package kr.syeyoung.dungeonsguide.dungeon; import com.google.common.collect.Sets; import kr.syeyoung.dungeonsguide.DungeonsGuide; import kr.syeyoung.dungeonsguide.dungeon.roomfinder.DungeonRoom; import kr.syeyoung.dungeonsguide.dungeon.doorfinder.DoorFinderRegistry; import kr.syeyoung.dungeonsguide.dungeon.doorfinder.StartDoorFinder; import kr.syeyoung.dungeonsguide.utils.MapUtils; import net.minecraft.client.Minecraft; import net.minecraft.item.ItemMap; import net.minecraft.item.ItemStack; import net.minecraft.util.BlockPos; import net.minecraft.util.ChatComponentText; import net.minecraft.world.storage.MapData; import javax.vecmath.Vector2d; import java.awt.*; import java.util.*; import java.util.List; public class MapProcessor { private final DungeonContext context; private byte[] lastMapData; private Dimension unitRoomDimension; private Dimension doorDimension; // width: width of door, height: gap between rooms private Point topLeftMapPoint; private boolean bugged = false; private List roomsFound = new ArrayList(); private boolean axisMatch = false; public MapProcessor(DungeonContext context) { this.context = context; } private static final Set directions = Sets.newHashSet(new Vector2d(0,1), new Vector2d(0, -1), new Vector2d(1, 0), new Vector2d(-1 , 0)); private int waitCnt = 0; private void buildMap(final byte[] mapData) { final Point startroom = MapUtils.findFirstColorWithIn(mapData, (byte) 30, new Rectangle(0,0,128,128)); if (startroom == null){ DungeonsGuide.sendDebugChat(new ChatComponentText("BUGGED MAP")); bugged = true; return; } // Determine room dimension { int width = MapUtils.getWidthOfColorAt(mapData, (byte) 30, startroom); int height = MapUtils.getHeightOfColorAt(mapData, (byte) 30, startroom); unitRoomDimension = new Dimension(width, height); } Vector2d doorDir = null; // determine the gap { Point midStartRoom = new Point(startroom.x + unitRoomDimension.width / 2, startroom.y +unitRoomDimension.height / 2); final int halfWidth = unitRoomDimension.width / 2 + 2; for (Vector2d v:directions) { byte color = MapUtils.getMapColorAt(mapData, (int)(v.x * halfWidth +midStartRoom.x), (int)(v.y *halfWidth +midStartRoom.y)); if (color != 0) { doorDir = v; break; } } if (doorDir == null) { DungeonsGuide.sendDebugChat(new ChatComponentText("BUGGED MAP, no connected door found")); bugged = true; return; } Point basePoint = new Point(startroom.x, startroom.y); if (doorDir.x > 0) basePoint.x += unitRoomDimension.width; if (doorDir.x < 0) basePoint.x += -1; if (doorDir.y > 0) basePoint.y += unitRoomDimension.height; if (doorDir.y < 0) basePoint.y += -1; int gap = MapUtils.getLengthOfColorExtending(mapData, (byte) 0, basePoint, doorDir); Point pt = MapUtils.findFirstColorWithInNegate(mapData, (byte)0, new Rectangle(basePoint.x, basePoint.y, (int)Math.abs(doorDir.y) * unitRoomDimension.width + 1, (int)Math.abs(doorDir.x) * unitRoomDimension.height + 1)); if (pt == null) { DungeonsGuide.sendDebugChat(new ChatComponentText("BUGGED MAP, can't find door")); bugged = true; return; } int doorWidth = MapUtils.getLengthOfColorExtending(mapData, MapUtils.getMapColorAt(mapData, pt.x, pt.y), pt, new Vector2d((int)Math.abs(doorDir.y), (int)Math.abs(doorDir.x))); doorDimension = new Dimension(doorWidth, gap); } // Determine Top Left { int x = startroom.x; int y = startroom.y; while (x >= unitRoomDimension.width + doorDimension.height) x -= unitRoomDimension.width + doorDimension.height; while (y >= unitRoomDimension.height + doorDimension.height) y -= unitRoomDimension.height + doorDimension.height; topLeftMapPoint = new Point(x, y); } // determine door location based on npc, and determine map min from there { StartDoorFinder doorFinder = DoorFinderRegistry.getDoorFinder(DungeonsGuide.getDungeonsGuide().getSkyblockStatus().getDungeonName()); if (doorFinder == null) { DungeonsGuide.sendDebugChat(new ChatComponentText("Couldn't find door finder for :: "+DungeonsGuide.getDungeonsGuide().getSkyblockStatus().getDungeonName())); bugged = true; return; } BlockPos door = doorFinder.find(context.getWorld()); if (door == null) { DungeonsGuide.sendDebugChat(new ChatComponentText("Couldn't find door :: "+DungeonsGuide.getDungeonsGuide().getSkyblockStatus().getDungeonName())); bugged = true; return; } DungeonsGuide.sendDebugChat(new ChatComponentText("door Pos:"+door)); Point unitPoint = mapPointToRoomPoint(startroom); unitPoint.translate(unitPoint.x + 1, unitPoint.y + 1); unitPoint.translate((int)doorDir.x, (int)doorDir.y); Vector2d offset = doorFinder.offset(context.getWorld()); axisMatch = doorDir.equals(offset); int worldX = unitPoint.x * 16; int worldY = unitPoint.y * 16; BlockPos worldMin = door.add(-worldX, 0, -worldY); context.setDungeonMin(worldMin); } DungeonsGuide.sendDebugChat(new ChatComponentText("Found Green room:"+startroom)); DungeonsGuide.sendDebugChat(new ChatComponentText("Axis match:"+axisMatch)); DungeonsGuide.sendDebugChat(new ChatComponentText("World Min:"+context.getDungeonMin())); DungeonsGuide.sendDebugChat(new ChatComponentText("Dimension:"+unitRoomDimension)); DungeonsGuide.sendDebugChat(new ChatComponentText("top Left:"+topLeftMapPoint)); DungeonsGuide.sendDebugChat(new ChatComponentText("door dimension:"+doorDimension)); } public Point mapPointToRoomPoint(Point mapPoint) { int x = (int)((mapPoint.x - topLeftMapPoint.x) / ((double)unitRoomDimension.width + doorDimension.height)); int y = (int)((mapPoint.y - topLeftMapPoint.y) / ((double)unitRoomDimension.height + doorDimension.height)); return new Point(x,y); } public Point roomPointToMapPoint(Point roomPoint) { return new Point(roomPoint.x * (unitRoomDimension.width +doorDimension.height) + topLeftMapPoint.x, roomPoint.y *(unitRoomDimension.height + doorDimension.height) + topLeftMapPoint.y); } public BlockPos roomPointToWorldPoint(Point roomPoint) { return new BlockPos(context.getDungeonMin().getX() +(roomPoint.x * 32), context.getDungeonMin().getY(), context.getDungeonMin().getZ() +(roomPoint.y *32)); } public Point worldPointToRoomPoint(BlockPos worldPoint) { if (context.getDungeonMin() == null) return null; return new Point((worldPoint.getX() - context.getDungeonMin().getX()) / 32, (worldPoint.getZ() - context.getDungeonMin().getZ()) / 32); } private void processMap(byte[] mapData) { int height = (int)((128.0 - topLeftMapPoint.y) / (unitRoomDimension.height + doorDimension.height)); int width = (int) ((128.0 - topLeftMapPoint.x) / (unitRoomDimension.width + doorDimension.height)); if (MapUtils.getMapColorAt(mapData,0,0) != 0) return; for (int y = 0; y <= height; y++){ for (int x = 0; x <= width; x++) { if (roomsFound.contains(new Point(x,y))) continue; Point mapPoint = roomPointToMapPoint(new Point(x,y)); byte color = MapUtils.getMapColorAt(mapData, mapPoint.x, mapPoint.y); MapUtils.record(mapData, mapPoint.x, mapPoint.y, new Color(255,255,0,80)); if (color != 0 && color != 85) { MapUtils.record(mapData, mapPoint.x, mapPoint.y, new Color(0,255,255,80)); DungeonRoom rooms = buildRoom(mapData, new Point(x,y)); DungeonsGuide.sendDebugChat(new ChatComponentText("New Map discovered! shape: "+rooms.getShape()+ " color: "+rooms.getColor()+" unitPos: "+x+","+y)); DungeonsGuide.sendDebugChat(new ChatComponentText("New Map discovered! mapMin: "+rooms.getMin())); StringBuilder builder = new StringBuilder(); for (int dy =0;dy<4;dy++) { for (int dx = 0; dx < 4; dx ++) { boolean isSet = ((rooms.getShape() >> (dy * 4 + dx)) & 0x1) != 0; builder.append(isSet ? "O" : "X"); } builder.append("\n"); } DungeonsGuide.sendDebugChat(new ChatComponentText("Shape visual: "+builder.toString())); context.getDungeonRoomList().add(rooms); for (Point p:rooms.getUnitPoints()) { roomsFound.add(p); context.getRoomMapper().put(p, rooms); } } } } } private DungeonRoom buildRoom(byte[] mapData, Point unitPoint) { Queue toCheck = new LinkedList(); toCheck.add(new Point[] {unitPoint, unitPoint}); // requestor, target Set checked = new HashSet(); List ayConnected = new ArrayList(); int minX = Integer.MAX_VALUE, minY = Integer.MAX_VALUE; int maxX = 0, maxY = 0; while(toCheck.peek() != null) { Point[] check = toCheck.poll(); if (checked.contains(check[1])) continue; checked.add(check[1]); if (checkIfConnected(mapData, check[0], check[1])) { ayConnected.add(check[1]); if (check[1].x < minX) minX = check[1].x; if (check[1].y < minY) minY = check[1].y; if (check[1].x > maxX) maxX = check[1].x; if (check[1].y > maxY) maxY = check[1].y; for (Vector2d dir: directions) { Point newPt = new Point(check[1].x + (int)dir.x, check[1].y +(int)dir.y); toCheck.add(new Point[]{check[1], newPt}); } } } short shape = 0; for (Point p:ayConnected) { int localX = p.x - minX, localY = p.y - minY; shape |= 1 <<(localY *4 + localX); } Point pt2 = roomPointToMapPoint(ayConnected.get(0)); byte unit1 = MapUtils.getMapColorAt(mapData, pt2.x, pt2.y); return new DungeonRoom(ayConnected, shape, unit1, roomPointToWorldPoint(new Point(minX, minY)), roomPointToWorldPoint(new Point(maxX+1, maxY+1)).add(-1, 0, -1), context); } private boolean checkIfConnected(byte[] mapData, Point unitPoint1, Point unitPoint2) { if (unitPoint1 == unitPoint2) return true; if (unitPoint1.equals(unitPoint2)) return true; Point high = (unitPoint2.y > unitPoint1.y) ? unitPoint2 :(unitPoint2.x > unitPoint1.x) ? unitPoint2 : unitPoint1; Point low = high == unitPoint2 ? unitPoint1 : unitPoint2; int xOff = low.x - high.x; int yOff = low.y - high.y; Point pt = roomPointToMapPoint(high); Point pt2 = roomPointToMapPoint(low); byte unit1 = MapUtils.getMapColorAt(mapData, pt.x, pt.y); byte unit2 = MapUtils.getMapColorAt(mapData, pt2.x, pt2.y); pt.translate(xOff, yOff); byte unit3 = MapUtils.getMapColorAt(mapData, pt.x, pt.y); return unit1 == unit2 && unit2 == unit3 && unit1 != 0; } public void tick() { if (waitCnt < 5) { waitCnt++; return; } if (bugged) return; ItemStack stack = Minecraft.getMinecraft().thePlayer.inventory.getStackInSlot(8); byte[] mapData; if (stack == null || !(stack.getItem() instanceof ItemMap)) { mapData = lastMapData; } else { MapData mapData1 = ((ItemMap)stack.getItem()).getMapData(stack, context.getWorld()); if (mapData1 == null) mapData = lastMapData; else mapData = mapData1.colors; } if (lastMapData == null && mapData != null) buildMap(mapData); else if (mapData != null) processMap(mapData); lastMapData = mapData; } }