Source code

001package org.cpsolver.studentsct.heuristics.studentord;
002
003import java.util.ArrayList;
004import java.util.Collections;
005import java.util.List;
006
007import org.cpsolver.ifs.util.DataProperties;
008import org.cpsolver.studentsct.model.Student;
009
010
011/**
012 * Return the given set of students in a random order, however, all real
013 * students before last-like students.
014 * 
015 * @version StudentSct 1.3 (Student Sectioning)<br>
016 *          Copyright (C) 2007 - 2014 Tomáš Müller<br>
017 *          <a href="mailto:muller@unitime.org">muller@unitime.org</a><br>
018 *          <a href="http://muller.unitime.org">http://muller.unitime.org</a><br>
019 * <br>
020 *          This library is free software; you can redistribute it and/or modify
021 *          it under the terms of the GNU Lesser General Public License as
022 *          published by the Free Software Foundation; either version 3 of the
023 *          License, or (at your option) any later version. <br>
024 * <br>
025 *          This library is distributed in the hope that it will be useful, but
026 *          WITHOUT ANY WARRANTY; without even the implied warranty of
027 *          MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
028 *          Lesser General Public License for more details. <br>
029 * <br>
030 *          You should have received a copy of the GNU Lesser General Public
031 *          License along with this library; if not see
032 *          <a href='http://www.gnu.org/licenses/'>http://www.gnu.org/licenses/</a>.
033 */
034public class StudentRandomRealFirstOrder implements StudentOrder {
035
036    public StudentRandomRealFirstOrder(DataProperties config) {
037    }
038
039    public StudentRandomRealFirstOrder() {
040    }
041
042    /**
043     * Return the given set of students in a random order, however, all real
044     * students before last-like ({@link Student#isDummy()} is true) students.
045     **/
046    @Override
047    public List<Student> order(List<Student> students) {
048        List<Student> real = new ArrayList<Student>(students.size());
049        List<Student> dummy = new ArrayList<Student>(students.size());
050        for (Student student : students) {
051            if (student.isDummy())
052                dummy.add(student);
053            else
054                real.add(student);
055        }
056        Collections.shuffle(dummy);
057        Collections.shuffle(real);
058        dummy.addAll(real);
059        return dummy;
060    }
061
062}