#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; using System.Collections.Generic; using System.Globalization; using System.Text; using CodeImp.DoomBuilder.Geometry; using CodeImp.DoomBuilder.Rendering; using SlimDX.Direct3D9; using System.Drawing; using CodeImp.DoomBuilder.Map; #endregion namespace CodeImp.DoomBuilder.Geometry { /// /// This makes a sector from all surrounding lines from a given coordinate. /// Automatically finds the sidedef/sector properties from surrounding sectors/sidedefs. /// public static class SectorTools { #region ================== Constants #endregion #region ================== Pathfinding /// /// This finds a potential sector at the given coordinates, /// or returns null when a sector is not possible there. /// public static List FindPotentialSectorAt(Vector2D pos) { // Find the nearest line and determine side, then use the other method to create the sector Linedef l = General.Map.Map.NearestLinedef(pos); return FindPotentialSectorAt(l, (l.SideOfLine(pos) <= 0)); } /// /// This finds a potential sector starting at the given line and side, /// or returns null when sector is not possible. /// public static List FindPotentialSectorAt(Linedef line, bool front) { List alllines = new List(); // Find the outer lines Polygon p = FindOuterLines(line, front, alllines); if(p != null) { // Find the inner lines FindInnerLines(p, alllines); return alllines; } else return null; } // This finds the inner lines of the sector and adds them to the sector polygon private static void FindInnerLines(Polygon p, List alllines) { Vertex foundv; bool vvalid, findmore; Linedef foundline; float foundangle = 0f; bool foundlinefront; do { findmore = false; // Go for all vertices to find the right-most vertex inside the polygon foundv = null; foreach(Vertex v in General.Map.Map.Vertices) { // More to the right? if((foundv == null) || (v.Position.x >= foundv.Position.x)) { // Vertex is inside the polygon? if(p.Intersect(v.Position)) { // Vertex has lines attached? if(v.Linedefs.Count > 0) { // Go for all lines to see if the vertex is not of the polygon itsself vvalid = true; foreach(LinedefSide ls in alllines) { if((ls.Line.Start == v) || (ls.Line.End == v)) { vvalid = false; break; } } // Valid vertex? if(vvalid) foundv = v; } } } } // Found a vertex inside the polygon? if(foundv != null) { // Find the attached linedef with the smallest angle to the right float targetangle = Angle2D.PIHALF; foundline = null; foreach(Linedef l in foundv.Linedefs) { // We need an angle unrelated to line direction, so correct for that float lineangle = l.Angle; if(l.End == foundv) lineangle += Angle2D.PI; // Better result? float deltaangle = Angle2D.Difference(targetangle, lineangle); if((foundline == null) || (deltaangle < foundangle)) { foundline = l; foundangle = deltaangle; } } // We already know that each linedef will go from this vertex // to the left, because this is the right-most vertex in this area. // If the line would go to the right, that means the other vertex of // that line must lie outside this area and the mapper made an error. // Should I check for this error and fail to create a sector in // that case or ignore it and create a malformed sector (possibly // breaking another sector also)? // Find the side at which to start pathfinding Vector2D testpos = new Vector2D(100.0f, 0.0f); foundlinefront = (foundline.SideOfLine(foundv.Position + testpos) < 0.0f); // Find inner path List innerlines = FindClosestPath(foundline, foundlinefront, true); if(innerlines != null) { // Make polygon LinedefTracePath tracepath = new LinedefTracePath(innerlines); Polygon innerpoly = tracepath.MakePolygon(); // Check if the front of the line is outside the polygon if(!innerpoly.Intersect(foundline.GetSidePoint(foundlinefront))) { // Valid hole found! alllines.AddRange(innerlines); p.InsertChild(innerpoly); findmore = true; } } } } // Continue until no more holes found while(findmore); } // This finds the outer lines of the sector as a polygon // Returns null when no valid outer polygon can be found private static Polygon FindOuterLines(Linedef line, bool front, List alllines) { Linedef scanline = line; bool scanfront = front; do { // Find closest path List pathlines = FindClosestPath(scanline, scanfront, true); if(pathlines != null) { // Make polygon LinedefTracePath tracepath = new LinedefTracePath(pathlines); Polygon poly = tracepath.MakePolygon(); // Check if the front of the line is inside the polygon if(poly.Intersect(line.GetSidePoint(front))) { // Outer lines found! alllines.AddRange(pathlines); return poly; } else { // Inner lines found. This is not what we need, we want the outer lines. // Find the right-most vertex to start a scan from there towards the outer lines. Vertex foundv = null; foreach(LinedefSide ls in pathlines) { if((foundv == null) || (ls.Line.Start.Position.x > foundv.Position.x)) foundv = ls.Line.Start; if((foundv == null) || (ls.Line.End.Position.x > foundv.Position.x)) foundv = ls.Line.End; } // If foundv is null then something is horribly wrong with the // path we received from FindClosestPath! if(foundv == null) throw new Exception("FAIL!"); // From the right-most vertex trace outward to the right to // find the next closest linedef, this is based on the idea that // all sectors are closed. Vector2D lineoffset = new Vector2D(100.0f, 0.0f); Line2D testline = new Line2D(foundv.Position, foundv.Position + lineoffset); scanline = null; float foundu = float.MaxValue; foreach(Linedef ld in General.Map.Map.Linedefs) { // Line to the right of start point? if((ld.Start.Position.x > foundv.Position.x) || (ld.End.Position.x > foundv.Position.x)) { // Line intersecting the y axis? if( !((ld.Start.Position.y > foundv.Position.y) && (ld.End.Position.y > foundv.Position.y)) && !((ld.Start.Position.y < foundv.Position.y) && (ld.End.Position.y < foundv.Position.y))) { // Check if this linedef intersects our test line at a closer range float thisu; ld.Line.GetIntersection(testline, out thisu); if((thisu > 0.00001f) && (thisu < foundu) && !float.IsNaN(thisu)) { scanline = ld; foundu = thisu; } } } } // Did we meet another line? if(scanline != null) { // Determine on which side we should start the next pathfind scanfront = (scanline.SideOfLine(foundv.Position) < 0.0f); } else { // Appearently we reached the end of the map, no sector possible here return null; } } } else { // Can't find a path return null; } } while(true); } /// /// This finds the closest path from one vertex to another. /// When turnatends is true, the algorithm will continue at the other side of the /// line when a dead end has been reached. Returns null when no path could be found. /// //public static List FindClosestPath(Vertex start, float startangle, Vertex end, bool turnatends) //{ //} /// /// This finds the closest path from the beginning of a line to the end of the line. /// When turnatends is true, the algorithm will continue at the other side of the /// line when a dead end has been reached. Returns null when no path could be found. /// public static List FindClosestPath(Linedef startline, bool startfront, bool turnatends) { return FindClosestPath(startline, startfront, startline, startfront, turnatends); } /// /// This finds the closest path from the beginning of a line to the end of the line. /// When turnatends is true, the algorithm will continue at the other side of the /// line when a dead end has been reached. Returns null when no path could be found. /// public static List FindClosestPath(Linedef startline, bool startfront, Linedef endline, bool endfront, bool turnatends) { List path = new List(); Dictionary tracecount = new Dictionary(); Linedef nextline = startline; bool nextfront = startfront; do { // Add line to path path.Add(new LinedefSide(nextline, nextfront)); if(!tracecount.ContainsKey(nextline)) tracecount.Add(nextline, 1); else tracecount[nextline]++; // Determine next vertex to use Vertex v = nextfront ? nextline.End : nextline.Start; // Get list of linedefs and sort by angle List lines = new List(v.Linedefs); LinedefAngleSorter sorter = new LinedefAngleSorter(nextline, nextfront, v); lines.Sort(sorter); // Source line is the only one? if(lines.Count == 1) { // Are we allowed to trace along this line again? if(turnatends && (!tracecount.ContainsKey(nextline) || (tracecount[nextline] < 3))) { // Turn around and go back along the other side of the line nextfront = !nextfront; } else { // No more lines, trace ends here path = null; } } else { // Trace along the next line Linedef prevline = nextline; if(lines[0] == nextline) nextline = lines[1]; else nextline = lines[0]; // Are we allowed to trace this line again? if(!tracecount.ContainsKey(nextline) || (tracecount[nextline] < 3)) { // Check if front side changes if((prevline.Start == nextline.Start) || (prevline.End == nextline.End)) nextfront = !nextfront; } else { // No more lines, trace ends here path = null; } } } // Continue as long as we have not reached the start yet // or we have no next line to trace while((path != null) && ((nextline != endline) || (nextfront != endfront))); // If start and front are not the same, add the end to the list also if((path != null) && ((startline != endline) || (startfront != endfront))) path.Add(new LinedefSide(endline, endfront)); // Return path (null when trace failed) return path; } #endregion #region ================== Sector Making // This makes the sector from the given lines and sides public static Sector MakeSector(List alllines) { Sidedef source = null; Sector newsector = General.Map.Map.CreateSector(); // Check if any of the sides already has a sidedef // Then we use information from that sidedef to make the others foreach(LinedefSide ls in alllines) { if(ls.Front) { if(ls.Line.Front != null) { source = ls.Line.Front; source.Sector.CopyPropertiesTo(newsector); break; } } else { if(ls.Line.Back != null) { source = ls.Line.Back; source.Sector.CopyPropertiesTo(newsector); break; } } } // If we couldn't find anything, try the other sides if(source == null) { foreach(LinedefSide ls in alllines) { if(ls.Front) { if(ls.Line.Back != null) { source = ls.Line.Back; source.Sector.CopyPropertiesTo(newsector); break; } } else { if(ls.Line.Front != null) { source = ls.Line.Front; source.Sector.CopyPropertiesTo(newsector); break; } } } } // Still nothing found? // Then apply default sector properties if(source == null) ApplyDefaultsToSector(newsector); // Go for all sides to make sidedefs foreach(LinedefSide ls in alllines) { if(ls.Front) { // Create sidedef is needed and ensure it points to the new sector if(ls.Line.Front == null) General.Map.Map.CreateSidedef(ls.Line, true, newsector); if(ls.Line.Front.Sector != newsector) ls.Line.Front.ChangeSector(newsector); if(source != null) source.CopyPropertiesTo(ls.Line.Front); else ApplyDefaultsToSidedef(ls.Line.Front); } else { // Create sidedef is needed and ensure it points to the new sector if(ls.Line.Back == null) General.Map.Map.CreateSidedef(ls.Line, false, newsector); if(ls.Line.Back.Sector != newsector) ls.Line.Back.ChangeSector(newsector); if(source != null) source.CopyPropertiesTo(ls.Line.Back); else ApplyDefaultsToSidedef(ls.Line.Back); } // Update line ls.Line.ApplySidedFlags(); } // Return the new sector return newsector; } // This joins a sector with the given lines and sides public static Sector JoinSector(List alllines, Sidedef original) { // Go for all sides to make sidedefs foreach(LinedefSide ls in alllines) { if(ls.Front) { // Create sidedef is needed and ensure it points to the new sector if(ls.Line.Front == null) { General.Map.Map.CreateSidedef(ls.Line, true, original.Sector); ls.Line.ApplySidedFlags(); } original.CopyPropertiesTo(ls.Line.Front); ApplyDefaultsToSidedef(ls.Line.Front); } else { // Create sidedef is needed and ensure it points to the new sector if(ls.Line.Back == null) { General.Map.Map.CreateSidedef(ls.Line, false, original.Sector); ls.Line.ApplySidedFlags(); } original.CopyPropertiesTo(ls.Line.Back); ApplyDefaultsToSidedef(ls.Line.Back); } // Update line ls.Line.ApplySidedFlags(); } // Return the new sector return original.Sector; } // This applies defaults to a sidedef private static void ApplyDefaultsToSidedef(Sidedef sd) { if(sd.HighRequired() && sd.HighTexture.StartsWith("-")) sd.SetTextureHigh(General.Settings.DefaultTexture); if(sd.MiddleRequired() && sd.MiddleTexture.StartsWith("-")) sd.SetTextureMid(General.Settings.DefaultTexture); if(sd.LowRequired() && sd.LowTexture.StartsWith("-")) sd.SetTextureLow(General.Settings.DefaultTexture); } // This applies defaults to a sector private static void ApplyDefaultsToSector(Sector s) { s.SetFloorTexture(General.Settings.DefaultFloorTexture); s.SetCeilTexture(General.Settings.DefaultCeilingTexture); s.FloorHeight = General.Settings.DefaultFloorHeight; s.CeilHeight = General.Settings.DefaultCeilingHeight; s.Brightness = General.Settings.DefaultBrightness; } #endregion } }