// $Id$ /* * WorldEdit * Copyright (C) 2010, 2011 sk89q * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ package com.sk89q.worldedit.regions; import java.util.ArrayList; import java.util.Collections; import java.util.HashSet; import java.util.Iterator; import java.util.List; import java.util.Set; import com.sk89q.worldedit.BlockVector; import com.sk89q.worldedit.BlockVector2D; import com.sk89q.worldedit.LocalWorld; import com.sk89q.worldedit.Vector; import com.sk89q.worldedit.Vector2D; import com.sk89q.worldedit.data.ChunkStore; /** * Represents a 2D polygonal region. * * @author sk89q */ public class Polygonal2DRegion implements Region { protected List points; protected BlockVector min; protected BlockVector max; protected int minY; protected int maxY; protected boolean hasY = false; protected LocalWorld world; /** * Construct the region */ public Polygonal2DRegion() { this((LocalWorld) null); } /** * Construct the region. * * @param world */ public Polygonal2DRegion(LocalWorld world) { points = new ArrayList(); minY = 0; maxY = 0; hasY = false; this.world = world; recalculate(); } /** * Construct the region. * * @param world * @param points * @param minY * @param maxY */ public Polygonal2DRegion(LocalWorld world, List points, int minY, int maxY) { this.points = new ArrayList(points); this.minY = minY; this.maxY = maxY; hasY = true; this.world = world; recalculate(); } public Polygonal2DRegion(Polygonal2DRegion region) { this(region.world, region.points, region.minY, region.maxY); hasY = region.hasY; } /** * Get the list of points. * * @return */ public List getPoints() { return Collections.unmodifiableList(points); } /** * Recalculate the bounding box of this polygonal region. This should be * called after points have been changed. */ protected void recalculate() { if (points.size() == 0) { min = new BlockVector(0, 0, 0); max = new BlockVector(0, 0, 0); return; } int minX = points.get(0).getBlockX(); int minZ = points.get(0).getBlockZ(); int maxX = points.get(0).getBlockX(); int maxZ = points.get(0).getBlockZ(); for (BlockVector2D v : points) { int x = v.getBlockX(); int z = v.getBlockZ(); if (x < minX) minX = x; if (z < minZ) minZ = z; if (x > maxX) maxX = x; if (z > maxZ) maxZ = z; } int oldMinY = minY; int oldMaxY = maxY; minY = Math.min(oldMinY, oldMaxY); maxY = Math.max(oldMinY, oldMaxY); minY = Math.min(Math.max(0, minY), world == null ? 127 : world.getMaxY()); maxY = Math.min(Math.max(0, maxY), world == null ? 127 : world.getMaxY()); min = new BlockVector(minX, minY, minZ); max = new BlockVector(maxX, maxY, maxZ); } /** * Add a point to the list. * * @param pt */ public void addPoint(Vector2D pt) { points.add(pt.toBlockVector2D()); recalculate(); } /** * Add a point to the list. * * @param pt */ public void addPoint(BlockVector2D pt) { points.add(pt); recalculate(); } /** * Add a point to the list. * * @param pt */ public void addPoint(Vector pt) { points.add(new BlockVector2D(pt.getBlockX(), pt.getBlockZ())); recalculate(); } /** * Set the minimum Y. * * @param y */ public void setMinimumY(int y) { hasY = true; minY = y; recalculate(); } /** * Se the maximum Y. * * @param y */ public void setMaximumY(int y) { hasY = true; maxY = y; recalculate(); } /** * Get the lower point of a region. * * @return min. point */ public Vector getMinimumPoint() { return min; } /** * Get the upper point of a region. * * @return max. point */ public Vector getMaximumPoint() { return max; } /** * Get the number of blocks in the region. * * @return number of blocks */ public int getArea() { double area = 0; int i, j = points.size() - 1; for (i = 0; i < points.size(); ++i) { area += (points.get(j).getBlockX() + points.get(i).getBlockX()) * (points.get(j).getBlockZ() - points.get(i).getBlockZ()); j = i; } return (int) Math.floor(Math.abs(area * 0.5) * (maxY - minY + 1)); } /** * Get X-size. * * @return width */ public int getWidth() { return max.getBlockX() - min.getBlockX(); } /** * Get Y-size. * * @return height */ public int getHeight() { return max.getBlockY() - min.getBlockY(); } /** * Get Z-size. * * @return length */ public int getLength() { return max.getBlockZ() - min.getBlockZ(); } /** * Expand the region. * * @param change */ public void expand(Vector change) throws RegionOperationException { if (change.getBlockX() != 0 || change.getBlockZ() != 0) { throw new RegionOperationException("Polygons can only be expanded vertically."); } int changeY = change.getBlockY(); if (changeY > 0) { maxY += changeY; } else { minY += changeY; } recalculate(); } /** * Contract the region. * * @param change */ public void contract(Vector change) throws RegionOperationException { if (change.getBlockX() != 0 || change.getBlockZ() != 0) { throw new RegionOperationException("Polygons can only be contracted vertically."); } int changeY = change.getBlockY(); if (changeY > 0) { minY += changeY; } else { maxY += changeY; } recalculate(); } /** * Checks to see if a point is inside this region. */ public boolean contains(Vector pt) { return contains(points, minY, maxY, pt); } /** * Checks to see if a point is inside a region. * * @param points * @param minY * @param maxY * @param pt * @return */ public static boolean contains(List points, int minY, int maxY, Vector pt) { if (points.size() < 3) { return false; } int targetX = pt.getBlockX(); //wide int targetY = pt.getBlockY(); //height int targetZ = pt.getBlockZ(); //depth if (targetY < minY || targetY > maxY) { return false; } boolean inside = false; int npoints = points.size(); int xNew, zNew; int xOld, zOld; int x1, z1; int x2, z2; long crossproduct; int i; xOld = points.get(npoints - 1).getBlockX(); zOld = points.get(npoints - 1).getBlockZ(); for (i = 0; i < npoints; ++i) { xNew = points.get(i).getBlockX(); zNew = points.get(i).getBlockZ(); //Check for corner if (xNew == targetX && zNew == targetZ) { return true; } if (xNew > xOld) { x1 = xOld; x2 = xNew; z1 = zOld; z2 = zNew; } else { x1 = xNew; x2 = xOld; z1 = zNew; z2 = zOld; } if (x1 <= targetX && targetX <= x2) { crossproduct = ((long) targetZ - (long) z1) * (long) (x2 - x1) - ((long) z2 - (long) z1) * (long) (targetX - x1); if (crossproduct == 0) { if ((z1 <= targetZ) == (targetZ <= z2)) return true; //on edge } else if (crossproduct < 0 && (x1 != targetX)) { inside = !inside; } } xOld = xNew; zOld = zNew; } return inside; } /** * Get a list of chunks. * * @return */ public Set getChunks() { Set chunks = new HashSet(); Vector min = getMinimumPoint(); Vector max = getMaximumPoint(); for (int x = min.getBlockX(); x <= max.getBlockX(); ++x) { for (int y = min.getBlockY(); y <= max.getBlockY(); ++y) { for (int z = min.getBlockZ(); z <= max.getBlockZ(); ++z) { Vector pt = new Vector(x, y, z); if (contains(pt)) { // Not the best chunks.add(ChunkStore.toChunk(pt)); } } } } return chunks; } /** * Return the number of points. * * @return */ public int size() { return points.size(); } /** * Expand the height of the polygon to fit the specified Y. * * @param y * @return true if the area was expanded */ public boolean expandY(int y) { if (!hasY) { minY = y; maxY = y; hasY = true; return true; } else if (y < minY) { minY = y; return true; } else if (y > maxY) { maxY = y; return true; } return false; } /** * Get the iterator. * * @return iterator of points inside the region */ public Iterator iterator() { return new Polygonal2DRegionIterator(this); /* Incomplete iterator. Where's my yield?! ArrayList items = new ArrayList(); int nodes, pixelZ, i, j, swap; int n = points.size(); int[] nodeX = new int[n]; int minZ = getMinimumPoint().getBlockZ(); int maxZ = getMaximumPoint().getBlockZ(); for (pixelZ = minZ; pixelZ < maxZ; ++pixelZ) { // Build a list of nodes nodes = 0; j = n - 1; for (i = 0; i < n; ++i) { if (points.get(i).getBlockZ() < (double) pixelZ && points.get(j).getBlockZ() >= (double) pixelZ || points.get(j).getBlockZ() < (double) pixelZ && points.get(i).getBlockZ() >= (double) pixelZ) { nodeX[nodes++] = (int) (points.get(i).getBlockX() + (pixelZ - points.get(i).getBlockZ()) / (points.get(j).getBlockZ() - points.get(i) .getBlockZ()) * (points.get(j).getBlockX() - points.get(i) .getBlockX())); } j = i; } // Sort the nodes, via a simple bubble sort i = 0; while (i < nodes - 1) { if (nodeX[i] > nodeX[i + 1]) { swap = nodeX[i]; nodeX[i] = nodeX[i + 1]; nodeX[i + 1] = swap; if (i > 0) --i; } else { ++i; } } // Fill the pixels between node pairs for (i = 0; i < nodes; i += 2) { for (j = nodeX[i]; j < nodeX[i + 1]; ++j) { for (int y = minY; y >= maxY; ++y) { items.add(new BlockVector(j, y, pixelZ)); } } } } return items.iterator();*/ } /** * Returns string representation in the format * "(x1, z1) - ... - (xN, zN) * (minY - maxY)" * * @return string */ @Override public String toString() { StringBuilder sb = new StringBuilder(); List pts = getPoints(); Iterator it = pts.iterator(); while (it.hasNext()) { BlockVector2D current = it.next(); sb.append("(" + current.getBlockX() + ", " + current.getBlockZ() + ")"); if (it.hasNext()) sb.append(" - "); } sb.append(" * (" + minY + " - " + maxY + ")"); return sb.toString(); } /** * A terrible polygonal region iterator. */ public class Polygonal2DRegionIterator implements Iterator { protected List points = new ArrayList(); protected int minX; protected int minY; protected int minZ; protected int maxX; protected int maxY; protected int maxZ; protected int n; protected int i; protected int curX; protected int curZ; protected int curY; protected BlockVector next; public Polygonal2DRegionIterator(Polygonal2DRegion region) { points = new ArrayList(region.points); Vector min = region.getMinimumPoint(); Vector max = region.getMaximumPoint(); minX = min.getBlockX(); minY = min.getBlockY(); minZ = min.getBlockZ(); maxX = max.getBlockX(); maxY = max.getBlockY(); maxZ = max.getBlockZ(); n = (maxX - minX + 1) * (maxZ - minZ + 1); i = 0; curX = 0; curZ = 0; curY = minY; next = null; findNext(); } private void findNext() { if (i >= n) { next = null; return; } if (next != null && curY <= maxY) { ++curY; next = new BlockVector(curX, curY, curZ); if (curY > maxY) { ++i; curY = minY; } else { return; } } while (i < n) { curZ = i / (maxX - minX + 1) + minZ; curX = (i % (maxX - minX + 1)) + minX; BlockVector pt = new BlockVector(curX, minY, curZ); if (contains(points, minY, maxY, pt)) { next = pt; return; } ++i; } next = null; } public boolean hasNext() { return next != null; } public BlockVector next() { BlockVector next = this.next; findNext(); return next; } public void remove() { throw new UnsupportedOperationException("Not supported"); } } public LocalWorld getWorld() { return world; } public void setWorld(LocalWorld world) { this.world = world; } }