#region License Information /* HeuristicLab * Copyright (C) 2002-2015 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 System.Windows.Forms.DataVisualization.Charting; using HeuristicLab.Analysis.Statistics; namespace HeuristicLab.Analysis.Views { public partial class HistogramControl : UserControl { protected static readonly string SeriesName = "Histogram"; protected static readonly decimal bandwidthMin = 0.0000000000001m; protected Dictionary> points; protected bool suppressUpdate; public int NumberOfBins { get { return (int)binsNumericUpDown.Value; } set { binsNumericUpDown.Value = value; } } public int MinimumNumberOfBins { get { return (int)binsNumericUpDown.Minimum; } set { binsNumericUpDown.Minimum = value; } } public int MaximumNumberOfBins { get { return (int)binsNumericUpDown.Maximum; } set { binsNumericUpDown.Maximum = value; } } public int IncrementNumberOfBins { get { return (int)binsNumericUpDown.Increment; } set { binsNumericUpDown.Increment = value; } } public bool CalculateExactBins { get { return exactCheckBox.Checked; } set { exactCheckBox.Checked = value; } } public bool ShowExactCheckbox { get { return exactCheckBox.Visible; } set { exactCheckBox.Visible = value; } } public HistogramControl() { InitializeComponent(); points = new Dictionary>(); } protected void InitNewRow(string name) { if (!points.ContainsKey(name)) { points.Add(name, new List()); } } protected void InitSeries(string name) { if (!chart.Series.Any(x => x.Name == name)) { Series s = chart.Series.Add(name); s.ChartType = SeriesChartType.Column; s.BorderColor = Color.Black; s.BorderWidth = 1; s.BorderDashStyle = ChartDashStyle.Solid; } } public void AddPoint(double point) { InitNewRow(SeriesName); InitSeries(SeriesName); points[SeriesName].Add(point); UpdateHistogram(); } public void AddPoints(IEnumerable points) { InitNewRow(SeriesName); InitSeries(SeriesName); this.points[SeriesName].AddRange(points); UpdateHistogram(); } public void AddPoint(string name, double point, bool replace = false) { InitNewRow(name); InitSeries(name); if (replace) { points[name].Clear(); } points[name].Add(point); UpdateHistogram(); } public void AddPoints(string name, IEnumerable points, bool replace = false) { InitNewRow(name); InitSeries(name); if (replace) { this.points[name].Clear(); } this.points[name].AddRange(points); UpdateHistogram(); } public void ClearPoints() { points.Clear(); UpdateHistogram(); } protected void UpdateHistogram(double bandwith = double.NaN) { if (InvokeRequired) { Invoke((Action)UpdateHistogram, bandwith); return; } double overallMin = double.MaxValue; double overallMax = double.MinValue; int bins = (int)binsNumericUpDown.Value; chart.Series.Clear(); foreach (var point in points) { if (!point.Value.Any()) continue; Series histogramSeries = new Series(point.Key); chart.Series.Add(histogramSeries); double minValue = point.Value.Min(); double maxValue = point.Value.Max(); double intervalWidth = (maxValue - minValue) / bins; if (intervalWidth <= 0) continue; if (!exactCheckBox.Checked) { intervalWidth = HumanRoundRange(intervalWidth); minValue = Math.Floor(minValue / intervalWidth) * intervalWidth; maxValue = Math.Ceiling(maxValue / intervalWidth) * intervalWidth; } double current = minValue, intervalCenter = intervalWidth / 2.0; int count = 0; foreach (double v in point.Value.OrderBy(x => x)) { while (v > current + intervalWidth) { histogramSeries.Points.AddXY(current + intervalCenter, count); current += intervalWidth; count = 0; } count++; } histogramSeries.Points.AddXY(current + intervalCenter, count); histogramSeries["PointWidth"] = "1"; overallMax = Math.Max(overallMax, maxValue); overallMin = Math.Min(overallMin, minValue); } chart.ApplyPaletteColors(); int i = 0; foreach (var point in points) { if (!point.Value.Any()) continue; var histogramSeries = chart.Series[i]; CalculateDensity(histogramSeries, point.Value, bandwith); i++; } ChartArea chartArea = chart.ChartAreas[0]; // don't show grid lines for second y-axis chartArea.AxisY2.MajorGrid.Enabled = false; chartArea.AxisY2.MinorGrid.Enabled = false; chartArea.AxisY.Title = "Frequency"; double overallIntervalWidth = (overallMax - overallMin) / bins; double axisInterval = overallIntervalWidth; while ((overallMax - overallMin) / axisInterval > 10.0) { axisInterval *= 2.0; } chartArea.AxisX.Interval = axisInterval; } protected void CalculateDensity(Series series, List row, double bandwidth = double.NaN) { string densitySeriesName = "Density " + series.Name; double stepWidth = series.Points[1].XValue - series.Points[0].XValue; var rowArray = row.ToArray(); if (chart.Series.Any(x => x.Name == densitySeriesName)) { var ds = chart.Series.Single(x => x.Name == densitySeriesName); chart.Series.Remove(ds); } if (double.IsNaN(bandwidth)) { bandwidth = KernelDensityEstimator.EstimateBandwidth(rowArray); decimal bwDecimal = (decimal)bandwidth; if (bwDecimal < bandwidthMin) { bwDecimal = bandwidthMin; bandwidth = decimal.ToDouble(bwDecimal); } suppressUpdate = true; bandwidthNumericUpDown.Value = bwDecimal; } var density = KernelDensityEstimator.Density(rowArray, rowArray.Length, stepWidth, bandwidth); Series newSeries = new Series(densitySeriesName); newSeries.Color = series.Color; newSeries.ChartType = SeriesChartType.FastLine; newSeries.BorderWidth = 2; foreach (var d in density) { newSeries.Points.Add(new DataPoint(d.Item1, d.Item2)); } // densities should be plotted on the second axis (different scale) newSeries.YAxisType = AxisType.Secondary; chart.Series.Add(newSeries); } protected double HumanRoundRange(double range) { double base10 = Math.Pow(10.0, Math.Floor(Math.Log10(range))); double rounding = range / base10; if (rounding <= 1.5) rounding = 1; else if (rounding <= 2.25) rounding = 2; else if (rounding <= 3.75) rounding = 2.5; else if (rounding <= 7.5) rounding = 5; else rounding = 10; return rounding * base10; } private void binsNumericUpDown_ValueChanged(object sender, EventArgs e) { UpdateHistogram(); } private void exactCheckBox_CheckedChanged(object sender, EventArgs e) { UpdateHistogram(); } private void bandwidthNumericUpDown_ValueChanged(object sender, EventArgs e) { if (!suppressUpdate) { UpdateHistogram(decimal.ToDouble(bandwidthNumericUpDown.Value)); } suppressUpdate = false; } } }