public void createDescend(int x, int y) { if (elementList.getTypeAt(x, y) != DungeonElementType.ROOM) throw new IllegalStateException("Cannot create descend, invalid dungeon element!"); DungeonElement descend; elementArray[x][y] = DungeonElementType.DESCEND; elementList.add(descend = new DungeonElement(x, y, DungeonElementType.DESCEND)); for (DungeonDir dir : DungeonDir.values) { DungeonElement element = elementList.getAt(x + dir.addX * 2, y + dir.addY * 2); if (element != null) { descend.connect(dir); element.connect(dir.reversed()); } } }
public void createEnd(int x, int y) { if (elementList.getTypeAt(x, y) != DungeonElementType.ROOM) throw new IllegalStateException("Cannot create end, invalid dungeon element!"); Set<DungeonElement> connected = elementList.getGrouped(elementList.getAt(x, y)); if (connected.size() != 4) throw new IllegalStateException("Cannot create end, invalid dungeon element size!"); List<DungeonElement> endElements = new ArrayList<>(); for (DungeonElement element : connected) { elementList.remove(element); DungeonElement newElement = new DungeonElement(element.x, element.y, DungeonElementType.END); elementArray[element.x][element.y] = DungeonElementType.END; endElements.add(newElement); elementList.add(newElement); for (DungeonDir dir : DungeonDir.values) { if (element.checkConnection(dir)) newElement.connect(dir); } } for (DungeonElement endElement : endElements) { for (DungeonDir dir : DungeonDir.values) { if (elementList.getTypeAt(endElement.x + dir.addX * 2, endElement.y + dir.addY * 2) == DungeonElementType.END) { endElement.connect(dir); } } } }
public int addRoom(DungeonDir dir, Random rand) { if (!canGenerateRoom(dir)) return 0; int prevX = x, prevY = y; if (move(dir, 2)) { addRoomAt(x, y); elementList.getAt(x, y).connect(dir.reversed()); DungeonElement prevElement = elementList.getAt(prevX, prevY); if (prevElement != null) prevElement.connect(dir); RoomCombo shape = DungeonElementType.RoomCombo.random(rand); if (shape != RoomCombo.SINGLE) { List<byte[]> rooms = new ArrayList<>(4); byte origX = x, origY = y; switch (shape) { case LONG: switch (rand.nextInt(3)) { case 0: dir = dir.rotatedLeft(); break; case 1: dir = dir.rotatedRight(); break; default: } move(dir, 1); if (canGenerateRoom(dir)) { move(dir, 2); rooms.add(new byte[] {x, y}); } break; case TURN: case BLOCK: boolean turnWay = rand.nextBoolean(); for (int a = 0; a < (shape == RoomCombo.TURN ? 2 : 3); a++) { move(dir, 1); if (!canGenerateRoom(dir)) { rooms.clear(); break; } move(dir, 2); rooms.add(new byte[] {x, y}); dir = turnWay ? dir.rotatedLeft() : dir.rotatedRight(); } break; default: } for (byte[] loc : rooms) addRoomAt(loc[0], loc[1]); rooms.add(new byte[] {origX, origY}); if (rooms.size() > 1) { int xx, yy; boolean found; for (byte[] loc : rooms) { for (DungeonDir testDir : DungeonDir.values) { xx = loc[0] + testDir.addX * 3; yy = loc[1] + testDir.addY * 3; if (elementList.getTypeAt(xx, yy) == DungeonElementType.ROOM) { found = false; for (byte[] testLoc : rooms) { if (testLoc[0] == xx && testLoc[1] == yy) { found = true; break; } } if (found) elementList.getAt(loc[0], loc[1]).connect(testDir); } } } } byte[] moveTo = rooms.get(rand.nextInt(rooms.size())); moveToElement(elementList.getAt(moveTo[0], moveTo[1])); return rooms.size(); } return 1; } else return 0; }