.Clear(); if (Content != null) { string[] additionalAxisDimension = Enum.GetNames(typeof(AxisDimension)); this.xAxisComboBox.Items.AddRange(additionalAxisDimension); var comparer = new HeuristicLab.Common.NaturalStringComparer(); var sortedColumnNames = Matrix.ColumnNames.ToArray(); sortedColumnNames.StableSort(comparer); this.xAxisComboBox.Items.AddRange(sortedColumnNames); this.yAxisComboBox.Items.AddRange(additionalAxisDimension); this.yAxisComboBox.Items.AddRange(sortedColumnNames); string[] additionalSizeDimension = Enum.GetNames(typeof(SizeDimension)); this.sizeComboBox.Items.AddRange(additionalSizeDimension); this.sizeComboBox.Items.AddRange(sortedColumnNames); this.sizeComboBox.SelectedItem = SizeDimension.Constant.ToString(); bool changed = false; if (selectedXAxis != null && xAxisComboBox.Items.Contains(selectedXAxis)) { xAxisComboBox.SelectedItem = selectedXAxis; changed = true; } if (selectedYAxis != null && yAxisComboBox.Items.Contains(selectedYAxis)) { yAxisComboBox.SelectedItem = selectedYAxis; changed = true; } if (selectedSizeAxis != null && sizeComboBox.Items.Contains(selectedSizeAxis)) { sizeComboBox.SelectedItem = selectedSizeAxis; changed = true; } if (changed) { UpdateDataPoints(); UpdateAxisLabels(); } } } private void Content_AlgorithmNameChanged(object sender, EventArgs e) { if (InvokeRequired) Invoke(new EventHandler(Content_AlgorithmNameChanged), sender, e); else UpdateCaption(); } private void Content_Reset(object sender, EventArgs e) { if (suppressUpdates) return; if (InvokeRequired) Invoke(new EventHandler(Content_Reset), sender, e); else { UpdateDataPoints(); UpdateAxisLabels(); } } private void UpdateDataPoints() { Series series = this.chart.Series[0]; series.Points.Clear(); runToDataPointMapping.Clear(); categoricalMapping.Clear(); selectedRuns.Clear(); RebuildInverseIndex(); chart.ChartAreas[0].AxisX.IsMarginVisible = xAxisValue != AxisDimension.Index.ToString(); chart.ChartAreas[0].AxisY.IsMarginVisible = yAxisValue != AxisDimension.Index.ToString(); if (Content != null) { foreach (IRun run in this.Content) this.AddDataPoint(run); if (this.chart.Series[0].Points.Count == 0) noRunsLabel.Visible = true; else { noRunsLabel.Visible = false; UpdateMarkerSizes(); UpdateCursorInterval(); } } xTrackBar.Value = 0; yTrackBar.Value = 0; //needed to set axis back to automatic and refresh them, otherwise their values may remain NaN var xAxis = chart.ChartAreas[0].AxisX; var yAxis = chart.ChartAreas[0].AxisY; SetAutomaticUpdateOfAxis(xAxis, true); SetAutomaticUpdateOfAxis(yAxis, true); chart.Refresh(); } private void UpdateMarkerSizes() { var series = chart.Series[0]; if (series.Points.Count <= 0) return; var sizeValues = series.Points.Select(p => p.YValues[1]); double minSizeValue = sizeValues.Min(); double maxSizeValue = sizeValues.Max(); double sizeRange = maxSizeValue - minSizeValue; const int smallestBubbleSize = 7; foreach (DataPoint point in series.Points) { //calculates the relative size of the data point 0 <= relativeSize <= 1 double relativeSize = (point.YValues[1] - minSizeValue); if (sizeRange > double.Epsilon) { relativeSize /= sizeRange; //invert bubble sizes if the value of the trackbar is negative if (sizeTrackBar.Value < 0) relativeSize = Math.Abs(relativeSize - 1); } else relativeSize = 1; double sizeChange = Math.Abs(sizeTrackBar.Value) * relativeSize; point.MarkerSize = (int)Math.Round(sizeChange + smallestBubbleSize); } } private void UpdateDataPointJitter() { var xAxis = this.chart.ChartAreas[0].AxisX; var yAxis = this.chart.ChartAreas[0].AxisY; double xAxisRange = xAxis.Maximum - xAxis.Minimum; double yAxisRange = yAxis.Maximum - yAxis.Minimum; foreach (DataPoint point in chart.Series[0].Points) { IRun run = (IRun)point.Tag; double xValue = GetValue(run, xAxisValue).Value; double yValue = GetValue(run, yAxisValue).Value; if (!xJitterFactor.IsAlmost(0.0)) xValue += 0.1 * GetXJitter(run) * xJitterFactor * (xAxisRange); if (!yJitterFactor.IsAlmost(0.0)) yValue += 0.1 * GetYJitter(run) * yJitterFactor * (yAxisRange); point.XValue = xValue; point.YValues[0] = yValue; } if (xJitterFactor.IsAlmost(0.0) && yJitterFactor.IsAlmost(0.0)) { SetAutomaticUpdateOfAxis(xAxis, true); SetAutomaticUpdateOfAxis(yAxis, true); chart.ChartAreas[0].RecalculateAxesScale(); } else { SetAutomaticUpdateOfAxis(xAxis, false); SetAutomaticUpdateOfAxis(yAxis, false); } } // sets an axis to automatic or restrains it to its current values // this is used that none of the set values is changed when jitter is applied, so that the chart stays the same private void SetAutomaticUpdateOfAxis(Axis axis, bool enabled) { if (enabled) { axis.Maximum = double.NaN; axis.Minimum = double.NaN; axis.MajorGrid.Interval = double.NaN; axis.MajorTickMark.Interval = double.NaN; axis.LabelStyle.Interval = double.NaN; } else { axis.Minimum = axis.Minimum; axis.Maximum = axis.Maximum; axis.MajorGrid.Interval = axis.MajorGrid.Interval; axis.MajorTickMark.Interval = axis.MajorTickMark.Interval; axis.LabelStyle.Interval = axis.LabelStyle.Interval; } } private void AddDataPoint(IRun run) { double? xValue; double? yValue; double? sizeValue; Series series = this.chart.Series[0]; xValue = GetValue(run, xAxisValue); yValue = GetValue(run, yAxisValue); sizeValue = GetValue(run, sizeAxisValue); if (xValue.HasValue && yValue.HasValue && sizeValue.HasValue) { xValue = xValue.Value; yValue = yValue.Value; if (run.Visible) { DataPoint point = new DataPoint(xValue.Value, new double[] { yValue.Value, sizeValue.Value }); point.Tag = run; series.Points.Add(point); if (!runToDataPointMapping.ContainsKey(run)) runToDataPointMapping.Add(run, new List()); runToDataPointMapping[run].Add(point); UpdateRun(run); } } } private double? GetValue(IRun run, string columnName) { if (run == null || string.IsNullOrEmpty(columnName)) return null; if (Enum.IsDefined(typeof(AxisDimension), columnName)) { AxisDimension axisDimension = (AxisDimension)Enum.Parse(typeof(AxisDimension), columnName); return GetValue(run, axisDimension); } else if (Enum.IsDefined(typeof(SizeDimension), columnName)) { SizeDimension sizeDimension = (SizeDimension)Enum.Parse(typeof(SizeDimension), columnName); return GetValue(run, sizeDimension); } else { IItem value = Content.GetValue(run, columnName); if (value == null) return null; DoubleValue doubleValue = value as DoubleValue; IntValue intValue = value as IntValue; TimeSpanValue timeSpanValue = value as TimeSpanValue; double? ret = null; if (doubleValue != null) { if (!double.IsNaN(doubleValue.Value) && !double.IsInfinity(doubleValue.Value)) ret = doubleValue.Value; } else if (intValue != null) ret = intValue.Value; else if (timeSpanValue != null) { ret = timeSpanValue.Value.TotalSeconds; } else { int columnIndex = Matrix.ColumnNames.ToList().IndexOf(columnName); ret = GetCategoricalValue(columnIndex, value.ToString()); } return ret; } } private double? GetCategoricalValue(int dimension, string value) { if (!this.categoricalMapping.ContainsKey(dimension)) { this.categoricalMapping[dimension] = new Dictionary(); var orderedCategories = Content.Where(r => r.Visible && Content.GetValue(r, dimension) != null).Select(r => Content.GetValue(r, dimension).ToString()) .Distinct().OrderBy(x => x, new NaturalStringComparer()); int count = 1; foreach (var category in orderedCategories) { this.categoricalMapping[dimension].Add(category, count); count++; } } if (!this.categoricalMapping[dimension].ContainsKey(value)) return null; return this.categoricalMapping[dimension][value]; } private double GetValue(IRun run, AxisDimension axisDimension) { double value = double.NaN; switch (axisDimension) { case AxisDimension.Index: { value = runToIndexMapping[run]; break; } default: { throw new ArgumentException("No handling strategy for " + axisDimension.ToString() + " is defined."); } } return value; } private double GetValue(IRun run, SizeDimension sizeDimension) { double value = double.NaN; switch (sizeDimension) { case SizeDimension.Constant: { value = 2; break; } default: { throw new ArgumentException("No handling strategy for " + sizeDimension.ToString() + " is defined."); } } return value; } private void UpdateCursorInterval() { double xMin = double.MaxValue; double xMax = double.MinValue; double yMin = double.MaxValue; double yMax = double.MinValue; foreach (var point in chart.Series[0].Points) { if (point.IsEmpty) continue; if (point.XValue < xMin) xMin = point.XValue; if (point.XValue > xMax) xMax = point.XValue; if (point.YValues[0] < yMin) yMin = point.YValues[0]; if (point.YValues[0] > yMax) yMax = point.YValues[0]; } double xRange = 0.0; double yRange = 0.0; if (xMin != double.MaxValue && xMax != double.MinValue) xRange = xMax - xMin; if (yMin != double.MaxValue && yMax != double.MinValue) yRange = yMax - yMin; if (xRange.IsAlmost(0.0)) xRange = 1.0; if (yRange.IsAlmost(0.0)) yRange = 1.0; double xDigits = (int)Math.Log10(xRange) - 3; double yDigits = (int)Math.Log10(yRange) - 3; double xZoomInterval = Math.Pow(10, xDigits); double yZoomInterval = Math.Pow(10, yDigits); this.chart.ChartAreas[0].CursorX.Interval = xZoomInterval; this.chart.ChartAreas[0].CursorY.Interval = yZoomInterval; //code to handle TimeSpanValues correct int axisDimensionCount = Enum.GetNames(typeof(AxisDimension)).Count(); int columnIndex = xAxisComboBox.SelectedIndex - axisDimensionCount; if (columnIndex >= 0 && Content.GetValue(0, columnIndex) is TimeSpanValue) this.chart.ChartAreas[0].CursorX.Interval = 1; columnIndex = yAxisComboBox.SelectedIndex - axisDimensionCount; if (columnIndex >= 0 && Content.GetValue(0, columnIndex) is TimeSpanValue) this.chart.ChartAreas[0].CursorY.Interval = 1; } #region Drag & drop and tooltip private void chart_MouseDoubleClick(object sender, MouseEventArgs e) { HitTestResult h = this.chart.HitTest(e.X, e.Y, ChartElementType.DataPoint); if (h.ChartElementType == ChartElementType.DataPoint) { IRun run = (IRun)((DataPoint)h.Object).Tag; IContentView view = MainFormManager.MainForm.ShowContent(run); if (view != null) { view.ReadOnly = this.ReadOnly; view.Locked = this.Locked; } this.chart.ChartAreas[0].CursorX.SelectionStart = this.chart.ChartAreas[0].CursorX.SelectionEnd; this.chart.ChartAreas[0].CursorY.SelectionStart = this.chart.ChartAreas[0].CursorY.SelectionEnd; } UpdateAxisLabels(); } private void chart_MouseUp(object sender, MouseEventArgs e) { if (!isSelecting) return; System.Windows.Forms.DataVisualization.Charting.Cursor xCursor = chart.ChartAreas[0].CursorX; System.Windows.Forms.DataVisualization.Charting.Cursor yCursor = chart.ChartAreas[0].CursorY; double minX = Math.Min(xCursor.SelectionStart, xCursor.SelectionEnd); double maxX = Math.Max(xCursor.SelectionStart, xCursor.SelectionEnd); double minY = Math.Min(yCursor.SelectionStart, yCursor.SelectionEnd); double maxY = Math.Max(yCursor.SelectionStart, yCursor.SelectionEnd); if (Control.ModifierKeys != Keys.Control) { ClearSelectedRuns(); } //check for click to select a single model if (minX == maxX && minY == maxY) { HitTestResult hitTest = chart.HitTest(e.X, e.Y, ChartElementType.DataPoint); if (hitTest.ChartElementType == ChartElementType.DataPoint) { int pointIndex = hitTest.PointIndex; var point = chart.Series[0].Points[pointIndex]; IRun run = (IRun)point.Tag; if (selectedRuns.Contains(run)) { point.MarkerStyle = MarkerStyle.Circle; point.Color = Color.FromArgb(255 - LogTransform(transparencyTrackBar.Value), run.Color); selectedRuns.Remove(run); } else { point.Color = Color.Red; point.MarkerStyle = MarkerStyle.Cross; selectedRuns.Add(run); } } } else { foreach (DataPoint point in this.chart.Series[0].Points) { if (point.XValue < minX || point.XValue > maxX) continue; if (point.YValues[0] < minY || point.YValues[0] > maxY) continue; point.MarkerStyle = MarkerStyle.Cross; point.Color = Color.Red; IRun run = (IRun)point.Tag; selectedRuns.Add(run); } } this.chart.ChartAreas[0].CursorX.SelectionStart = this.chart.ChartAreas[0].CursorX.SelectionEnd; this.chart.ChartAreas[0].CursorY.SelectionStart = this.chart.ChartAreas[0].CursorY.SelectionEnd; this.OnChanged(); } private void chart_MouseMove(object sender, MouseEventArgs e) { if (Control.MouseButtons != MouseButtons.None) return; HitTestResult h = this.chart.HitTest(e.X, e.Y); string newTooltipText = string.Empty; string oldTooltipText; if (h.ChartElementType == ChartElementType.DataPoint) { IRun run = (IRun)((DataPoint)h.Object).Tag; newTooltipText = BuildTooltip(run); } else if (h.ChartElementType == ChartElementType.AxisLabels) { newTooltipText = ((CustomLabel)h.Object).ToolTip; } oldTooltipText = this.tooltip.GetToolTip(chart); if (newTooltipText != oldTooltipText) this.tooltip.SetToolTip(chart, newTooltipText); } private string BuildTooltip(IRun run) { string tooltip; tooltip = run.Name + System.Environment.NewLine; string xString = GetTooltipValue(run, (string)xAxisComboBox.SelectedItem); string yString = GetTooltipValue(run, (string)yAxisComboBox.SelectedItem); string sizeString = GetTooltipValue(run, (string)sizeComboBox.SelectedItem); tooltip += xAxisComboBox.SelectedItem + " : " + xString + Environment.NewLine; tooltip += yAxisComboBox.SelectedItem + " : " + yString + Environment.NewLine; tooltip += sizeComboBox.SelectedItem + " : " + sizeString + Environment.NewLine; return tooltip; } private string GetTooltipValue(IRun run, string columnName) { if (columnName == SizeDimension.Constant.ToString()) return string.Empty; int columnIndex = Matrix.ColumnNames.ToList().IndexOf(columnName); //handle non-numeric values correctly if (categoricalMapping.ContainsKey(columnIndex)) { return Content.GetValue(run, columnName).ToString(); } double? value = GetValue(run, columnName); if (!value.HasValue) return string.Empty; string valueString = value.Value.ToString(); //code to handle TimeSpanValues correctly if (columnIndex > 0 && Content.GetValue(0, columnIndex) is TimeSpanValue) { TimeSpan time = TimeSpan.FromSeconds(value.Value); valueString = string.Format("{0:00}:{1:00}:{2:00.00}", (int)time.TotalHours, time.Minutes, time.Seconds); } return valueString; } #endregion #region GUI events and updating private double GetXJitter(IRun run) { if (!this.xJitter.ContainsKey(run)) this.xJitter[run] = random.NextDouble() * 2.0 - 1.0; return this.xJitter[run]; } private double GetYJitter(IRun run) { if (!this.yJitter.ContainsKey(run)) this.yJitter[run] = random.NextDouble() * 2.0 - 1.0; return this.yJitter[run]; } private void jitterTrackBar_ValueChanged(object sender, EventArgs e) { this.xJitterFactor = xTrackBar.Value / 100.0; this.yJitterFactor = yTrackBar.Value / 100.0; UpdateDataPointJitter(); } private void sizeTrackBar_ValueChanged(object sender, EventArgs e) { UpdateMarkerSizes(); } private void AxisComboBox_SelectedValueChanged(object sender, EventArgs e) { bool axisSelected = xAxisComboBox.SelectedIndex != -1 && yAxisComboBox.SelectedIndex != -1; xTrackBar.Enabled = yTrackBar.Enabled = axisSelected; colorXAxisButton.Enabled = colorYAxisButton.Enabled = axisSelected; xAxisValue = (string)xAxisComboBox.SelectedItem; yAxisValue = (string)yAxisComboBox.SelectedItem; sizeAxisValue = (string)sizeComboBox.SelectedItem; UpdateDataPoints(); UpdateAxisLabels(); } private void UpdateAxisLabels() { Axis xAxis = this.chart.ChartAreas[0].AxisX; Axis yAxis = this.chart.ChartAreas[0].AxisY; int axisDimensionCount = Enum.GetNames(typeof(AxisDimension)).Count(); //mkommend: combobox.SelectedIndex could not be used as this changes during hovering over possible values var xSAxisSelectedIndex = xAxisValue == null ? 0 : xAxisComboBox.Items.IndexOf(xAxisValue); var ySAxisSelectedIndex = yAxisValue == null ? 0 : xAxisComboBox.Items.IndexOf(yAxisValue); SetCustomAxisLabels(xAxis, xSAxisSelectedIndex - axisDimensionCount); SetCustomAxisLabels(yAxis, ySAxisSelectedIndex - axisDimensionCount); if (xAxisValue != null) xAxis.Title = xAxisValue; if (yAxisValue != null) yAxis.Title = yAxisValue; } private void chart_AxisViewChanged(object sender, System.Windows.Forms.DataVisualization.Charting.ViewEventArgs e) { this.UpdateAxisLabels(); } private void SetCustomAxisLabels(Axis axis, int dimension) { axis.CustomLabels.Clear(); if (categoricalMapping.ContainsKey(dimension)) { foreach (var pair in categoricalMapping[dimension]) { string labelText = pair.Key.ToString(); CustomLabel label = new CustomLabel(); label.ToolTip = labelText; if (labelText.Length > 25) labelText = labelText.Substring(0, 25) + " ... "; label.Text = labelText; label.GridTicks = GridTickTypes.TickMark; label.FromPosition = pair.Value - 0.5; label.ToPosition = pair.Value + 0.5; axis.CustomLabels.Add(label); } } else if (dimension > 0 && Content.GetValue(0, dimension) is TimeSpanValue) { this.chart.ChartAreas[0].RecalculateAxesScale(); for (double i = axis.Minimum; i <= axis.Maximum; i += axis.LabelStyle.Interval) { TimeSpan time = TimeSpan.FromSeconds(i); string x = string.Format("{0:00}:{1:00}:{2:00}", time.Hours, time.Minutes, time.Seconds); axis.CustomLabels.Add(i - axis.LabelStyle.Interval / 2, i + axis.LabelStyle.Interval / 2, x); } } } private void zoomButton_CheckedChanged(object sender, EventArgs e) { this.isSelecting = selectButton.Checked; this.colorRunsButton.Enabled = this.isSelecting; this.colorDialogButton.Enabled = this.isSelecting; this.hideRunsButton.Enabled = this.isSelecting; this.chart.ChartAreas[0].AxisX.ScaleView.Zoomable = !isSelecting; this.chart.ChartAreas[0].AxisY.ScaleView.Zoomable = !isSelecting; ClearSelectedRuns(); } private void ContextMenuStrip_Opening(object sender, System.ComponentModel.CancelEventArgs e) { hideRunsToolStripMenuItem.Visible = selectedRuns.Any(); } private void unhideAllRunToolStripMenuItem_Click(object sender, EventArgs e) { visibilityConstraint.ConstraintData.Clear(); if (Content.Constraints.Contains(visibilityConstraint)) Content.Constraints.Remove(visibilityConstraint); } private void hideRunsToolStripMenuItem_Click(object sender, EventArgs e) { HideRuns(selectedRuns); //could not use ClearSelectedRuns as the runs are not visible anymore selectedRuns.Clear(); } private void hideRunsButton_Click(object sender, EventArgs e) { HideRuns(selectedRuns); //could not use ClearSelectedRuns as the runs are not visible anymore selectedRuns.Clear(); } private void HideRuns(IEnumerable runs) { Content.UpdateOfRunsInProgress = true; visibilityConstraint.Active = false; if (!Content.Constraints.Contains(visibilityConstraint)) Content.Constraints.Add(visibilityConstraint); foreach (var run in runs) { visibilityConstraint.ConstraintData.Add(run); } visibilityConstraint.Active = true; Content.UpdateOfRunsInProgress = false; } private void ClearSelectedRuns() { foreach (var run in selectedRuns) { foreach (var point in runToDataPointMapping[run]) { point.MarkerStyle = MarkerStyle.Circle; point.Color = Color.FromArgb(255 - LogTransform(transparencyTrackBar.Value), run.Color); } } selectedRuns.Clear(); } // returns a value in [0..255] private int LogTransform(int x) { double min = transparencyTrackBar.Minimum; double max = transparencyTrackBar.Maximum; double r = (x - min) / (max - min); // r \in [0..1] double l = Math.Max(Math.Min((1.0 - Math.Pow(0.05, r)) / 0.95, 1), 0); // l \in [0..1] return (int)Math.Round(255.0 * l); } private void openBoxPlotViewToolStripMenuItem_Click(object sender, EventArgs e) { RunCollectionBoxPlotView boxplotView = new RunCollectionBoxPlotView(); boxplotView.Content = this.Content; boxplotView.xAxisComboBox.SelectedItem = xAxisComboBox.SelectedItem; boxplotView.yAxisComboBox.SelectedItem = yAxisComboBox.SelectedItem; boxplotView.Show(); } private void getDataAsMatrixToolStripMenuItem_Click(object sender, EventArgs e) { int xCol = Matrix.ColumnNames.ToList().IndexOf(xAxisValue); int yCol = Matrix.ColumnNames.ToList().IndexOf(yAxisValue); var grouped = new Dictionary>(); Dictionary reverseMapping = null; if (categoricalMapping.ContainsKey(xCol)) reverseMapping = categoricalMapping[xCol].ToDictionary(x => x.Value, y => y.Key.ToString()); foreach (var run in Content.Where(r => r.Visible)) { var x = GetValue(run, xAxisValue); object y; if (categoricalMapping.ContainsKey(yCol)) y = Content.GetValue(run, yAxisValue); else y = GetValue(run, yAxisValue); if (!(x.HasValue && y != null)) continue; var category = reverseMapping == null ? x.Value.ToString() : reverseMapping[x.Value]; if (!grouped.ContainsKey(category)) grouped[category] = new List(); grouped[category].Add(y.ToString()); } if (!grouped.Any()) return; var matrix = new StringMatrix(grouped.Values.Max(x => x.Count), grouped.Count) { ColumnNames = grouped.Keys.ToArray() }; int i = 0; foreach (var col in matrix.ColumnNames) { int j = 0; foreach (var y in grouped[col]) matrix[j++, i] = y; i++; } matrix.SortableView = false; var view = MainFormManager.MainForm.ShowContent(matrix); view.ReadOnly = true; } private void transparencyTrackBar_ValueChanged(object sender, EventArgs e) { foreach (var run in Content) UpdateRun(run); } #endregion #region coloring private void colorResetToolStripMenuItem_Click(object sender, EventArgs e) { Content.UpdateOfRunsInProgress = true; IEnumerable runs; if (selectedRuns.Any()) runs = selectedRuns; else runs = Content; foreach (var run in runs) run.Color = Color.Black; ClearSelectedRuns(); Content.UpdateOfRunsInProgress = false; } private void colorDialogButton_Click(object sender, EventArgs e) { if (colorDialog.ShowDialog(this) == DialogResult.OK) { this.colorRunsButton.Image = this.GenerateImage(16, 16, this.colorDialog.Color); colorRunsButton_Click(sender, e); } } private Image GenerateImage(int width, int height, Color fillColor) { Image colorImage = new Bitmap(width, height); using (Graphics gfx = Graphics.FromImage(colorImage)) { using (SolidBrush brush = new SolidBrush(fillColor)) { gfx.FillRectangle(brush, 0, 0, width, height); } } return colorImage; } private void colorRunsButton_Click(object sender, EventArgs e) { if (!selectedRuns.Any()) return; Content.UpdateOfRunsInProgress = true; foreach (var run in selectedRuns) run.Color = colorDialog.Color; ClearSelectedRuns(); Content.UpdateOfRunsInProgress = false; } private void colorXAxisButton_Click(object sender, EventArgs e) { ColorRuns(xAxisValue); } private void colorYAxisButton_Click(object sender, EventArgs e) { ColorRuns(yAxisValue); } private void ColorRuns(string axisValue) { var runs = Content.Where(r => r.Visible).Select(r => new { Run = r, Value = GetValue(r, axisValue) }).Where(r => r.Value.HasValue).ToList(); double minValue = runs.Min(r => r.Value.Value); double maxValue = runs.Max(r => r.Value.Value); double range = maxValue - minValue; // UpdateOfRunsInProgress has to be set to true, otherwise run_Changed is called all the time (also in other views) Content.UpdateOfRunsInProgress = true; if (range.IsAlmost(0)) { Color c = ColorGradient.Colors[0]; runs.ForEach(r => r.Run.Color = c); } else { int maxColorIndex = ColorGradient.Colors.Count - 1; foreach (var r in runs) { int colorIndex = (int)(maxColorIndex * (r.Value - minValue) / (range)); r.Run.Color = ColorGradient.Colors[colorIndex]; } } Content.UpdateOfRunsInProgress = false; } #endregion } }