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OptaPlanner solves planning problems.
This lightweight, embeddable planning engine implements powerful and scalable algorithms
to optimize business resource scheduling and planning.
This module contains the examples which demonstrate how to use it in a normal Java application.
/*
* Copyright 2010 Red Hat, Inc. and/or its affiliates.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.optaplanner.examples.examination.persistence;
import java.io.IOException;
import java.math.BigInteger;
import java.text.DateFormat;
import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Calendar;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Queue;
import java.util.Set;
import org.apache.commons.lang3.builder.CompareToBuilder;
import org.optaplanner.core.api.domain.solution.Solution;
import org.optaplanner.examples.common.persistence.AbstractTxtSolutionImporter;
import org.optaplanner.examples.examination.domain.Exam;
import org.optaplanner.examples.examination.domain.Examination;
import org.optaplanner.examples.examination.domain.FollowingExam;
import org.optaplanner.examples.examination.domain.InstitutionParametrization;
import org.optaplanner.examples.examination.domain.LeadingExam;
import org.optaplanner.examples.examination.domain.Period;
import org.optaplanner.examples.examination.domain.PeriodPenalty;
import org.optaplanner.examples.examination.domain.PeriodPenaltyType;
import org.optaplanner.examples.examination.domain.Room;
import org.optaplanner.examples.examination.domain.RoomPenalty;
import org.optaplanner.examples.examination.domain.RoomPenaltyType;
import org.optaplanner.examples.examination.domain.Student;
import org.optaplanner.examples.examination.domain.Topic;
public class ExaminationImporter extends AbstractTxtSolutionImporter {
private static final String INPUT_FILE_SUFFIX = "exam";
private static final String SPLIT_REGEX = "\\,\\ ?";
public static void main(String[] args) {
new ExaminationImporter().convertAll();
}
public ExaminationImporter() {
super(new ExaminationDao());
}
@Override
public String getInputFileSuffix() {
return INPUT_FILE_SUFFIX;
}
public TxtInputBuilder createTxtInputBuilder() {
return new ExaminationInputBuilder();
}
public static class ExaminationInputBuilder extends TxtInputBuilder {
private Examination examination;
private Map> coincidenceMap;
private Map> exclusionMap;
private Map> afterMap;
public Solution readSolution() throws IOException {
examination = new Examination();
examination.setId(0L);
readTopicListAndStudentList();
readPeriodList();
readRoomList();
readPeriodPenaltyList();
readRoomPenaltyList();
readInstitutionalWeighting();
tagFrontLoadLargeTopics();
tagFrontLoadLastPeriods();
createExamList();
int possibleForOneExamSize = examination.getPeriodList().size() * examination.getRoomList().size();
BigInteger possibleSolutionSize = BigInteger.valueOf(possibleForOneExamSize).pow(
examination.getExamList().size());
logger.info("Examination {} has {} students, {} exams, {} periods, {} rooms, {} period constraints"
+ " and {} room constraints with a search space of {}.",
getInputId(),
examination.getStudentList().size(),
examination.getExamList().size(),
examination.getPeriodList().size(),
examination.getRoomList().size(),
examination.getPeriodPenaltyList().size(),
examination.getRoomPenaltyList().size(),
getFlooredPossibleSolutionSize(possibleSolutionSize));
return examination;
}
private void readTopicListAndStudentList() throws IOException {
coincidenceMap = new LinkedHashMap>();
exclusionMap = new LinkedHashMap>();
afterMap = new LinkedHashMap>();
Map studentMap = new HashMap();
int examSize = readHeaderWithNumber("Exams");
List topicList = new ArrayList(examSize);
for (int i = 0; i < examSize; i++) {
Topic topic = new Topic();
topic.setId((long) i);
String line = bufferedReader.readLine();
String[] lineTokens = line.split(SPLIT_REGEX);
topic.setDuration(Integer.parseInt(lineTokens[0]));
List topicStudentList = new ArrayList(lineTokens.length - 1);
for (int j = 1; j < lineTokens.length; j++) {
topicStudentList.add(findOrCreateStudent(studentMap, Integer.parseInt(lineTokens[j])));
}
topic.setStudentList(topicStudentList);
topic.setFrontLoadLarge(false);
topicList.add(topic);
coincidenceMap.put(topic, new HashSet());
exclusionMap.put(topic, new HashSet());
afterMap.put(topic, new HashSet());
}
examination.setTopicList(topicList);
List studentList = new ArrayList(studentMap.values());
examination.setStudentList(studentList);
}
private Student findOrCreateStudent(Map studentMap, int id) {
Student student = studentMap.get(id);
if (student == null) {
student = new Student();
student.setId((long) id);
studentMap.put(id, student);
}
return student;
}
private void readPeriodList() throws IOException {
int periodSize = readHeaderWithNumber("Periods");
List periodList = new ArrayList(periodSize);
// Everything is in the default timezone and the default locale.
Calendar calendar = Calendar.getInstance();
final DateFormat DATE_FORMAT = new SimpleDateFormat("dd:MM:yyyy HH:mm:ss");
int referenceDayOfYear = -1;
int referenceYear = -1;
for (int i = 0; i < periodSize; i++) {
Period period = new Period();
period.setId((long) i);
String line = bufferedReader.readLine();
String[] lineTokens = line.split(SPLIT_REGEX);
if (lineTokens.length != 4) {
throw new IllegalArgumentException("Read line (" + line + ") is expected to contain 4 tokens.");
}
String startDateTimeString = lineTokens[0] + " " + lineTokens[1];
period.setStartDateTimeString(startDateTimeString);
period.setPeriodIndex(i);
int dayOfYear;
int year;
try {
calendar.setTime(DATE_FORMAT.parse(startDateTimeString));
calendar.get(Calendar.DAY_OF_YEAR);
dayOfYear = calendar.get(Calendar.DAY_OF_YEAR);
year = calendar.get(Calendar.YEAR);
} catch (ParseException e) {
throw new IllegalArgumentException("Illegal startDateTimeString (" + startDateTimeString + ").", e);
}
if (referenceDayOfYear < 0) {
referenceDayOfYear = dayOfYear;
referenceYear = year;
}
if (year != referenceYear) {
// Because the Calendar API in JSE <= 7 sucks...
throw new IllegalStateException("Not yet implemented to handle periods spread over different years...");
}
int dayIndex = dayOfYear - referenceDayOfYear;
if (dayIndex < 0) {
throw new IllegalStateException("The periods should be in ascending order.");
}
period.setDayIndex(dayIndex);
period.setDuration(Integer.parseInt(lineTokens[2]));
period.setPenalty(Integer.parseInt(lineTokens[3]));
periodList.add(period);
}
examination.setPeriodList(periodList);
}
private void readRoomList() throws IOException {
int roomSize = readHeaderWithNumber("Rooms");
List roomList = new ArrayList(roomSize);
for (int i = 0; i < roomSize; i++) {
Room room = new Room();
room.setId((long) i);
String line = bufferedReader.readLine();
String[] lineTokens = line.split(SPLIT_REGEX);
if (lineTokens.length != 2) {
throw new IllegalArgumentException("Read line (" + line + ") is expected to contain 2 tokens.");
}
room.setCapacity(Integer.parseInt(lineTokens[0]));
room.setPenalty(Integer.parseInt(lineTokens[1]));
roomList.add(room);
}
examination.setRoomList(roomList);
}
private void readPeriodPenaltyList() throws IOException {
readConstantLine("\\[PeriodHardConstraints\\]");
List topicList = examination.getTopicList();
List periodPenaltyList = new ArrayList();
String line = bufferedReader.readLine();
int id = 0;
while (!line.equals("[RoomHardConstraints]")) {
String[] lineTokens = line.split(SPLIT_REGEX);
if (lineTokens.length != 3) {
throw new IllegalArgumentException("Read line (" + line + ") is expected to contain 3 tokens.");
}
PeriodPenalty periodPenalty = new PeriodPenalty();
periodPenalty.setId((long) id);
id++;
Topic leftTopic = topicList.get(Integer.parseInt(lineTokens[0]));
periodPenalty.setLeftTopic(leftTopic);
PeriodPenaltyType periodPenaltyType = PeriodPenaltyType.valueOf(lineTokens[1]);
periodPenalty.setPeriodPenaltyType(periodPenaltyType);
Topic rightTopic = topicList.get(Integer.parseInt(lineTokens[2]));
periodPenalty.setRightTopic(rightTopic);
boolean ignorePenalty = false;
switch (periodPenaltyType) {
case EXAM_COINCIDENCE:
if (leftTopic.getId().equals(rightTopic.getId())) {
logger.warn(" Filtering out periodPenalty (" + periodPenalty
+ ") because the left and right topic are the same.");
ignorePenalty = true;
} else if (!Collections.disjoint(leftTopic.getStudentList(), rightTopic.getStudentList())) {
throw new IllegalStateException("PeriodPenalty (" + periodPenalty
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ")'s left and right topic share students.");
} else if (coincidenceMap.get(leftTopic).contains(rightTopic)) {
logger.trace(" Filtering out periodPenalty (" + periodPenalty
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ") because it is mentioned twice.");
ignorePenalty = true;
} else {
boolean added = coincidenceMap.get(leftTopic).add(rightTopic)
&& coincidenceMap.get(rightTopic).add(leftTopic);
if (!added) {
throw new IllegalStateException("The periodPenaltyType (" + periodPenaltyType
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ") was not successfully added twice.");
}
}
break;
case EXCLUSION:
if (leftTopic.getId().equals(rightTopic.getId())) {
logger.warn(" Filtering out periodPenalty (" + periodPenalty
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ") because the left and right topic are the same.");
ignorePenalty = true;
} else if (exclusionMap.get(leftTopic).contains(rightTopic)) {
logger.trace(" Filtering out periodPenalty (" + periodPenalty
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ") because it is mentioned twice.");
ignorePenalty = true;
} else {
boolean added = exclusionMap.get(leftTopic).add(rightTopic)
&& exclusionMap.get(rightTopic).add(leftTopic);
if (!added) {
throw new IllegalStateException("The periodPenaltyType (" + periodPenaltyType
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ") was not successfully added twice.");
}
}
break;
case AFTER:
if (afterMap.get(leftTopic).contains(rightTopic)) {
ignorePenalty = true;
} else {
boolean added = afterMap.get(leftTopic).add(rightTopic);
if (!added) {
throw new IllegalStateException("The periodPenaltyType (" + periodPenaltyType
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ") was not successfully added.");
}
}
break;
default:
throw new IllegalStateException("The periodPenaltyType ("
+ periodPenalty.getPeriodPenaltyType() + ") is not implemented.");
}
if (!ignorePenalty) {
periodPenaltyList.add(periodPenalty);
}
line = bufferedReader.readLine();
}
// createIndirectPeriodPenalties of type EXAM_COINCIDENCE
for (Map.Entry> entry : coincidenceMap.entrySet()) {
Topic leftTopic = entry.getKey();
Set middleTopicSet = entry.getValue();
for (Topic middleTopic : new ArrayList(middleTopicSet)) {
for (Topic rightTopic : new ArrayList(coincidenceMap.get(middleTopic))) {
if (rightTopic != leftTopic
&& !middleTopicSet.contains(rightTopic)) {
PeriodPenalty indirectPeriodPenalty = new PeriodPenalty();
indirectPeriodPenalty.setId((long) id);
id++;
indirectPeriodPenalty.setPeriodPenaltyType(PeriodPenaltyType.EXAM_COINCIDENCE);
indirectPeriodPenalty.setLeftTopic(leftTopic);
indirectPeriodPenalty.setRightTopic(rightTopic);
periodPenaltyList.add(indirectPeriodPenalty);
boolean added = coincidenceMap.get(leftTopic).add(rightTopic)
&& coincidenceMap.get(rightTopic).add(leftTopic);
if (!added) {
throw new IllegalStateException("The periodPenalty (" + indirectPeriodPenalty
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ") was not successfully added twice.");
}
}
}
}
}
// createIndirectPeriodPenalties of type AFTER
for (Map.Entry> entry : afterMap.entrySet()) {
Topic leftTopic = entry.getKey();
Set afterLeftSet = entry.getValue();
Queue queue = new ArrayDeque();
for (Topic topic : afterMap.get(leftTopic)) {
queue.add(topic);
queue.addAll(coincidenceMap.get(topic));
}
while (!queue.isEmpty()) {
Topic rightTopic = queue.poll();
if (!afterLeftSet.contains(rightTopic)) {
PeriodPenalty indirectPeriodPenalty = new PeriodPenalty();
indirectPeriodPenalty.setId((long) id);
id++;
indirectPeriodPenalty.setPeriodPenaltyType(PeriodPenaltyType.AFTER);
indirectPeriodPenalty.setLeftTopic(leftTopic);
indirectPeriodPenalty.setRightTopic(rightTopic);
periodPenaltyList.add(indirectPeriodPenalty);
boolean added = afterMap.get(leftTopic).add(rightTopic);
if (!added) {
throw new IllegalStateException("The periodPenalty (" + indirectPeriodPenalty
+ ") for leftTopic (" + leftTopic + ") and rightTopic (" + rightTopic
+ ") was not successfully added.");
}
}
for (Topic topic : afterMap.get(rightTopic)) {
queue.add(topic);
queue.addAll(coincidenceMap.get(topic));
}
}
}
examination.setPeriodPenaltyList(periodPenaltyList);
}
private void readRoomPenaltyList() throws IOException {
List topicList = examination.getTopicList();
List roomPenaltyList = new ArrayList();
String line = bufferedReader.readLine();
int id = 0;
while (!line.equals("[InstitutionalWeightings]")) {
String[] lineTokens = line.split(SPLIT_REGEX);
if (lineTokens.length != 2) {
throw new IllegalArgumentException("Read line (" + line + ") is expected to contain 2 tokens.");
}
RoomPenalty roomPenalty = new RoomPenalty();
roomPenalty.setId((long) id);
roomPenalty.setTopic(topicList.get(Integer.parseInt(lineTokens[0])));
roomPenalty.setRoomPenaltyType(RoomPenaltyType.valueOf(lineTokens[1]));
roomPenaltyList.add(roomPenalty);
line = bufferedReader.readLine();
id++;
}
examination.setRoomPenaltyList(roomPenaltyList);
}
private int readHeaderWithNumber(String header) throws IOException {
String line = bufferedReader.readLine();
if (!line.startsWith("[" + header + ":") || !line.endsWith("]")) {
throw new IllegalStateException("Read line (" + line + " is not the expected header (["
+ header + ":number])");
}
return Integer.parseInt(line.substring(header.length() + 2, line.length() - 1));
}
private void readInstitutionalWeighting() throws IOException {
InstitutionParametrization institutionParametrization = new InstitutionParametrization();
institutionParametrization.setId(0L);
String[] lineTokens;
lineTokens = readInstitutionalWeightingProperty("TWOINAROW", 2);
institutionParametrization.setTwoInARowPenalty(Integer.parseInt(lineTokens[1]));
lineTokens = readInstitutionalWeightingProperty("TWOINADAY", 2);
institutionParametrization.setTwoInADayPenalty(Integer.parseInt(lineTokens[1]));
lineTokens = readInstitutionalWeightingProperty("PERIODSPREAD", 2);
institutionParametrization.setPeriodSpreadLength(Integer.parseInt(lineTokens[1]));
institutionParametrization.setPeriodSpreadPenalty(1); // constant
lineTokens = readInstitutionalWeightingProperty("NONMIXEDDURATIONS", 2);
institutionParametrization.setMixedDurationPenalty(Integer.parseInt(lineTokens[1]));
lineTokens = readInstitutionalWeightingProperty("FRONTLOAD", 4);
institutionParametrization.setFrontLoadLargeTopicSize(Integer.parseInt(lineTokens[1]));
institutionParametrization.setFrontLoadLastPeriodSize(Integer.parseInt(lineTokens[2]));
institutionParametrization.setFrontLoadPenalty(Integer.parseInt(lineTokens[3]));
examination.setInstitutionParametrization(institutionParametrization);
}
private String[] readInstitutionalWeightingProperty(String property,
int propertySize) throws IOException {
String[] lineTokens;
lineTokens = bufferedReader.readLine().split(SPLIT_REGEX);
if (!lineTokens[0].equals(property) || lineTokens.length != propertySize) {
throw new IllegalArgumentException("Read line (" + Arrays.toString(lineTokens)
+ ") is expected to contain " + propertySize + " tokens and start with " + property + ".");
}
return lineTokens;
}
private void tagFrontLoadLargeTopics() {
List sortedTopicList = new ArrayList(examination.getTopicList());
Collections.sort(sortedTopicList, new Comparator() {
public int compare(Topic a, Topic b) {
return new CompareToBuilder()
.append(a.getStudentSize(), b.getStudentSize()) // Ascending
.append(b.getId(), a.getId()) // Descending (according to spec)
.toComparison();
}
});
int frontLoadLargeTopicSize = examination.getInstitutionParametrization().getFrontLoadLargeTopicSize();
if (frontLoadLargeTopicSize == 0) {
return;
}
int minimumTopicId = sortedTopicList.size() - frontLoadLargeTopicSize;
if (minimumTopicId < 0) {
logger.warn("The frontLoadLargeTopicSize (" + frontLoadLargeTopicSize
+ ") is bigger than topicListSize (" + sortedTopicList.size()
+ "). Tagging all topic as frontLoadLarge...");
minimumTopicId = 0;
}
for (Topic topic : sortedTopicList.subList(minimumTopicId, sortedTopicList.size())) {
topic.setFrontLoadLarge(true);
}
}
private void tagFrontLoadLastPeriods() {
List periodList = examination.getPeriodList();
int frontLoadLastPeriodSize = examination.getInstitutionParametrization().getFrontLoadLastPeriodSize();
if (frontLoadLastPeriodSize == 0) {
return;
}
int minimumPeriodId = periodList.size() - frontLoadLastPeriodSize;
if (minimumPeriodId < 0) {
logger.warn("The frontLoadLastPeriodSize (" + frontLoadLastPeriodSize
+ ") is bigger than periodListSize (" + periodList.size()
+ "). Tagging all periods as frontLoadLast...");
minimumPeriodId = 0;
}
for (Period period : periodList.subList(minimumPeriodId, periodList.size())) {
period.setFrontLoadLast(true);
}
}
private void createExamList() {
List topicList = examination.getTopicList();
List examList = new ArrayList(topicList.size());
Map leadingTopicToExamMap = new HashMap(topicList.size());
for (Topic topic : topicList) {
Exam exam;
Topic leadingTopic = topic;
for (Topic coincidenceTopic : coincidenceMap.get(topic)) {
if (coincidenceTopic.getId() < leadingTopic.getId()) {
leadingTopic = coincidenceTopic;
}
}
if (leadingTopic == topic) {
LeadingExam leadingExam = new LeadingExam();
leadingExam.setFollowingExamList(new ArrayList(10));
leadingTopicToExamMap.put(topic, leadingExam);
exam = leadingExam;
} else {
FollowingExam followingExam = new FollowingExam();
LeadingExam leadingExam = leadingTopicToExamMap.get(leadingTopic);
if (leadingExam == null) {
throw new IllegalStateException("The followingExam (" + topic.getId()
+ ")'s leadingExam (" + leadingExam + ") cannot be null.");
}
followingExam.setLeadingExam(leadingExam);
leadingExam.getFollowingExamList().add(followingExam);
exam = followingExam;
}
exam.setId(topic.getId());
exam.setTopic(topic);
// Notice that we leave the PlanningVariable properties on null
examList.add(exam);
}
examination.setExamList(examList);
}
}
}