#region License Information /* HeuristicLab * Copyright (C) 2002-2014 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.Globalization; using System.IO; using System.Linq; namespace HeuristicLab.Problems.Instances.Orienteering { public class SchildeParser { private static readonly IFormatProvider FormatProvider = new CultureInfo("en-US"); private int currentPoint; private int currentDistance; public double[,] Coordinates { get; private set; } public double[,] Distances { get; private set; } public double[,] Scores { get; private set; } public int StartingPoint { get; private set; } public int TerminusPoint { get; private set; } public double UpperBoundConstraint { get; private set; } public double LowerConstraint { get; private set; } public void Reset() { currentPoint = 0; currentDistance = 0; Coordinates = null; Distances = null; Scores = null; StartingPoint = 0; TerminusPoint = 0; UpperBoundConstraint = 0.0; LowerConstraint = 0.0; } public void Parse(string file) { using (var stream = new FileStream(file, FileMode.Open, FileAccess.Read)) { Parse(stream); } } public void Parse(Stream stream) { int lineNumber = 0; using (var reader = new StreamReader(stream)) { // Read the lines from the file while (!reader.EndOfStream) { string lineBuffer = reader.ReadLine(); // Remove all whitespace lineBuffer = new string(lineBuffer.ToCharArray().Where(c => !char.IsWhiteSpace(c)).ToArray()); // If the line contains data, continue if (lineBuffer.Length > 1) { // If the line contains not only a comment, process it int commentPosition = lineBuffer.IndexOf("//"); if (commentPosition != 0) { // Count the lines that include data lineNumber++; // Remove a comment if there is one if (commentPosition > 0) lineBuffer = lineBuffer.Remove(commentPosition); // Convert the line to lowercase characters lineBuffer = lineBuffer.ToLower(); // Skip version info in file if (lineNumber > 1) { // Extract the needed information ExtractData(lineBuffer); } } } } } } private void ExtractData(string inputString) { string temp; int pointCount; switch (inputString[0]) { case 'p': // Point description if (inputString.Length < 8) throw new IOException("Invalid Definition P"); // Remove the 'p,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Get the position_x string positionX = inputString.Substring(0, inputString.IndexOf(',')); // Remove the position_x inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Get the postion_y string positionY = inputString.Substring(0, inputString.IndexOf(',')); // Remove the position_y to get the scores inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); Coordinates[currentPoint, 0] = double.Parse(positionX, FormatProvider); Coordinates[currentPoint, 1] = double.Parse(positionY, FormatProvider); // Extract all score values for this point int scoreIndex = 0; while (true) { string score; if (inputString.IndexOf(',') != -1) { score = inputString.Substring(0, inputString.IndexOf(',')); inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); Scores[currentPoint, scoreIndex++] = int.Parse(score, FormatProvider); } else { score = inputString; Scores[currentPoint, scoreIndex++] = int.Parse(score, FormatProvider); break; } } currentPoint++; break; case 'd': // Distance information if (inputString.Length < 11) throw new IOException("Invalid Definition D"); //var tempDistances = new List(); // Remove the 'd,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Extract all distances for this point int distanceIndex = 0; while (true) { string distance; if (inputString.IndexOf(',') != -1) { distance = inputString.Substring(0, inputString.IndexOf(',')); inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); Distances[currentDistance, distanceIndex++] = double.Parse(distance, FormatProvider); } else { distance = inputString; Distances[currentDistance, distanceIndex++] = double.Parse(distance, FormatProvider); break; } } break; case 'n': // Number of points if (inputString.Length < 3) throw new IOException("Invalid Definition N"); // Remove the 'n,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Extract the number of points pointCount = int.Parse(inputString, FormatProvider); Coordinates = new double[pointCount, 2]; break; case 'm': // 1 if Distance-Matrix is given if (inputString.Length < 3) throw new IOException("Invalid Definition M"); // Remove the 'm,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Extract the number of points bool matrixGiven = true; pointCount = Coordinates.GetLength(1); Distances = new double[pointCount, pointCount]; break; case 'c': // Number of constraints if (inputString.Length < 3) throw new IOException("Invalid Definition C"); // Remove the 'c,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); break; case 's': // Number of scores per point if (inputString.Length < 3) throw new IOException("Invalid Definition S"); // Remove the 's,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); int scoreCount = int.Parse(inputString, FormatProvider); pointCount = Coordinates.GetLength(0); Scores = new double[pointCount, scoreCount]; break; case 'b': // Index of the starting point if (inputString.Length < 3) throw new IOException("Invalid Definition B"); // Remove the 'b,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); StartingPoint = int.Parse(inputString, FormatProvider); break; case 'e': // Index of the terminus point if (inputString.Length < 3) throw new IOException("Invalid Definition E"); // Remove the 'e,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); TerminusPoint = int.Parse(inputString, FormatProvider); break; case 'u': // Upper bound constraint if (inputString.Length < 5) throw new IOException("Invalid Definition U"); // Remove the 'u,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Get the target temp = inputString.Substring(0, inputString.IndexOf(',')); // Remove the target to get the target value inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); UpperBoundConstraint = double.Parse(inputString, FormatProvider); break; case 'l': // Lower bound constraint if (inputString.Length < 5) throw new IOException("Invalid Definition L"); // Remove the 'l,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Get the target temp = inputString.Substring(0, inputString.IndexOf(',')); // Remove the target to get the target value inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); LowerConstraint = double.Parse(inputString, FormatProvider); break; case 'x': // Maximization constraint if (inputString.Length < 5) throw new IOException("Invalid Definition X"); // Remove the 'x,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Get the target temp = inputString.Substring(0, inputString.IndexOf(',')); // Remove the target to get the target value inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); break; case 'i': // Minimization constraint if (inputString.Length < 5) throw new IOException("Invalid Definition I"); // Remove the 'i,' inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); // Get the target temp = inputString.Substring(0, inputString.IndexOf(',')); // Remove the target to get the target value inputString = inputString.Remove(0, inputString.IndexOf(',') + 1); break; } } } }