public void initialize()
{
Utility.Trace("Maze - initialize");
if (GameEngine.instance.fDungeon.fCompleted)
{
sExploredRooms = new bool[GameEngine.kMaxNumRooms];
for (int i = 0; i < GameEngine.kMaxNumRooms; i++)
{
sExploredRooms[i] = true;
}
}
else
{
sExploredRooms = new bool[GameEngine.kMaxNumRooms];
for (int i = 0; i < GameEngine.kMaxNumRooms; i++)
{
sExploredRooms[i] = false;
}
}
int no; // = GameEngine.rand.range(2, fNumRooms);
// each room should have at least two exits
for (int iRoom = 1; iRoom <= fNumRooms; iRoom++)
{
Room room = this.getRoom(iRoom);
// each room shall have two exits
for (int iPassage = 1; iPassage <= 2; iPassage++)
{
Sequence seq = new Sequence(2, fNumRooms);
seq.remove(iRoom);
bool hasPassage = false;
do
{
no = seq.remove();
hasPassage = false;
if (room.hasPassage(this.getRoom(no)))
{
hasPassage = true;
}
Room tmpRoom = this.getRoom(no);
if (tmpRoom.hasPassage(this.getRoom(iRoom)))
{
hasPassage = true;
}
} while (seq.count() > 0 && hasPassage);
if (!hasPassage)
{
room.addPassage(this.getRoom(no));
}
}
}
// normalize passages, i.e. make sure they "double-back"
for (int iRoom = 1; iRoom <= fNumRooms; iRoom++)
{
Room room = this.getRoom(iRoom);
// each room shall have two exits
for (int iPassage = 1; iPassage <= room.getNumPassages(); iPassage++)
{
Room otherRoom = room.getPassage(iPassage);
if (!otherRoom.hasPassage(room))
{
otherRoom.addPassage(room);
}
}
}
if (debug)
{
Room room = this.getRoom(1);
room.addStaff(new Staff(null, Staff.BRONZE));
room.fDragonSwords = room.fDragonSwords + 1;
room.fSerpentShields = room.fSerpentShields + 1;
room.fPit = true;
room.addPassage(fExit);
room.createDoor(fExit);
fExit.addPassage(room);
}
// Create normal doors
Room fromRoom = null;
Room toRoom = null;
int num_doors = this.getNumRooms() / 10;
for (int iDoor = 1; iDoor <= num_doors + 1; iDoor++)
{
bool proceed = false;
bool done = false;
do
{
proceed = false;
// Find a room with no door
do
{
done = true;
no = GameEngine.rand.range(2, fNumRooms);
fromRoom = this.getRoom(no);
if (fromRoom.hasDoor())
{
done = false;
}
} while (!done);
// Find a passage to a room without a door
for (int i = 0; i < 10; i++)
{
int index = GameEngine.rand.range(1, fromRoom.getNumPassages());
toRoom = fromRoom.getPassage(index);
if (!toRoom.hasDoor() && toRoom.getRoomNumber() != 1)
{
proceed = true;
break;
}
}
} while (!proceed);
// Convert the passage to a doorway
if (iDoor <= num_doors)
{
Utility.Trace("Create door from " + fromRoom.getRoomNumber() + " to " + toRoom.getRoomNumber());
fromRoom.createDoor(toRoom);
toRoom.createDoor(fromRoom);
if (GameEngine.rand.range(1, 2) == 1)
{
fromRoom.fPoisoned = true;
toRoom.fPoisoned = true;
}
}
else
{
// Convert the last door to two exit-doors
Utility.Trace("Create exit doors in rooms " + fromRoom.getRoomNumber() + " and " + toRoom.getRoomNumber());
fromRoom.removePassage(toRoom);
fromRoom.addPassage(fExit);
fromRoom.createDoor(fExit);
fExit.addPassage(fromRoom);
toRoom.removePassage(fromRoom);
toRoom.addPassage(fExit);
toRoom.createDoor(fExit);
fExit.addPassage(toRoom);
if (GameEngine.rand.range(1, 2) == 1)
{
fromRoom.fPoisoned = true;
toRoom.fPoisoned = true;
}
}
}
Utility.Trace("Removing passages...");
// Go through the maze and remove one passage from each room
for (int iRoom = 2; iRoom <= this.getNumRooms(); iRoom++)
{
int rnd = GameEngine.rand.range(0, 100);
if (rnd >= GameEngine.instance.fSparseFactor)
{
continue;
}
Room room = this.getRoom(iRoom);
int passages = room.getNumPassages();
if (room.hasDoor() && !room.isExitDoor())
{
passages++;
}
if (passages > 1)
{
Room other = room.getRandomPassage();
if (other != null && other.getRoomNumber() != 1)
{
Utility.Trace("Removing passage between room " + room.getRoomNumber() + " and " + other.getRoomNumber());
room.removePassage(other);
other.removePassage(room);
// Since the janitor can pass through doors,
// it should be allowed to have rooms with only
// a single door and no passages!
// USE_LOCKED_DOORS
// However, make sure there are at least one or two keys within reach
// from the initial room (1)
Room[] path = this.findRoute(room, other, null, USE_LOCKED_DOORS);
if (path.Length == 0)
{
Utility.Trace("Reinserting passage between room " + room.getRoomNumber() + " and " + other.getRoomNumber());
room.addPassage(other);
other.addPassage(room);
}
}
}
}
Utility.Trace("Creating portcullises...");
int num_portcullis = this.getNumRooms() / 5;
num_portcullis = GameEngine.rand.range(0, num_portcullis);
int iPortcullis = 0;
Sequence sRooms = new Sequence(1, this.getNumRooms());
while (sRooms.count() > 0)
{
no = sRooms.remove();
Room from = this.getRoom(no);
if (from.getNumPassages() > 0)
{
no = GameEngine.rand.range(1, from.getNumPassages());
if (from.fPortcullis[no - 1] == Room.kPortcullisNone)
{
Room to = from.getPassage(no);
Utility.Trace("Creating portcullis in passage between room " + from.getRoomNumber() + " and " + to.getRoomNumber());
from.fPortcullis[no - 1] = Room.kPortcullisOpen;
to.createPortcullis(from);
++iPortcullis;
}
}
if (iPortcullis >= num_portcullis)
{
break;
}
}
Utility.Trace("Janitor...");
// int numPassages = 3;
// if (fNumRooms < 10)
// numPassages = 0;
fJanitor = this.getRoom(GameEngine.rand.range(2, fNumRooms));
fJanitorTarget = fJanitor;
fJanitorUnlockedDoor = null;
// fJanitorRaisedPortcullis = null;
}
