#region ================== Copyright (c) 2007 Pascal vd Heiden /* * Copyright (c) 2007 Pascal vd Heiden, www.codeimp.com * This program is released under GNU General Public License * * 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. * */ #endregion #region ================== Namespaces using System; using System.Collections.Generic; using CodeImp.DoomBuilder.Geometry; using System.Drawing; #endregion namespace CodeImp.DoomBuilder.Map { public class BlockMap where BE : BlockEntry, new() { #region ================== Constants #endregion #region ================== Variables // Blocks protected BE[,] blockmap; protected int blocksizeshift; protected int blocksize; protected Size size; protected RectangleF range; protected Vector2D rangelefttop; // State private bool isdisposed; #endregion #region ================== Properties public bool IsDisposed { get { return isdisposed; } } public Size Size { get { return size; } } public RectangleF Range { get { return range; } } public int BlockSize { get { return blocksize; } } internal BE[,] Map { get { return blockmap; } } #endregion #region ================== Constructor / Disposer // Constructor public BlockMap(RectangleF range) { Initialize(range, 128); } // Constructor public BlockMap(RectangleF range, int blocksize) { Initialize(range, blocksize); } // This initializes the blockmap private void Initialize(RectangleF range, int blocksize) { // Initialize this.range = range; this.blocksizeshift = General.BitsForInt(blocksize); this.blocksize = 1 << blocksizeshift; if((this.blocksize != blocksize) || (this.blocksize <= 1)) throw new ArgumentException("Block size must be a power of 2 greater than 1"); rangelefttop = new Vector2D(range.Left, range.Top); Point lefttop = new Point((int)range.Left >> blocksizeshift, (int)range.Top >> blocksizeshift); Point rightbottom = new Point((int)range.Right >> blocksizeshift, (int)range.Bottom >> blocksizeshift); size = new Size((rightbottom.X - lefttop.X) + 1, (rightbottom.Y - lefttop.Y) + 1); blockmap = new BE[size.Width, size.Height]; Clear(); } // Disposer public void Dispose() { // Not already disposed? if(!isdisposed) { // Clean up blockmap = null; // Done isdisposed = true; } } #endregion #region ================== Methods // This returns the block coordinates internal Point GetBlockCoordinates(Vector2D v) { return new Point((int)(v.x - range.Left) >> blocksizeshift, (int)(v.y - range.Top) >> blocksizeshift); } // This returns the block center in world coordinates protected Vector2D GetBlockCenter(Point p) { return new Vector2D(((p.X << blocksizeshift) + (blocksize >> 1)) + range.Left, ((p.Y << blocksizeshift) + (blocksize >> 1)) + range.Top); } // This returns true when the given block is inside range internal bool IsInRange(Point p) { return (p.X >= 0) && (p.X < size.Width) && (p.Y >= 0) && (p.Y < size.Height); } // This returns true when the given block is inside range public bool IsInRange(Vector2D p) { return (p.x >= range.Left) && (p.x < range.Right) && (p.y >= range.Top) && (p.y < range.Bottom); } // This crops a point into the range protected Point CropToRange(Point p) { return new Point(Math.Min(Math.Max(p.X, 0), size.Width - 1), Math.Min(Math.Max(p.Y, 0), size.Height - 1)); } // This crops a point into the range protected int CropToRangeX(int x) { return Math.Min(Math.Max(x, 0), size.Width - 1); } // This crops a point into the range protected int CropToRangeY(int y) { return Math.Min(Math.Max(y, 0), size.Height - 1); } // This clears the blockmap public virtual void Clear() { for(int x = 0; x < size.Width; x++) { for(int y = 0; y < size.Height; y++) { blockmap[x, y] = new BE(); } } } // This returns a blocks at the given coordinates, if any // Returns null when out of range public virtual BE GetBlockAt(Vector2D pos) { // Calculate block coordinates Point p = GetBlockCoordinates(pos); return IsInRange(p) ? blockmap[p.X, p.Y] : null; } // This returns a range of blocks in a square public virtual List GetSquareRange(RectangleF rect) { // Calculate block coordinates Point lt = GetBlockCoordinates(new Vector2D(rect.Left, rect.Top)); Point rb = GetBlockCoordinates(new Vector2D(rect.Right, rect.Bottom)); // Crop coordinates to range lt = CropToRange(lt); rb = CropToRange(rb); // Go through the range to make a list int entriescount = ((rb.X - lt.X) + 1) * ((rb.Y - lt.Y) + 1); List entries = new List(entriescount); for(int x = lt.X; x <= rb.X; x++) { for(int y = lt.Y; y <= rb.Y; y++) { entries.Add(blockmap[x, y]); } } // Return list return entries; } // This returns all blocks along the given line public virtual List GetLineBlocks(Vector2D v1, Vector2D v2) { int dirx, diry; // Estimate number of blocks we will go through and create list int entriescount = (int)(Vector2D.ManhattanDistance(v1, v2) * 2.0f) / blocksize; List entries = new List(entriescount); // Find start and end block Point pos = GetBlockCoordinates(v1); Point end = GetBlockCoordinates(v2); v1 -= rangelefttop; v2 -= rangelefttop; // Horizontal straight line? if(pos.Y == end.Y) { // Simple loop pos.X = CropToRangeX(pos.X); end.X = CropToRangeX(end.X); if(IsInRange(new Point(pos.X, pos.Y))) { dirx = Math.Sign(v2.x - v1.x); if(dirx != 0) { for(int x = pos.X; x != end.X; x += dirx) { entries.Add(blockmap[x, pos.Y]); } } entries.Add(blockmap[end.X, end.Y]); } } // Vertical straight line? else if(pos.X == end.X) { // Simple loop pos.Y = CropToRangeY(pos.Y); end.Y = CropToRangeY(end.Y); if(IsInRange(new Point(pos.X, pos.Y))) { diry = Math.Sign(v2.y - v1.y); if(diry != 0) { for(int y = pos.Y; y != end.Y; y += diry) { entries.Add(blockmap[pos.X, y]); } } entries.Add(blockmap[end.X, end.Y]); } } else { // Add this block if(IsInRange(pos)) entries.Add(blockmap[pos.X, pos.Y]); // Moving outside the block? if(pos != end) { // Calculate current block edges double cl = pos.X * blocksize; double cr = (pos.X + 1) * blocksize; double ct = pos.Y * blocksize; double cb = (pos.Y + 1) * blocksize; // Line directions dirx = Math.Sign(v2.x - v1.x); diry = Math.Sign(v2.y - v1.y); // Calculate offset and delta movement over x double posx, deltax; if(dirx >= 0) { posx = (cr - v1.x) / (v2.x - v1.x); deltax = blocksize / (v2.x - v1.x); } else { // Calculate offset and delta movement over x posx = (v1.x - cl) / (v1.x - v2.x); deltax = blocksize / (v1.x - v2.x); } // Calculate offset and delta movement over y double posy, deltay; if(diry >= 0) { posy = (cb - v1.y) / (v2.y - v1.y); deltay = blocksize / (v2.y - v1.y); } else { posy = (v1.y - ct) / (v1.y - v2.y); deltay = blocksize / (v1.y - v2.y); } // Continue while not reached the end while(pos != end) { // Check in which direction to move if(posx < posy) { // Move horizontally posx += deltax; if(pos.X != end.X) pos.X += dirx; } else { // Move vertically posy += deltay; if(pos.Y != end.Y) pos.Y += diry; } // Add lines to this block if(IsInRange(pos)) entries.Add(blockmap[pos.X, pos.Y]); } } } // Return list return entries; } // This puts things in the blockmap public virtual void AddThingsSet(ICollection things) { foreach(Thing t in things) AddThing(t); } // This puts a thing in the blockmap public virtual void AddThing(Thing t) { Point p = GetBlockCoordinates(t.Position); if(IsInRange(p)) blockmap[p.X, p.Y].Things.Add(t); } //mxd. This puts vertices in the blockmap public virtual void AddVerticesSet(ICollection verts) { foreach(Vertex v in verts) AddVertex(v); } //mxd. This puts a vertex in the blockmap public virtual void AddVertex(Vertex v) { Point p = GetBlockCoordinates(v.Position); if(IsInRange(p)) blockmap[p.X, p.Y].Vertices.Add(v); } // This puts sectors in the blockmap public virtual void AddSectorsSet(ICollection sectors) { foreach(Sector s in sectors) AddSector(s); } // This puts a sector in the blockmap public virtual void AddSector(Sector s) { //mxd. Check range. Sector can be bigger than blockmap range if(!range.IntersectsWith(s.BBox)) return; Point p1 = GetBlockCoordinates(new Vector2D(s.BBox.Left, s.BBox.Top)); Point p2 = GetBlockCoordinates(new Vector2D(s.BBox.Right, s.BBox.Bottom)); p1 = CropToRange(p1); p2 = CropToRange(p2); for(int x = p1.X; x <= p2.X; x++) { for(int y = p1.Y; y <= p2.Y; y++) { blockmap[x, y].Sectors.Add(s); } } } // This puts a whole set of linedefs in the blocks they cross public virtual void AddLinedefsSet(ICollection lines) { foreach(Linedef l in lines) AddLinedef(l); } // This puts a single linedef in all blocks it crosses public virtual void AddLinedef(Linedef line) { int dirx, diry; // Get coordinates Vector2D v1 = line.Start.Position; Vector2D v2 = line.End.Position; // Find start and end block Point pos = GetBlockCoordinates(v1); Point end = GetBlockCoordinates(v2); v1 -= rangelefttop; v2 -= rangelefttop; // Horizontal straight line? if(pos.Y == end.Y) { // Simple loop pos.X = CropToRangeX(pos.X); end.X = CropToRangeX(end.X); if(IsInRange(new Point(pos.X, pos.Y))) { dirx = Math.Sign(v2.x - v1.x); if(dirx != 0) { for(int x = pos.X; x != end.X; x += dirx) { blockmap[x, pos.Y].Lines.Add(line); } } blockmap[end.X, end.Y].Lines.Add(line); } } // Vertical straight line? else if(pos.X == end.X) { // Simple loop pos.Y = CropToRangeY(pos.Y); end.Y = CropToRangeY(end.Y); if(IsInRange(new Point(pos.X, pos.Y))) { diry = Math.Sign(v2.y - v1.y); if(diry != 0) { for(int y = pos.Y; y != end.Y; y += diry) { blockmap[pos.X, y].Lines.Add(line); } } blockmap[end.X, end.Y].Lines.Add(line); } } else { // Add lines to this block if(IsInRange(pos)) blockmap[pos.X, pos.Y].Lines.Add(line); // Moving outside the block? if(pos != end) { // Calculate current block edges double cl = pos.X * blocksize; double cr = (pos.X + 1) * blocksize; double ct = pos.Y * blocksize; double cb = (pos.Y + 1) * blocksize; // Line directions dirx = Math.Sign(v2.x - v1.x); diry = Math.Sign(v2.y - v1.y); // Calculate offset and delta movement over x double posx, deltax; if(dirx == 0) { posx = float.MaxValue; deltax = float.MaxValue; } else if(dirx > 0) { posx = (cr - v1.x) / (v2.x - v1.x); deltax = blocksize / (v2.x - v1.x); } else { // Calculate offset and delta movement over x posx = (v1.x - cl) / (v1.x - v2.x); deltax = blocksize / (v1.x - v2.x); } // Calculate offset and delta movement over y double posy, deltay; if(diry == 0) { posy = float.MaxValue; deltay = float.MaxValue; } else if(diry > 0) { posy = (cb - v1.y) / (v2.y - v1.y); deltay = blocksize / (v2.y - v1.y); } else { posy = (v1.y - ct) / (v1.y - v2.y); deltay = blocksize / (v1.y - v2.y); } // Continue while not reached the end while(pos != end) { // Check in which direction to move if(posx < posy) { // Move horizontally posx += deltax; if(pos.X != end.X) pos.X += dirx; } else { // Move vertically posy += deltay; if(pos.Y != end.Y) pos.Y += diry; } // Add lines to this block if(IsInRange(pos)) blockmap[pos.X, pos.Y].Lines.Add(line); } } } } #endregion } }