use of org.cpsolver.coursett.model.Placement in project cpsolver by UniTime.
the class StudentSwapSectioning method switchStudents.
@Override
public void switchStudents(Solution<Lecture, Placement> solution, TerminationCondition<Lecture, Placement> termination) {
long it = 0, lastImp = 0;
double t0 = JProf.currentTimeMillis();
DataProperties cfg = ((TimetableModel) solution.getModel()).getProperties();
long maxIdle = cfg.getPropertyInt("StudentSwaps.MaxIdle", 100000);
getProgress().setStatus("Student Sectioning...");
getProgress().info("Student Conflicts: " + sDF2.format(objective(solution)) + " (group: " + sDF2.format(gp(solution)) + "%)");
getProgress().setPhase("Swapping students [HC]...", 1000);
StudentSwapGenerator g = new StudentSwapGenerator();
while ((it - lastImp) < maxIdle && (termination == null || termination.canContinue(solution))) {
it++;
if ((it % 1000) == 0) {
long prg = Math.round(1000.0 * (it - lastImp) / maxIdle);
if (getProgress().getProgress() < prg)
getProgress().setProgress(prg);
if ((it % 10000) == 0)
getProgress().info("Iter=" + (it / 1000) + "k, Idle=" + sDF2.format((it - lastImp) / 1000.0) + "k, Speed=" + sDF2.format(1000.0 * it / (JProf.currentTimeMillis() - t0)) + " it/s" + ", Value=" + sDF2.format(value(solution)) + ", Objective=" + sDF2.format(objective(solution)) + ", Group=" + sDF2.format(gp(solution)) + "%");
}
Neighbour<Lecture, Placement> n = g.selectNeighbour(solution);
if (n == null)
continue;
double v = value(n, solution.getAssignment());
if (v < -sEps) {
lastImp = it;
}
if (v <= 0) {
n.assign(solution.getAssignment(), it);
}
}
getProgress().info("Student Conflicts: " + sDF2.format(objective(solution)) + " (group: " + sDF2.format(gp(solution)) + "%)");
double f = cfg.getPropertyDouble("StudentSwaps.Deluge.Factor", 0.9999999);
double ub = cfg.getPropertyDouble("StudentSwaps.Deluge.UpperBound", 1.10);
double lb = cfg.getPropertyDouble("StudentSwaps.Deluge.LowerBound", 0.90);
double total = value(solution);
double bound = ub * total;
double best = total;
it = 0;
lastImp = 0;
t0 = JProf.currentTimeMillis();
getProgress().setPhase("Swapping students [GD]...", 1000);
while (bound > lb * total && total > 0 && (termination == null || termination.canContinue(solution))) {
Neighbour<Lecture, Placement> n = g.selectNeighbour(solution);
if (n != null) {
double value = value(n, solution.getAssignment());
if (value < 0) {
lastImp = it;
}
if (value <= 0.0 || total + value < bound) {
n.assign(solution.getAssignment(), it);
if (total + value < best) {
best = total + value;
}
total += value;
}
}
bound *= f;
it++;
if ((it % 1000) == 0) {
long prg = 1000 - Math.round(1000.0 * (bound - lb * best) / (ub * best - lb * best));
if (getProgress().getProgress() < prg)
getProgress().setProgress(prg);
if ((it % 10000) == 0) {
getProgress().info("Iter=" + (it / 1000) + "k, Idle=" + sDF2.format((it - lastImp) / 1000.0) + "k, Speed=" + sDF2.format(1000.0 * it / (JProf.currentTimeMillis() - t0)) + " it/s" + ", Value=" + sDF2.format(value(solution)) + ", Objective=" + sDF2.format(objective(solution)) + ", Group=" + sDF2.format(gp(solution)) + "%");
getProgress().info("Bound is " + sDF2.format(bound) + ", " + "best value is " + sDF2.format(best) + " (" + sDF2.format(100.0 * bound / best) + "%), " + "current value is " + sDF2.format(total) + " (" + sDF2.format(100.0 * bound / total) + "%)");
}
}
}
getProgress().info("Student Conflicts: " + sDF2.format(objective(solution)) + " (group: " + sDF2.format(gp(solution)) + "%)");
}
use of org.cpsolver.coursett.model.Placement in project cpsolver by UniTime.
the class TimetableXMLLoader method doLoad.
protected void doLoad(Solution<Lecture, Placement> currentSolution, Element root) {
if (root.attributeValue("term") != null)
getModel().getProperties().setProperty("Data.Term", root.attributeValue("term"));
if (root.attributeValue("year") != null)
getModel().setYear(Integer.parseInt(root.attributeValue("year")));
else if (root.attributeValue("term") != null)
getModel().setYear(Integer.parseInt(root.attributeValue("term").substring(0, 4)));
if (root.attributeValue("initiative") != null)
getModel().getProperties().setProperty("Data.Initiative", root.attributeValue("initiative"));
if (root.attributeValue("semester") != null && root.attributeValue("year") != null)
getModel().getProperties().setProperty("Data.Term", root.attributeValue("semester") + root.attributeValue("year"));
if (root.attributeValue("session") != null)
getModel().getProperties().setProperty("General.SessionId", root.attributeValue("session"));
if (root.attributeValue("solverGroup") != null)
getModel().getProperties().setProperty("General.SolverGroupId", root.attributeValue("solverGroup"));
String version = root.attributeValue("version");
// Student sectioning considers the whole course (including committed classes), since 2.5
boolean sectionWholeCourse = true;
if (version != null && version.indexOf('.') >= 0) {
int majorVersion = Integer.parseInt(version.substring(0, version.indexOf('.')));
int minorVersion = Integer.parseInt(version.substring(1 + version.indexOf('.')));
sectionWholeCourse = (majorVersion == 2 && minorVersion >= 5) || majorVersion > 2;
}
HashMap<Long, TimeLocation> perts = new HashMap<Long, TimeLocation>();
if (getModel().getProperties().getPropertyInt("MPP.TimePert", 0) > 0) {
int nrChanges = getModel().getProperties().getPropertyInt("MPP.TimePert", 0);
int idx = 0;
for (Iterator<?> i = root.element("perturbations").elementIterator("class"); i.hasNext() && idx < nrChanges; idx++) {
Element pertEl = (Element) i.next();
Long classId = Long.valueOf(pertEl.attributeValue("id"));
TimeLocation tl = new TimeLocation(Integer.parseInt(pertEl.attributeValue("days"), 2), Integer.parseInt(pertEl.attributeValue("start")), Integer.parseInt(pertEl.attributeValue("length")), 0, 0.0, 0, null, null, null, 0);
perts.put(classId, tl);
}
}
iProgress.setPhase("Creating rooms ...", root.element("rooms").elements("room").size());
HashMap<String, Element> roomElements = new HashMap<String, Element>();
HashMap<String, RoomConstraint> roomConstraints = new HashMap<String, RoomConstraint>();
HashMap<Long, List<Lecture>> sameLectures = new HashMap<Long, List<Lecture>>();
for (Iterator<?> i = root.element("rooms").elementIterator("room"); i.hasNext(); ) {
Element roomEl = (Element) i.next();
iProgress.incProgress();
roomElements.put(roomEl.attributeValue("id"), roomEl);
if ("false".equals(roomEl.attributeValue("constraint")))
continue;
RoomSharingModel sharingModel = null;
Element sharingEl = roomEl.element("sharing");
if (sharingEl != null) {
Character freeForAllPrefChar = null;
Element freeForAllEl = sharingEl.element("freeForAll");
if (freeForAllEl != null)
freeForAllPrefChar = freeForAllEl.attributeValue("value", "F").charAt(0);
Character notAvailablePrefChar = null;
Element notAvailableEl = sharingEl.element("notAvailable");
if (notAvailableEl != null)
notAvailablePrefChar = notAvailableEl.attributeValue("value", "X").charAt(0);
String pattern = sharingEl.element("pattern").getText();
int unit = Integer.parseInt(sharingEl.element("pattern").attributeValue("unit", "1"));
Map<Character, Long> departments = new HashMap<Character, Long>();
for (Iterator<?> j = sharingEl.elementIterator("department"); j.hasNext(); ) {
Element deptEl = (Element) j.next();
char value = deptEl.attributeValue("value", String.valueOf((char) ('0' + departments.size()))).charAt(0);
Long id = Long.valueOf(deptEl.attributeValue("id"));
departments.put(value, id);
}
sharingModel = new RoomSharingModel(unit, departments, pattern, freeForAllPrefChar, notAvailablePrefChar);
}
boolean ignoreTooFar = false;
if ("true".equals(roomEl.attributeValue("ignoreTooFar")))
ignoreTooFar = true;
boolean fake = false;
if ("true".equals(roomEl.attributeValue("fake")))
fake = true;
Double posX = null, posY = null;
if (roomEl.attributeValue("location") != null) {
String loc = roomEl.attributeValue("location");
posX = Double.valueOf(loc.substring(0, loc.indexOf(',')));
posY = Double.valueOf(loc.substring(loc.indexOf(',') + 1));
}
boolean discouraged = "true".equals(roomEl.attributeValue("discouraged"));
RoomConstraint constraint = (discouraged ? new DiscouragedRoomConstraint(getModel().getProperties(), Long.valueOf(roomEl.attributeValue("id")), (roomEl.attributeValue("name") != null ? roomEl.attributeValue("name") : "r" + roomEl.attributeValue("id")), (roomEl.attributeValue("building") == null ? null : Long.valueOf(roomEl.attributeValue("building"))), Integer.parseInt(roomEl.attributeValue("capacity")), sharingModel, posX, posY, ignoreTooFar, !fake) : new RoomConstraint(Long.valueOf(roomEl.attributeValue("id")), (roomEl.attributeValue("name") != null ? roomEl.attributeValue("name") : "r" + roomEl.attributeValue("id")), (roomEl.attributeValue("building") == null ? null : Long.valueOf(roomEl.attributeValue("building"))), Integer.parseInt(roomEl.attributeValue("capacity")), sharingModel, posX, posY, ignoreTooFar, !fake));
if (roomEl.attributeValue("type") != null)
constraint.setType(Long.valueOf(roomEl.attributeValue("type")));
getModel().addConstraint(constraint);
roomConstraints.put(roomEl.attributeValue("id"), constraint);
for (Iterator<?> j = roomEl.elementIterator("travel-time"); j.hasNext(); ) {
Element travelTimeEl = (Element) j.next();
getModel().getDistanceMetric().addTravelTime(constraint.getResourceId(), Long.valueOf(travelTimeEl.attributeValue("id")), Integer.valueOf(travelTimeEl.attributeValue("minutes")));
}
}
HashMap<String, InstructorConstraint> instructorConstraints = new HashMap<String, InstructorConstraint>();
if (root.element("instructors") != null) {
for (Iterator<?> i = root.element("instructors").elementIterator("instructor"); i.hasNext(); ) {
Element instructorEl = (Element) i.next();
InstructorConstraint instructorConstraint = new InstructorConstraint(Long.valueOf(instructorEl.attributeValue("id")), instructorEl.attributeValue("puid"), (instructorEl.attributeValue("name") != null ? instructorEl.attributeValue("name") : "i" + instructorEl.attributeValue("id")), "true".equals(instructorEl.attributeValue("ignDist")));
if (instructorEl.attributeValue("type") != null)
instructorConstraint.setType(Long.valueOf(instructorEl.attributeValue("type")));
instructorConstraints.put(instructorEl.attributeValue("id"), instructorConstraint);
getModel().addConstraint(instructorConstraint);
}
}
HashMap<Long, String> depts = new HashMap<Long, String>();
if (root.element("departments") != null) {
for (Iterator<?> i = root.element("departments").elementIterator("department"); i.hasNext(); ) {
Element deptEl = (Element) i.next();
depts.put(Long.valueOf(deptEl.attributeValue("id")), (deptEl.attributeValue("name") != null ? deptEl.attributeValue("name") : "d" + deptEl.attributeValue("id")));
}
}
HashMap<Long, Configuration> configs = new HashMap<Long, Configuration>();
HashMap<Long, List<Configuration>> alternativeConfigurations = new HashMap<Long, List<Configuration>>();
if (root.element("configurations") != null) {
for (Iterator<?> i = root.element("configurations").elementIterator("config"); i.hasNext(); ) {
Element configEl = (Element) i.next();
Long configId = Long.valueOf(configEl.attributeValue("id"));
int limit = Integer.parseInt(configEl.attributeValue("limit"));
Long offeringId = Long.valueOf(configEl.attributeValue("offering"));
Configuration config = new Configuration(offeringId, configId, limit);
configs.put(configId, config);
List<Configuration> altConfigs = alternativeConfigurations.get(offeringId);
if (altConfigs == null) {
altConfigs = new ArrayList<Configuration>();
alternativeConfigurations.put(offeringId, altConfigs);
}
altConfigs.add(config);
config.setAltConfigurations(altConfigs);
}
}
iProgress.setPhase("Creating variables ...", root.element("classes").elements("class").size());
HashMap<String, Element> classElements = new HashMap<String, Element>();
HashMap<String, Lecture> lectures = new HashMap<String, Lecture>();
HashMap<Lecture, Placement> assignedPlacements = new HashMap<Lecture, Placement>();
HashMap<Lecture, String> parents = new HashMap<Lecture, String>();
int ord = 0;
for (Iterator<?> i1 = root.element("classes").elementIterator("class"); i1.hasNext(); ) {
Element classEl = (Element) i1.next();
Configuration config = null;
if (classEl.attributeValue("config") != null) {
config = configs.get(Long.valueOf(classEl.attributeValue("config")));
}
if (config == null && classEl.attributeValue("offering") != null) {
Long offeringId = Long.valueOf(classEl.attributeValue("offering"));
Long configId = Long.valueOf(classEl.attributeValue("config"));
List<Configuration> altConfigs = alternativeConfigurations.get(offeringId);
if (altConfigs == null) {
altConfigs = new ArrayList<Configuration>();
alternativeConfigurations.put(offeringId, altConfigs);
}
for (Configuration c : altConfigs) {
if (c.getConfigId().equals(configId)) {
config = c;
break;
}
}
if (config == null) {
config = new Configuration(offeringId, configId, -1);
altConfigs.add(config);
config.setAltConfigurations(altConfigs);
configs.put(config.getConfigId(), config);
}
}
DatePattern defaultDatePattern = new DatePattern();
if (classEl.attributeValue("dates") == null) {
int startDay = Integer.parseInt(classEl.attributeValue("startDay", "0"));
int endDay = Integer.parseInt(classEl.attributeValue("endDay", "1"));
defaultDatePattern.setPattern(startDay, endDay);
defaultDatePattern.setName(sDF.format(getDate(getModel().getYear(), startDay)) + "-" + sDF.format(getDate(getModel().getYear(), endDay)));
} else {
defaultDatePattern.setId(classEl.attributeValue("datePattern") == null ? null : Long.valueOf(classEl.attributeValue("datePattern")));
defaultDatePattern.setName(classEl.attributeValue("datePatternName"));
defaultDatePattern.setPattern(classEl.attributeValue("dates"));
}
Hashtable<Long, DatePattern> datePatterns = new Hashtable<Long, TimetableXMLLoader.DatePattern>();
for (Iterator<?> i2 = classEl.elementIterator("date"); i2.hasNext(); ) {
Element dateEl = (Element) i2.next();
Long id = Long.valueOf(dateEl.attributeValue("id"));
datePatterns.put(id, new DatePattern(id, dateEl.attributeValue("name"), dateEl.attributeValue("pattern")));
}
classElements.put(classEl.attributeValue("id"), classEl);
List<InstructorConstraint> ics = new ArrayList<InstructorConstraint>();
for (Iterator<?> i2 = classEl.elementIterator("instructor"); i2.hasNext(); ) {
Element instructorEl = (Element) i2.next();
InstructorConstraint instructorConstraint = instructorConstraints.get(instructorEl.attributeValue("id"));
if (instructorConstraint == null) {
instructorConstraint = new InstructorConstraint(Long.valueOf(instructorEl.attributeValue("id")), instructorEl.attributeValue("puid"), (instructorEl.attributeValue("name") != null ? instructorEl.attributeValue("name") : "i" + instructorEl.attributeValue("id")), "true".equals(instructorEl.attributeValue("ignDist")));
instructorConstraints.put(instructorEl.attributeValue("id"), instructorConstraint);
getModel().addConstraint(instructorConstraint);
}
ics.add(instructorConstraint);
}
List<RoomLocation> roomLocations = new ArrayList<RoomLocation>();
List<RoomConstraint> roomConstraintsThisClass = new ArrayList<RoomConstraint>();
List<RoomLocation> initialRoomLocations = new ArrayList<RoomLocation>();
List<RoomLocation> assignedRoomLocations = new ArrayList<RoomLocation>();
List<RoomLocation> bestRoomLocations = new ArrayList<RoomLocation>();
for (Iterator<?> i2 = classEl.elementIterator("room"); i2.hasNext(); ) {
Element roomLocationEl = (Element) i2.next();
Element roomEl = roomElements.get(roomLocationEl.attributeValue("id"));
RoomConstraint roomConstraint = roomConstraints.get(roomLocationEl.attributeValue("id"));
Long roomId = null;
String roomName = null;
Long bldgId = null;
if (roomConstraint != null) {
roomConstraintsThisClass.add(roomConstraint);
roomId = roomConstraint.getResourceId();
roomName = roomConstraint.getRoomName();
bldgId = roomConstraint.getBuildingId();
} else {
roomId = Long.valueOf(roomEl.attributeValue("id"));
roomName = (roomEl.attributeValue("name") != null ? roomEl.attributeValue("name") : "r" + roomEl.attributeValue("id"));
bldgId = (roomEl.attributeValue("building") == null ? null : Long.valueOf(roomEl.attributeValue("building")));
}
boolean ignoreTooFar = false;
if ("true".equals(roomEl.attributeValue("ignoreTooFar")))
ignoreTooFar = true;
Double posX = null, posY = null;
if (roomEl.attributeValue("location") != null) {
String loc = roomEl.attributeValue("location");
posX = Double.valueOf(loc.substring(0, loc.indexOf(',')));
posY = Double.valueOf(loc.substring(loc.indexOf(',') + 1));
}
RoomLocation rl = new RoomLocation(roomId, roomName, bldgId, Integer.parseInt(roomLocationEl.attributeValue("pref")), Integer.parseInt(roomEl.attributeValue("capacity")), posX, posY, ignoreTooFar, roomConstraint);
if ("true".equals(roomLocationEl.attributeValue("initial")))
initialRoomLocations.add(rl);
if ("true".equals(roomLocationEl.attributeValue("solution")))
assignedRoomLocations.add(rl);
if ("true".equals(roomLocationEl.attributeValue("best")))
bestRoomLocations.add(rl);
roomLocations.add(rl);
}
List<TimeLocation> timeLocations = new ArrayList<TimeLocation>();
TimeLocation initialTimeLocation = null;
TimeLocation assignedTimeLocation = null;
TimeLocation bestTimeLocation = null;
TimeLocation prohibitedTime = perts.get(Long.valueOf(classEl.attributeValue("id")));
for (Iterator<?> i2 = classEl.elementIterator("time"); i2.hasNext(); ) {
Element timeLocationEl = (Element) i2.next();
DatePattern dp = defaultDatePattern;
if (timeLocationEl.attributeValue("date") != null)
dp = datePatterns.get(Long.valueOf(timeLocationEl.attributeValue("date")));
TimeLocation tl = new TimeLocation(Integer.parseInt(timeLocationEl.attributeValue("days"), 2), Integer.parseInt(timeLocationEl.attributeValue("start")), Integer.parseInt(timeLocationEl.attributeValue("length")), (int) Double.parseDouble(timeLocationEl.attributeValue("pref")), Double.parseDouble(timeLocationEl.attributeValue("npref", timeLocationEl.attributeValue("pref"))), Integer.parseInt(timeLocationEl.attributeValue("datePref", "0")), dp.getId(), dp.getName(), dp.getPattern(), Integer.parseInt(timeLocationEl.attributeValue("breakTime") == null ? "-1" : timeLocationEl.attributeValue("breakTime")));
if (tl.getBreakTime() < 0)
tl.setBreakTime(tl.getLength() == 18 ? 15 : 10);
if (timeLocationEl.attributeValue("pattern") != null)
tl.setTimePatternId(Long.valueOf(timeLocationEl.attributeValue("pattern")));
/*
* if (timePatternTransform) tl =
* transformTimePattern(Long.valueOf
* (classEl.attributeValue("id")),tl);
*/
if (prohibitedTime != null && prohibitedTime.getDayCode() == tl.getDayCode() && prohibitedTime.getStartSlot() == tl.getStartSlot() && prohibitedTime.getLength() == tl.getLength()) {
sLogger.info("Time " + tl.getLongName(true) + " is prohibited for class " + classEl.attributeValue("id"));
continue;
}
if ("true".equals(timeLocationEl.attributeValue("solution")))
assignedTimeLocation = tl;
if ("true".equals(timeLocationEl.attributeValue("initial")))
initialTimeLocation = tl;
if ("true".equals(timeLocationEl.attributeValue("best")))
bestTimeLocation = tl;
timeLocations.add(tl);
}
if (timeLocations.isEmpty()) {
sLogger.error(" ERROR: No time.");
continue;
}
int minClassLimit = 0;
int maxClassLimit = 0;
float room2limitRatio = 1.0f;
if (!"true".equals(classEl.attributeValue("committed"))) {
if (classEl.attributeValue("expectedCapacity") != null) {
minClassLimit = maxClassLimit = Integer.parseInt(classEl.attributeValue("expectedCapacity"));
int roomCapacity = Integer.parseInt(classEl.attributeValue("roomCapacity", classEl.attributeValue("expectedCapacity")));
if (minClassLimit == 0)
minClassLimit = maxClassLimit = roomCapacity;
room2limitRatio = (minClassLimit == 0 ? 1.0f : ((float) roomCapacity) / minClassLimit);
} else {
if (classEl.attribute("classLimit") != null) {
minClassLimit = maxClassLimit = Integer.parseInt(classEl.attributeValue("classLimit"));
} else {
minClassLimit = Integer.parseInt(classEl.attributeValue("minClassLimit"));
maxClassLimit = Integer.parseInt(classEl.attributeValue("maxClassLimit"));
}
room2limitRatio = Float.parseFloat(classEl.attributeValue("roomToLimitRatio", "1.0"));
}
}
Lecture lecture = new Lecture(Long.valueOf(classEl.attributeValue("id")), (classEl.attributeValue("solverGroup") != null ? Long.valueOf(classEl.attributeValue("solverGroup")) : null), Long.valueOf(classEl.attributeValue("subpart", classEl.attributeValue("course", "-1"))), (classEl.attributeValue("name") != null ? classEl.attributeValue("name") : "c" + classEl.attributeValue("id")), timeLocations, roomLocations, Integer.parseInt(classEl.attributeValue("nrRooms", roomLocations.isEmpty() ? "0" : "1")), null, minClassLimit, maxClassLimit, room2limitRatio);
lecture.setNote(classEl.attributeValue("note"));
if ("true".equals(classEl.attributeValue("committed")))
lecture.setCommitted(true);
if (!lecture.isCommitted() && classEl.attributeValue("ord") != null)
lecture.setOrd(Integer.parseInt(classEl.attributeValue("ord")));
else
lecture.setOrd(ord++);
lecture.setWeight(Double.parseDouble(classEl.attributeValue("weight", "1.0")));
if (lecture.getNrRooms() > 1)
lecture.setMaxRoomCombinations(Integer.parseInt(classEl.attributeValue("maxRoomCombinations", "-1")));
if (config != null)
lecture.setConfiguration(config);
if (initialTimeLocation != null && initialRoomLocations.size() == lecture.getNrRooms()) {
lecture.setInitialAssignment(new Placement(lecture, initialTimeLocation, initialRoomLocations));
}
if (assignedTimeLocation != null && assignedRoomLocations.size() == lecture.getNrRooms()) {
assignedPlacements.put(lecture, new Placement(lecture, assignedTimeLocation, assignedRoomLocations));
} else if (lecture.getInitialAssignment() != null) {
assignedPlacements.put(lecture, lecture.getInitialAssignment());
}
if (bestTimeLocation != null && bestRoomLocations.size() == lecture.getNrRooms()) {
lecture.setBestAssignment(new Placement(lecture, bestTimeLocation, bestRoomLocations), 0);
} else if (assignedTimeLocation != null && assignedRoomLocations.size() == lecture.getNrRooms()) {
lecture.setBestAssignment(assignedPlacements.get(lecture), 0);
}
lectures.put(classEl.attributeValue("id"), lecture);
if (classEl.attributeValue("department") != null)
lecture.setDepartment(Long.valueOf(classEl.attributeValue("department")));
if (classEl.attribute("scheduler") != null)
lecture.setScheduler(Long.valueOf(classEl.attributeValue("scheduler")));
if ((sectionWholeCourse || !lecture.isCommitted()) && classEl.attributeValue("subpart", classEl.attributeValue("course")) != null) {
Long subpartId = Long.valueOf(classEl.attributeValue("subpart", classEl.attributeValue("course")));
List<Lecture> sames = sameLectures.get(subpartId);
if (sames == null) {
sames = new ArrayList<Lecture>();
sameLectures.put(subpartId, sames);
}
sames.add(lecture);
}
String parent = classEl.attributeValue("parent");
if (parent != null)
parents.put(lecture, parent);
getModel().addVariable(lecture);
if (lecture.isCommitted()) {
Placement placement = assignedPlacements.get(lecture);
if (classEl.attribute("assignment") != null)
placement.setAssignmentId(Long.valueOf(classEl.attributeValue("assignment")));
for (InstructorConstraint ic : ics) ic.setNotAvailable(placement);
for (RoomConstraint rc : roomConstraintsThisClass) rc.setNotAvailable(placement);
} else {
for (InstructorConstraint ic : ics) ic.addVariable(lecture);
for (RoomConstraint rc : roomConstraintsThisClass) rc.addVariable(lecture);
}
iProgress.incProgress();
}
for (Map.Entry<Lecture, String> entry : parents.entrySet()) {
Lecture lecture = entry.getKey();
Lecture parent = lectures.get(entry.getValue());
if (parent == null) {
iProgress.warn("Parent class " + entry.getValue() + " does not exists.");
} else {
lecture.setParent(parent);
}
}
iProgress.setPhase("Creating constraints ...", root.element("groupConstraints").elements("constraint").size());
HashMap<String, Element> grConstraintElements = new HashMap<String, Element>();
HashMap<String, Constraint<Lecture, Placement>> groupConstraints = new HashMap<String, Constraint<Lecture, Placement>>();
for (Iterator<?> i1 = root.element("groupConstraints").elementIterator("constraint"); i1.hasNext(); ) {
Element grConstraintEl = (Element) i1.next();
Constraint<Lecture, Placement> c = null;
if ("SPREAD".equals(grConstraintEl.attributeValue("type"))) {
c = new SpreadConstraint(getModel().getProperties(), grConstraintEl.attributeValue("name", "spread"));
} else if ("MIN_ROOM_USE".equals(grConstraintEl.attributeValue("type"))) {
c = new MinimizeNumberOfUsedRoomsConstraint(getModel().getProperties());
} else if ("CLASS_LIMIT".equals(grConstraintEl.attributeValue("type"))) {
if (grConstraintEl.element("parentClass") == null) {
c = new ClassLimitConstraint(Integer.parseInt(grConstraintEl.attributeValue("courseLimit")), grConstraintEl.attributeValue("name", "class-limit"));
} else {
String classId = grConstraintEl.element("parentClass").attributeValue("id");
c = new ClassLimitConstraint(lectures.get(classId), grConstraintEl.attributeValue("name", "class-limit"));
}
if (grConstraintEl.attributeValue("delta") != null)
((ClassLimitConstraint) c).setClassLimitDelta(Integer.parseInt(grConstraintEl.attributeValue("delta")));
} else if ("MIN_GRUSE(10x1h)".equals(grConstraintEl.attributeValue("type"))) {
c = new MinimizeNumberOfUsedGroupsOfTime(getModel().getProperties(), "10x1h", MinimizeNumberOfUsedGroupsOfTime.sGroups10of1h);
} else if ("MIN_GRUSE(5x2h)".equals(grConstraintEl.attributeValue("type"))) {
c = new MinimizeNumberOfUsedGroupsOfTime(getModel().getProperties(), "5x2h", MinimizeNumberOfUsedGroupsOfTime.sGroups5of2h);
} else if ("MIN_GRUSE(3x3h)".equals(grConstraintEl.attributeValue("type"))) {
c = new MinimizeNumberOfUsedGroupsOfTime(getModel().getProperties(), "3x3h", MinimizeNumberOfUsedGroupsOfTime.sGroups3of3h);
} else if ("MIN_GRUSE(2x5h)".equals(grConstraintEl.attributeValue("type"))) {
c = new MinimizeNumberOfUsedGroupsOfTime(getModel().getProperties(), "2x5h", MinimizeNumberOfUsedGroupsOfTime.sGroups2of5h);
} else if (IgnoreStudentConflictsConstraint.REFERENCE.equals(grConstraintEl.attributeValue("type"))) {
c = new IgnoreStudentConflictsConstraint();
} else {
try {
FlexibleConstraintType f = FlexibleConstraintType.valueOf(grConstraintEl.attributeValue("type"));
try {
c = f.create(Long.valueOf(grConstraintEl.attributeValue("id")), grConstraintEl.attributeValue("owner"), grConstraintEl.attributeValue("pref"), grConstraintEl.attributeValue("reference"));
} catch (IllegalArgumentException e) {
iProgress.warn("Failed to create flexible constraint " + grConstraintEl.attributeValue("type") + ": " + e.getMessage(), e);
continue;
}
} catch (IllegalArgumentException e) {
// type did not match, continue with group constraint types
c = new GroupConstraint(Long.valueOf(grConstraintEl.attributeValue("id")), GroupConstraint.ConstraintType.get(grConstraintEl.attributeValue("type")), grConstraintEl.attributeValue("pref"));
}
}
getModel().addConstraint(c);
for (Iterator<?> i2 = grConstraintEl.elementIterator("class"); i2.hasNext(); ) {
String classId = ((Element) i2.next()).attributeValue("id");
Lecture other = lectures.get(classId);
if (other != null)
c.addVariable(other);
else
iProgress.warn("Class " + classId + " does not exists, but it is referred from group constraint " + c.getId() + " (" + c.getName() + ")");
}
grConstraintElements.put(grConstraintEl.attributeValue("id"), grConstraintEl);
groupConstraints.put(grConstraintEl.attributeValue("id"), c);
iProgress.incProgress();
}
iProgress.setPhase("Loading students ...", root.element("students").elements("student").size());
boolean initialSectioning = true;
HashMap<Long, Student> students = new HashMap<Long, Student>();
HashMap<Long, Set<Student>> offering2students = new HashMap<Long, Set<Student>>();
for (Iterator<?> i1 = root.element("students").elementIterator("student"); i1.hasNext(); ) {
Element studentEl = (Element) i1.next();
List<Lecture> lecturesThisStudent = new ArrayList<Lecture>();
Long studentId = Long.valueOf(studentEl.attributeValue("id"));
Student student = students.get(studentId);
if (student == null) {
student = new Student(studentId);
students.put(studentId, student);
getModel().addStudent(student);
}
student.setAcademicArea(studentEl.attributeValue("area"));
student.setAcademicClassification(studentEl.attributeValue("classification"));
student.setMajor(studentEl.attributeValue("major"));
student.setCurriculum(studentEl.attributeValue("curriculum"));
for (Iterator<?> i2 = studentEl.elementIterator("offering"); i2.hasNext(); ) {
Element ofEl = (Element) i2.next();
Long offeringId = Long.valueOf(ofEl.attributeValue("id"));
String priority = ofEl.attributeValue("priority");
student.addOffering(offeringId, Double.parseDouble(ofEl.attributeValue("weight", "1.0")), priority == null ? null : Double.valueOf(priority));
Set<Student> studentsThisOffering = offering2students.get(offeringId);
if (studentsThisOffering == null) {
studentsThisOffering = new HashSet<Student>();
offering2students.put(offeringId, studentsThisOffering);
}
studentsThisOffering.add(student);
}
for (Iterator<?> i2 = studentEl.elementIterator("class"); i2.hasNext(); ) {
String classId = ((Element) i2.next()).attributeValue("id");
Lecture lecture = lectures.get(classId);
if (lecture == null) {
iProgress.warn("Class " + classId + " does not exists, but it is referred from student " + student.getId());
continue;
}
if (lecture.isCommitted()) {
if (sectionWholeCourse && (lecture.getParent() != null || lecture.getConfiguration() != null)) {
// committed, but with course structure -- sectioning can be used
student.addLecture(lecture);
student.addConfiguration(lecture.getConfiguration());
lecture.addStudent(getAssignment(), student);
lecturesThisStudent.add(lecture);
initialSectioning = false;
} else {
Placement placement = assignedPlacements.get(lecture);
student.addCommitedPlacement(placement);
}
} else {
student.addLecture(lecture);
student.addConfiguration(lecture.getConfiguration());
lecture.addStudent(getAssignment(), student);
lecturesThisStudent.add(lecture);
initialSectioning = false;
}
}
for (Iterator<?> i2 = studentEl.elementIterator("prohibited-class"); i2.hasNext(); ) {
String classId = ((Element) i2.next()).attributeValue("id");
Lecture lecture = lectures.get(classId);
if (lecture != null)
student.addCanNotEnroll(lecture);
else
iProgress.warn("Class " + classId + " does not exists, but it is referred from student " + student.getId());
}
if (studentEl.attributeValue("instructor") != null)
student.setInstructor(instructorConstraints.get(studentEl.attributeValue("instructor")));
iProgress.incProgress();
}
if (root.element("groups") != null) {
iProgress.setPhase("Loading student groups ...", root.element("groups").elements("group").size());
for (Iterator<?> i1 = root.element("groups").elementIterator("group"); i1.hasNext(); ) {
Element groupEl = (Element) i1.next();
long groupId = Long.parseLong(groupEl.attributeValue("id"));
StudentGroup group = new StudentGroup(groupId, Double.parseDouble(groupEl.attributeValue("weight", "1.0")), groupEl.attributeValue("name", "Group-" + groupId));
getModel().addStudentGroup(group);
for (Iterator<?> i2 = groupEl.elementIterator("student"); i2.hasNext(); ) {
Element studentEl = (Element) i2.next();
Student student = students.get(Long.valueOf(studentEl.attributeValue("id")));
if (student != null) {
group.addStudent(student);
student.addGroup(group);
}
}
}
}
for (List<Lecture> sames : sameLectures.values()) {
for (Lecture lect : sames) {
lect.setSameSubpartLectures(sames);
}
}
if (initialSectioning) {
iProgress.setPhase("Initial sectioning ...", offering2students.size());
for (Map.Entry<Long, Set<Student>> entry : offering2students.entrySet()) {
Long offeringId = entry.getKey();
Set<Student> studentsThisOffering = entry.getValue();
List<Configuration> altConfigs = alternativeConfigurations.get(offeringId);
getModel().getStudentSectioning().initialSectioning(getAssignment(), offeringId, String.valueOf(offeringId), studentsThisOffering, altConfigs);
iProgress.incProgress();
}
for (Student student : students.values()) {
student.clearDistanceCache();
if (student.getInstructor() != null)
for (Lecture lecture : student.getInstructor().variables()) {
student.addLecture(lecture);
student.addConfiguration(lecture.getConfiguration());
lecture.addStudent(getAssignment(), student);
}
}
}
iProgress.setPhase("Computing jenrl ...", students.size());
HashMap<Lecture, HashMap<Lecture, JenrlConstraint>> jenrls = new HashMap<Lecture, HashMap<Lecture, JenrlConstraint>>();
for (Iterator<Student> i1 = students.values().iterator(); i1.hasNext(); ) {
Student st = i1.next();
for (Iterator<Lecture> i2 = st.getLectures().iterator(); i2.hasNext(); ) {
Lecture l1 = i2.next();
for (Iterator<Lecture> i3 = st.getLectures().iterator(); i3.hasNext(); ) {
Lecture l2 = i3.next();
if (l1.getId() >= l2.getId())
continue;
HashMap<Lecture, JenrlConstraint> x = jenrls.get(l1);
if (x == null) {
x = new HashMap<Lecture, JenrlConstraint>();
jenrls.put(l1, x);
}
JenrlConstraint jenrl = x.get(l2);
if (jenrl == null) {
jenrl = new JenrlConstraint();
jenrl.addVariable(l1);
jenrl.addVariable(l2);
getModel().addConstraint(jenrl);
x.put(l2, jenrl);
}
jenrl.incJenrl(getAssignment(), st);
}
}
iProgress.incProgress();
}
if (iDeptBalancing) {
iProgress.setPhase("Creating dept. spread constraints ...", getModel().variables().size());
HashMap<Long, DepartmentSpreadConstraint> depSpreadConstraints = new HashMap<Long, DepartmentSpreadConstraint>();
for (Lecture lecture : getModel().variables()) {
if (lecture.getDepartment() == null)
continue;
DepartmentSpreadConstraint deptConstr = depSpreadConstraints.get(lecture.getDepartment());
if (deptConstr == null) {
String name = depts.get(lecture.getDepartment());
deptConstr = new DepartmentSpreadConstraint(getModel().getProperties(), lecture.getDepartment(), (name != null ? name : "d" + lecture.getDepartment()));
depSpreadConstraints.put(lecture.getDepartment(), deptConstr);
getModel().addConstraint(deptConstr);
}
deptConstr.addVariable(lecture);
iProgress.incProgress();
}
}
if (getModel().getProperties().getPropertyBoolean("General.PurgeInvalidPlacements", true)) {
iProgress.setPhase("Purging invalid placements ...", getModel().variables().size());
for (Lecture lecture : getModel().variables()) {
lecture.purgeInvalidValues(iInteractiveMode);
iProgress.incProgress();
}
}
if (getModel().hasConstantVariables() && getModel().constantVariables().size() > 0) {
iProgress.setPhase("Assigning committed classes ...", assignedPlacements.size());
for (Map.Entry<Lecture, Placement> entry : assignedPlacements.entrySet()) {
Lecture lecture = entry.getKey();
Placement placement = entry.getValue();
if (!lecture.isCommitted()) {
iProgress.incProgress();
continue;
}
lecture.setConstantValue(placement);
getModel().weaken(getAssignment(), placement);
Map<Constraint<Lecture, Placement>, Set<Placement>> conflictConstraints = getModel().conflictConstraints(getAssignment(), placement);
if (conflictConstraints.isEmpty()) {
getAssignment().assign(0, placement);
} else {
sLogger.warn("WARNING: Unable to assign " + lecture.getName() + " := " + placement.getName());
sLogger.debug(" Reason:");
for (Constraint<Lecture, Placement> c : conflictConstraints.keySet()) {
Set<Placement> vals = conflictConstraints.get(c);
for (Placement v : vals) {
sLogger.debug(" " + v.variable().getName() + " = " + v.getName());
}
sLogger.debug(" in constraint " + c);
}
}
iProgress.incProgress();
}
}
if (currentSolution != null) {
iProgress.setPhase("Creating best assignment ...", 2 * getModel().variables().size());
for (Lecture lecture : getModel().variables()) {
iProgress.incProgress();
Placement placement = lecture.getBestAssignment();
if (placement == null)
continue;
getModel().weaken(getAssignment(), placement);
getAssignment().assign(0, placement);
}
currentSolution.saveBest();
for (Lecture lecture : getModel().variables()) {
iProgress.incProgress();
getAssignment().unassign(0, lecture);
}
}
iProgress.setPhase("Creating initial assignment ...", assignedPlacements.size());
for (Map.Entry<Lecture, Placement> entry : assignedPlacements.entrySet()) {
Lecture lecture = entry.getKey();
Placement placement = entry.getValue();
if (lecture.isCommitted()) {
iProgress.incProgress();
continue;
}
getModel().weaken(getAssignment(), placement);
Map<Constraint<Lecture, Placement>, Set<Placement>> conflictConstraints = getModel().conflictConstraints(getAssignment(), placement);
if (conflictConstraints.isEmpty()) {
if (!placement.isValid()) {
sLogger.warn("WARNING: Lecture " + lecture.getName() + " does not contain assignment " + placement.getLongName(true) + " in its domain (" + placement.getNotValidReason(getAssignment(), true) + ").");
} else
getAssignment().assign(0, placement);
} else {
sLogger.warn("WARNING: Unable to assign " + lecture.getName() + " := " + placement.getName());
sLogger.debug(" Reason:");
for (Constraint<Lecture, Placement> c : conflictConstraints.keySet()) {
Set<Placement> vals = conflictConstraints.get(c);
for (Placement v : vals) {
sLogger.debug(" " + v.variable().getName() + " = " + v.getName());
}
sLogger.debug(" in constraint " + c);
}
}
iProgress.incProgress();
}
if (initialSectioning && getAssignment().nrAssignedVariables() != 0 && !getModel().getProperties().getPropertyBoolean("Global.LoadStudentEnrlsFromSolution", false))
getModel().switchStudents(getAssignment());
if (iForcedPerturbances > 0) {
iProgress.setPhase("Forcing perturbances", iForcedPerturbances);
for (int i = 0; i < iForcedPerturbances; i++) {
iProgress.setProgress(i);
Lecture var = null;
do {
var = ToolBox.random(getModel().variables());
} while (var.getInitialAssignment() == null || var.values(getAssignment()).size() <= 1);
var.removeInitialValue();
}
}
/*
for (Constraint<Lecture, Placement> c : getModel().constraints()) {
if (c instanceof SpreadConstraint)
((SpreadConstraint) c).init();
if (c instanceof DiscouragedRoomConstraint)
((DiscouragedRoomConstraint) c).setEnabled(true);
if (c instanceof MinimizeNumberOfUsedRoomsConstraint)
((MinimizeNumberOfUsedRoomsConstraint) c).setEnabled(true);
if (c instanceof MinimizeNumberOfUsedGroupsOfTime)
((MinimizeNumberOfUsedGroupsOfTime) c).setEnabled(true);
}
*/
}
use of org.cpsolver.coursett.model.Placement in project cpsolver by UniTime.
the class TimetableXMLSaver method doSave.
protected void doSave(Element root) {
root.addAttribute("version", "2.5");
root.addAttribute("initiative", getModel().getProperties().getProperty("Data.Initiative"));
root.addAttribute("term", getModel().getProperties().getProperty("Data.Term"));
root.addAttribute("year", String.valueOf(getModel().getYear()));
root.addAttribute("created", String.valueOf(new Date()));
root.addAttribute("nrDays", String.valueOf(Constants.DAY_CODES.length));
root.addAttribute("slotsPerDay", String.valueOf(Constants.SLOTS_PER_DAY));
if (!iConvertIds && getModel().getProperties().getProperty("General.SessionId") != null)
root.addAttribute("session", getModel().getProperties().getProperty("General.SessionId"));
if (iShowNames && !iConvertIds && getModel().getProperties().getProperty("General.SolverGroupId") != null)
root.addAttribute("solverGroup", getId("solverGroup", getModel().getProperties().getProperty("General.SolverGroupId")));
HashMap<String, Element> roomElements = new HashMap<String, Element>();
Element roomsEl = root.addElement("rooms");
for (RoomConstraint roomConstraint : getModel().getRoomConstraints()) {
Element roomEl = roomsEl.addElement("room").addAttribute("id", getId("room", roomConstraint.getResourceId()));
roomEl.addAttribute("constraint", "true");
if (roomConstraint instanceof DiscouragedRoomConstraint)
roomEl.addAttribute("discouraged", "true");
if (iShowNames) {
roomEl.addAttribute("name", roomConstraint.getRoomName());
}
if (!iConvertIds && roomConstraint.getBuildingId() != null)
roomEl.addAttribute("building", getId("bldg", roomConstraint.getBuildingId()));
roomElements.put(getId("room", roomConstraint.getResourceId()), roomEl);
roomEl.addAttribute("capacity", String.valueOf(roomConstraint.getCapacity()));
if (roomConstraint.getPosX() != null && roomConstraint.getPosY() != null)
roomEl.addAttribute("location", roomConstraint.getPosX() + "," + roomConstraint.getPosY());
if (roomConstraint.getIgnoreTooFar())
roomEl.addAttribute("ignoreTooFar", "true");
if (!roomConstraint.getConstraint())
roomEl.addAttribute("fake", "true");
if (roomConstraint.getSharingModel() != null) {
RoomSharingModel sharingModel = roomConstraint.getSharingModel();
Element sharingEl = roomEl.addElement("sharing");
sharingEl.addElement("pattern").addAttribute("unit", String.valueOf(sharingModel.getStep())).setText(sharingModel.getPreferences());
sharingEl.addElement("freeForAll").addAttribute("value", String.valueOf(sharingModel.getFreeForAllPrefChar()));
sharingEl.addElement("notAvailable").addAttribute("value", String.valueOf(sharingModel.getNotAvailablePrefChar()));
for (Long id : sharingModel.getDepartmentIds()) {
sharingEl.addElement("department").addAttribute("value", String.valueOf(sharingModel.getCharacter(id))).addAttribute("id", getId("dept", id));
}
}
if (roomConstraint.getType() != null && iShowNames)
roomEl.addAttribute("type", roomConstraint.getType().toString());
Map<Long, Integer> travelTimes = getModel().getDistanceMetric().getTravelTimes().get(roomConstraint.getResourceId());
if (travelTimes != null)
for (Map.Entry<Long, Integer> time : travelTimes.entrySet()) roomEl.addElement("travel-time").addAttribute("id", getId("room", time.getKey())).addAttribute("minutes", time.getValue().toString());
}
Element instructorsEl = root.addElement("instructors");
Element departmentsEl = root.addElement("departments");
HashMap<Long, String> depts = new HashMap<Long, String>();
Element configsEl = (iShowNames ? root.addElement("configurations") : null);
HashSet<Configuration> configs = new HashSet<Configuration>();
Element classesEl = root.addElement("classes");
HashMap<Long, Element> classElements = new HashMap<Long, Element>();
List<Lecture> vars = new ArrayList<Lecture>(getModel().variables());
if (getModel().hasConstantVariables())
vars.addAll(getModel().constantVariables());
for (Lecture lecture : vars) {
Placement placement = getAssignment().getValue(lecture);
if (lecture.isCommitted() && placement == null)
placement = lecture.getInitialAssignment();
Placement initialPlacement = lecture.getInitialAssignment();
// if (initialPlacement==null) initialPlacement =
// (Placement)lecture.getAssignment();
Placement bestPlacement = lecture.getBestAssignment();
Element classEl = classesEl.addElement("class").addAttribute("id", getId("class", lecture.getClassId()));
classElements.put(lecture.getClassId(), classEl);
if (iShowNames && lecture.getNote() != null)
classEl.addAttribute("note", lecture.getNote());
if (iShowNames && !lecture.isCommitted())
classEl.addAttribute("ord", String.valueOf(lecture.getOrd()));
if (lecture.getWeight() != 1.0)
classEl.addAttribute("weight", String.valueOf(lecture.getWeight()));
if (iShowNames && lecture.getSolverGroupId() != null)
classEl.addAttribute("solverGroup", getId("solverGroup", lecture.getSolverGroupId()));
if (lecture.getParent() == null && lecture.getConfiguration() != null) {
if (!iShowNames)
classEl.addAttribute("offering", getId("offering", lecture.getConfiguration().getOfferingId().toString()));
classEl.addAttribute("config", getId("config", lecture.getConfiguration().getConfigId().toString()));
if (iShowNames && configs.add(lecture.getConfiguration())) {
configsEl.addElement("config").addAttribute("id", getId("config", lecture.getConfiguration().getConfigId().toString())).addAttribute("limit", String.valueOf(lecture.getConfiguration().getLimit())).addAttribute("offering", getId("offering", lecture.getConfiguration().getOfferingId().toString()));
}
}
classEl.addAttribute("committed", (lecture.isCommitted() ? "true" : "false"));
if (lecture.getParent() != null)
classEl.addAttribute("parent", getId("class", lecture.getParent().getClassId()));
if (lecture.getSchedulingSubpartId() != null)
classEl.addAttribute("subpart", getId("subpart", lecture.getSchedulingSubpartId()));
if (iShowNames && lecture.isCommitted() && placement != null && placement.getAssignmentId() != null) {
classEl.addAttribute("assignment", getId("assignment", placement.getAssignmentId()));
}
if (!lecture.isCommitted()) {
if (lecture.minClassLimit() == lecture.maxClassLimit()) {
classEl.addAttribute("classLimit", String.valueOf(lecture.maxClassLimit()));
} else {
classEl.addAttribute("minClassLimit", String.valueOf(lecture.minClassLimit()));
classEl.addAttribute("maxClassLimit", String.valueOf(lecture.maxClassLimit()));
}
if (lecture.roomToLimitRatio() != 1.0f)
classEl.addAttribute("roomToLimitRatio", sStudentWeightFormat.format(lecture.roomToLimitRatio()));
}
if (lecture.getNrRooms() != 1)
classEl.addAttribute("nrRooms", String.valueOf(lecture.getNrRooms()));
if (lecture.getNrRooms() > 1 && lecture.getMaxRoomCombinations() > 0)
classEl.addAttribute("maxRoomCombinations", String.valueOf(lecture.getMaxRoomCombinations()));
if (iShowNames)
classEl.addAttribute("name", lecture.getName());
if (lecture.getDeptSpreadConstraint() != null) {
classEl.addAttribute("department", getId("dept", lecture.getDeptSpreadConstraint().getDepartmentId()));
depts.put(lecture.getDeptSpreadConstraint().getDepartmentId(), lecture.getDeptSpreadConstraint().getName());
}
if (lecture.getScheduler() != null)
classEl.addAttribute("scheduler", getId("dept", lecture.getScheduler()));
for (InstructorConstraint ic : lecture.getInstructorConstraints()) {
Element instrEl = classEl.addElement("instructor").addAttribute("id", getId("inst", ic.getResourceId()));
if ((lecture.isCommitted() || iSaveCurrent) && placement != null)
instrEl.addAttribute("solution", "true");
if (iSaveInitial && initialPlacement != null)
instrEl.addAttribute("initial", "true");
if (iSaveBest && bestPlacement != null && !bestPlacement.equals(placement))
instrEl.addAttribute("best", "true");
}
for (RoomLocation rl : lecture.roomLocations()) {
Element roomLocationEl = classEl.addElement("room");
roomLocationEl.addAttribute("id", getId("room", rl.getId()));
roomLocationEl.addAttribute("pref", String.valueOf(rl.getPreference()));
if ((lecture.isCommitted() || iSaveCurrent) && placement != null && placement.hasRoomLocation(rl.getId()))
roomLocationEl.addAttribute("solution", "true");
if (iSaveInitial && initialPlacement != null && initialPlacement.hasRoomLocation(rl.getId()))
roomLocationEl.addAttribute("initial", "true");
if (iSaveBest && bestPlacement != null && !bestPlacement.equals(placement) && bestPlacement.hasRoomLocation(rl.getId()))
roomLocationEl.addAttribute("best", "true");
if (!roomElements.containsKey(getId("room", rl.getId()))) {
// room location without room constraint
Element roomEl = roomsEl.addElement("room").addAttribute("id", getId("room", rl.getId()));
roomEl.addAttribute("constraint", "false");
if (!iConvertIds && rl.getBuildingId() != null)
roomEl.addAttribute("building", getId("bldg", rl.getBuildingId()));
if (iShowNames) {
roomEl.addAttribute("name", rl.getName());
}
roomElements.put(getId("room", rl.getId()), roomEl);
roomEl.addAttribute("capacity", String.valueOf(rl.getRoomSize()));
if (rl.getPosX() != null && rl.getPosY() != null)
roomEl.addAttribute("location", rl.getPosX() + "," + rl.getPosY());
if (rl.getIgnoreTooFar())
roomEl.addAttribute("ignoreTooFar", "true");
}
}
boolean first = true;
Set<Long> dp = new HashSet<Long>();
for (TimeLocation tl : lecture.timeLocations()) {
Element timeLocationEl = classEl.addElement("time");
timeLocationEl.addAttribute("days", sDF[7].format(Long.parseLong(Integer.toBinaryString(tl.getDayCode()))));
timeLocationEl.addAttribute("start", String.valueOf(tl.getStartSlot()));
timeLocationEl.addAttribute("length", String.valueOf(tl.getLength()));
timeLocationEl.addAttribute("breakTime", String.valueOf(tl.getBreakTime()));
if (iShowNames) {
timeLocationEl.addAttribute("pref", String.valueOf(tl.getPreference()));
timeLocationEl.addAttribute("npref", String.valueOf(tl.getNormalizedPreference()));
} else {
timeLocationEl.addAttribute("pref", String.valueOf(tl.getNormalizedPreference()));
}
if (!iConvertIds && tl.getTimePatternId() != null)
timeLocationEl.addAttribute("pattern", getId("pat", tl.getTimePatternId()));
if (tl.getDatePatternId() != null && dp.add(tl.getDatePatternId())) {
Element dateEl = classEl.addElement("date");
dateEl.addAttribute("id", getId("dpat", String.valueOf(tl.getDatePatternId())));
if (iShowNames)
dateEl.addAttribute("name", tl.getDatePatternName());
dateEl.addAttribute("pattern", bitset2string(tl.getWeekCode()));
}
if (tl.getDatePatternPreference() != 0)
timeLocationEl.addAttribute("datePref", String.valueOf(tl.getDatePatternPreference()));
if (tl.getTimePatternId() == null && first) {
if (iShowNames)
classEl.addAttribute("datePatternName", tl.getDatePatternName());
classEl.addAttribute("dates", bitset2string(tl.getWeekCode()));
first = false;
}
if (tl.getDatePatternId() != null) {
timeLocationEl.addAttribute("date", getId("dpat", String.valueOf(tl.getDatePatternId())));
}
if ((lecture.isCommitted() || iSaveCurrent) && placement != null && placement.getTimeLocation().equals(tl))
timeLocationEl.addAttribute("solution", "true");
if (iSaveInitial && initialPlacement != null && initialPlacement.getTimeLocation().equals(tl))
timeLocationEl.addAttribute("initial", "true");
if (iSaveBest && bestPlacement != null && !bestPlacement.equals(placement) && bestPlacement.getTimeLocation().equals(tl))
timeLocationEl.addAttribute("best", "true");
}
}
for (InstructorConstraint ic : getModel().getInstructorConstraints()) {
if (iShowNames || ic.isIgnoreDistances()) {
Element instrEl = instructorsEl.addElement("instructor").addAttribute("id", getId("inst", ic.getResourceId()));
if (iShowNames) {
if (ic.getPuid() != null && ic.getPuid().length() > 0)
instrEl.addAttribute("puid", ic.getPuid());
instrEl.addAttribute("name", ic.getName());
if (ic.getType() != null && iShowNames)
instrEl.addAttribute("type", ic.getType().toString());
}
if (ic.isIgnoreDistances()) {
instrEl.addAttribute("ignDist", "true");
}
}
if (ic.getUnavailabilities() != null) {
for (Placement placement : ic.getUnavailabilities()) {
Lecture lecture = placement.variable();
Element classEl = classElements.get(lecture.getClassId());
classEl.addElement("instructor").addAttribute("id", getId("inst", ic.getResourceId())).addAttribute("solution", "true");
}
}
}
if (instructorsEl.elements().isEmpty())
root.remove(instructorsEl);
Element grConstraintsEl = root.addElement("groupConstraints");
for (GroupConstraint gc : getModel().getGroupConstraints()) {
Element grEl = grConstraintsEl.addElement("constraint").addAttribute("id", getId("gr", String.valueOf(gc.getId())));
grEl.addAttribute("type", gc.getType().reference());
grEl.addAttribute("pref", gc.getPrologPreference());
for (Lecture l : gc.variables()) {
grEl.addElement("class").addAttribute("id", getId("class", l.getClassId()));
}
}
for (SpreadConstraint spread : getModel().getSpreadConstraints()) {
Element grEl = grConstraintsEl.addElement("constraint").addAttribute("id", getId("gr", String.valueOf(spread.getId())));
grEl.addAttribute("type", "SPREAD");
grEl.addAttribute("pref", Constants.sPreferenceRequired);
if (iShowNames)
grEl.addAttribute("name", spread.getName());
for (Lecture l : spread.variables()) {
grEl.addElement("class").addAttribute("id", getId("class", l.getClassId()));
}
}
for (Constraint<Lecture, Placement> c : getModel().constraints()) {
if (c instanceof MinimizeNumberOfUsedRoomsConstraint) {
Element grEl = grConstraintsEl.addElement("constraint").addAttribute("id", getId("gr", String.valueOf(c.getId())));
grEl.addAttribute("type", "MIN_ROOM_USE");
grEl.addAttribute("pref", Constants.sPreferenceRequired);
for (Lecture l : c.variables()) {
grEl.addElement("class").addAttribute("id", getId("class", l.getClassId()));
}
}
if (c instanceof MinimizeNumberOfUsedGroupsOfTime) {
Element grEl = grConstraintsEl.addElement("constraint").addAttribute("id", getId("gr", String.valueOf(c.getId())));
grEl.addAttribute("type", ((MinimizeNumberOfUsedGroupsOfTime) c).getConstraintName());
grEl.addAttribute("pref", Constants.sPreferenceRequired);
for (Lecture l : c.variables()) {
grEl.addElement("class").addAttribute("id", getId("class", l.getClassId()));
}
}
if (c instanceof IgnoreStudentConflictsConstraint) {
Element grEl = grConstraintsEl.addElement("constraint").addAttribute("id", getId("gr", String.valueOf(c.getId())));
grEl.addAttribute("type", IgnoreStudentConflictsConstraint.REFERENCE);
grEl.addAttribute("pref", Constants.sPreferenceRequired);
for (Lecture l : c.variables()) {
grEl.addElement("class").addAttribute("id", getId("class", l.getClassId()));
}
}
}
for (ClassLimitConstraint clc : getModel().getClassLimitConstraints()) {
Element grEl = grConstraintsEl.addElement("constraint").addAttribute("id", getId("gr", String.valueOf(clc.getId())));
grEl.addAttribute("type", "CLASS_LIMIT");
grEl.addAttribute("pref", Constants.sPreferenceRequired);
if (clc.getParentLecture() != null) {
grEl.addElement("parentClass").addAttribute("id", getId("class", clc.getParentLecture().getClassId()));
} else
grEl.addAttribute("courseLimit", String.valueOf(clc.classLimit() - clc.getClassLimitDelta()));
if (clc.getClassLimitDelta() != 0)
grEl.addAttribute("delta", String.valueOf(clc.getClassLimitDelta()));
if (iShowNames)
grEl.addAttribute("name", clc.getName());
for (Lecture l : clc.variables()) {
grEl.addElement("class").addAttribute("id", getId("class", l.getClassId()));
}
}
for (FlexibleConstraint gc : getModel().getFlexibleConstraints()) {
Element flEl = grConstraintsEl.addElement("constraint").addAttribute("id", getId("gr", String.valueOf(gc.getId())));
flEl.addAttribute("reference", gc.getReference());
flEl.addAttribute("owner", gc.getOwner());
flEl.addAttribute("pref", gc.getPrologPreference());
flEl.addAttribute("type", gc.getType().toString());
for (Lecture l : gc.variables()) {
flEl.addElement("class").addAttribute("id", getId("class", l.getClassId()));
}
}
HashMap<Student, List<String>> students = new HashMap<Student, List<String>>();
for (Lecture lecture : vars) {
for (Student student : lecture.students()) {
List<String> enrls = students.get(student);
if (enrls == null) {
enrls = new ArrayList<String>();
students.put(student, enrls);
}
enrls.add(getId("class", lecture.getClassId()));
}
}
Element studentsEl = root.addElement("students");
Element groupsEl = root.addElement("groups");
Map<StudentGroup, Element> groups = new HashMap<StudentGroup, Element>();
for (Student student : new TreeSet<Student>(students.keySet())) {
Element stEl = studentsEl.addElement("student").addAttribute("id", getId("student", student.getId()));
if (iShowNames) {
if (student.getAcademicArea() != null)
stEl.addAttribute("area", student.getAcademicArea());
if (student.getAcademicClassification() != null)
stEl.addAttribute("classification", student.getAcademicClassification());
if (student.getMajor() != null)
stEl.addAttribute("major", student.getMajor());
if (student.getCurriculum() != null)
stEl.addAttribute("curriculum", student.getCurriculum());
}
for (Map.Entry<Long, Double> entry : student.getOfferingsMap().entrySet()) {
Long offeringId = entry.getKey();
Double weight = entry.getValue();
Element offEl = stEl.addElement("offering").addAttribute("id", getId("offering", offeringId.toString()));
if (weight.doubleValue() != 1.0)
offEl.addAttribute("weight", sStudentWeightFormat.format(weight));
Double priority = student.getPriority(offeringId);
if (priority != null)
offEl.addAttribute("priority", priority.toString());
}
if (iExportStudentSectioning || getModel().nrUnassignedVariables(getAssignment()) == 0 || student.getOfferingsMap().isEmpty()) {
List<String> lectures = students.get(student);
Collections.sort(lectures);
for (String classId : lectures) {
stEl.addElement("class").addAttribute("id", classId);
}
}
Map<Long, Set<Lecture>> canNotEnroll = student.canNotEnrollSections();
if (canNotEnroll != null) {
for (Set<Lecture> canNotEnrollLects : canNotEnroll.values()) {
for (Iterator<Lecture> i3 = canNotEnrollLects.iterator(); i3.hasNext(); ) {
stEl.addElement("prohibited-class").addAttribute("id", getId("class", (i3.next()).getClassId()));
}
}
}
if (student.getCommitedPlacements() != null) {
for (Placement placement : student.getCommitedPlacements()) {
stEl.addElement("class").addAttribute("id", getId("class", placement.variable().getClassId()));
}
}
if (student.getInstructor() != null)
stEl.addAttribute("instructor", getId("inst", student.getInstructor().getResourceId()));
for (StudentGroup group : student.getGroups()) {
Element groupEl = groups.get(group);
if (groupEl == null) {
groupEl = groupsEl.addElement("group");
groupEl.addAttribute("id", getId("group", group.getId()));
if (group.getWeight() != 1.0)
groupEl.addAttribute("weight", String.valueOf(group.getWeight()));
if (iShowNames && group.getName() != null)
groupEl.addAttribute("name", group.getName());
groups.put(group, groupEl);
}
groupEl.addElement("student").addAttribute("id", getId("student", student.getId()));
}
}
if (getModel().getProperties().getPropertyInt("MPP.GenTimePert", 0) > 0) {
Element perturbationsEl = root.addElement("perturbations");
int nrChanges = getModel().getProperties().getPropertyInt("MPP.GenTimePert", 0);
List<Lecture> lectures = new ArrayList<Lecture>();
while (lectures.size() < nrChanges) {
Lecture lecture = ToolBox.random(getAssignment().assignedVariables());
if (lecture.isCommitted() || lecture.timeLocations().size() <= 1 || lectures.contains(lecture))
continue;
Placement placement = getAssignment().getValue(lecture);
TimeLocation tl = placement.getTimeLocation();
perturbationsEl.addElement("class").addAttribute("id", getId("class", lecture.getClassId())).addAttribute("days", sDF[7].format(Long.parseLong(Integer.toBinaryString(tl.getDayCode())))).addAttribute("start", String.valueOf(tl.getStartSlot())).addAttribute("length", String.valueOf(tl.getLength()));
lectures.add(lecture);
}
}
for (Map.Entry<Long, String> entry : depts.entrySet()) {
Long id = entry.getKey();
String name = entry.getValue();
if (iShowNames) {
departmentsEl.addElement("department").addAttribute("id", getId("dept", id.toString())).addAttribute("name", name);
}
}
if (departmentsEl.elements().isEmpty())
root.remove(departmentsEl);
}
use of org.cpsolver.coursett.model.Placement in project cpsolver by UniTime.
the class GroupConstraint method computeConflicts.
public void computeConflicts(Assignment<Lecture, Placement> assignment, Placement value, Set<Placement> conflicts, boolean fwdCheck) {
if (!isHard())
return;
for (Lecture v : variables()) {
if (v.equals(value.variable()))
// ignore this variable
continue;
Placement p = assignment.getValue(v);
if (p == null)
// there is an unassigned variable -- great, still a chance to get violated
continue;
if (!isSatisfiedPair(assignment, p, value))
conflicts.add(p);
}
if (getType().is(Flag.BACK_TO_BACK)) {
HashMap<Lecture, Placement> assignments = new HashMap<Lecture, Placement>();
assignments.put(value.variable(), value);
if (!isSatisfiedSeq(assignment, assignments, conflicts))
conflicts.add(value);
}
if (getType().is(Flag.MAX_HRS_DAY)) {
HashMap<Lecture, Placement> assignments = new HashMap<Lecture, Placement>();
assignments.put(value.variable(), value);
for (int dayCode : Constants.DAY_CODES) {
if (iMaxNHoursADayConsiderDatePatterns) {
for (BitSet week : ((TimetableModel) getModel()).getWeeks()) {
if (!value.getTimeLocation().shareWeeks(week))
continue;
if (nrSlotsADay(assignment, dayCode, week, assignments, conflicts) > getType().getMax()) {
List<Placement> adepts = new ArrayList<Placement>();
for (Lecture l : variables()) {
if (l.equals(value.variable()) || l.isConstant())
continue;
Placement p = assignment.getValue(l);
if (p == null || conflicts.contains(p) || p.getTimeLocation() == null)
continue;
if ((p.getTimeLocation().getDayCode() & dayCode) == 0 || !p.getTimeLocation().shareWeeks(week))
continue;
adepts.add(p);
}
do {
if (adepts.isEmpty()) {
conflicts.add(value);
break;
}
Placement conflict = ToolBox.random(adepts);
adepts.remove(conflict);
conflicts.add(conflict);
} while (nrSlotsADay(assignment, dayCode, week, assignments, conflicts) > getType().getMax());
}
}
} else {
if (nrSlotsADay(assignment, dayCode, null, assignments, conflicts) > getType().getMax()) {
List<Placement> adepts = new ArrayList<Placement>();
for (Lecture l : variables()) {
if (l.equals(value.variable()) || l.isConstant())
continue;
Placement p = assignment.getValue(l);
if (p == null || conflicts.contains(p) || p.getTimeLocation() == null)
continue;
if ((p.getTimeLocation().getDayCode() & dayCode) == 0)
continue;
adepts.add(p);
}
do {
if (adepts.isEmpty()) {
conflicts.add(value);
break;
}
Placement conflict = ToolBox.random(adepts);
adepts.remove(conflict);
conflicts.add(conflict);
} while (nrSlotsADay(assignment, dayCode, null, assignments, conflicts) > getType().getMax());
}
}
}
}
// Forward checking
if (fwdCheck)
forwardCheck(assignment, value, conflicts, new HashSet<GroupConstraint>(), iForwardCheckMaxDepth - 1);
}
use of org.cpsolver.coursett.model.Placement in project cpsolver by UniTime.
the class GroupConstraint method isSatisfiedSeqCheck.
private boolean isSatisfiedSeqCheck(Assignment<Lecture, Placement> assignment, HashMap<Lecture, Placement> assignments, Set<Placement> conflicts) {
if (!getType().is(Flag.BACK_TO_BACK))
return true;
int gapMin = getType().getMin();
int gapMax = getType().getMax();
List<Integer> lengths = new ArrayList<Integer>();
Placement[] res = new Placement[Constants.SLOTS_PER_DAY];
for (int i = 0; i < Constants.SLOTS_PER_DAY; i++) res[i] = null;
int nrLectures = 0;
for (Lecture lecture : variables()) {
Placement placement = null;
if (assignments != null && assignments.containsKey(lecture))
placement = assignments.get(lecture);
else if (assignment != null)
placement = assignment.getValue(lecture);
if (placement == null) {
if (!lecture.timeLocations().isEmpty())
lengths.add(lecture.timeLocations().get(0).getLength());
} else if (conflicts != null && conflicts.contains(placement)) {
if (!lecture.timeLocations().isEmpty())
lengths.add(lecture.timeLocations().get(0).getLength());
} else {
int pos = placement.getTimeLocation().getStartSlot();
int length = placement.getTimeLocation().getLength();
for (int j = pos; j < pos + length; j++) {
if (res[j] != null) {
if (conflicts == null)
return false;
if (!assignments.containsKey(lecture))
conflicts.add(placement);
else if (!assignments.containsKey(res[j].variable()))
conflicts.add(res[j]);
}
}
for (int j = pos; j < pos + length; j++) res[j] = placement;
nrLectures++;
}
}
if (nrLectures <= 1)
return true;
if (iIsRequired || (!iIsProhibited && iPreference < 0)) {
int i = 0;
Placement p = res[i];
while (p == null) p = res[++i];
i = res[i].getTimeLocation().getStartSlot() + res[i].getTimeLocation().getLength();
nrLectures--;
while (nrLectures > 0) {
int gap = 0;
while (i < Constants.SLOTS_PER_DAY && res[i] == null) {
gap++;
i++;
}
if (i == Constants.SLOTS_PER_DAY)
break;
if (!canFill(gap, gapMin, gapMax, lengths))
return false;
p = res[i];
i = res[i].getTimeLocation().getStartSlot() + res[i].getTimeLocation().getLength();
nrLectures--;
}
} else if (iIsProhibited || (!iIsRequired && iPreference > 0)) {
int i = 0;
Placement p = res[i];
while (p == null) p = res[++i];
i = res[i].getTimeLocation().getStartSlot() + res[i].getTimeLocation().getLength();
nrLectures--;
while (nrLectures > 0) {
int gap = 0;
while (i < Constants.SLOTS_PER_DAY && res[i] == null) {
gap++;
i++;
}
if (i == Constants.SLOTS_PER_DAY)
break;
if ((gapMin == 0 || !canFill(gap, 0, gapMin - 1, lengths)) && (gapMax >= Constants.SLOTS_PER_DAY || !canFill(gap, gapMax + 1, Constants.SLOTS_PER_DAY, lengths))) {
return false;
}
p = res[i];
i = res[i].getTimeLocation().getStartSlot() + res[i].getTimeLocation().getLength();
nrLectures--;
}
}
return true;
}
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