#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 System.Threading; using System.Windows.Forms; using System.IO; using CodeImp.DoomBuilder.Geometry; using CodeImp.DoomBuilder.Plugins; using CodeImp.DoomBuilder.Windows; using CodeImp.DoomBuilder.IO; using CodeImp.DoomBuilder.Map; using CodeImp.DoomBuilder.Actions; #endregion namespace CodeImp.DoomBuilder.Editing { public class UndoManager { #region ================== Constants // Maximum undo/redo levels private const int MAX_UNDO_LEVELS = 2000; // Default stream capacity private const int STREAM_CAPACITY = 1000; // Stream codes // "Prp" stands for property changes (uses the ReadWrite functions) // "Ref" stands for reference changes private enum StreamCodes : byte { AddVertex, RemVertex, PrpVertex, AddLinedef, RemLinedef, PrpLinedef, RefLinedefStart, RefLinedefEnd, RefLinedefFront, RefLinedefBack, AddSidedef, RemSidedef, PrpSidedef, RefSidedefSector, AddSector, RemSector, PrpSector, AddThing, RemThing, PrpThing, } #endregion #region ================== Variables // Undo and redo stacks private List undos; private List redos; // Grouping private Plugin lastgroupplugin; private int lastgroupid; private int lastgrouptag; // Unique tickets private int ticketid; // Writing stream private UndoSnapshot snapshot; private bool isundosnapshot; private MemoryStream stream; private SerializerStream ss; private int commandswritten; private long prevstreamlength; private bool ignorepropchanges; private bool isrecordingcommand; private MapElement propsrecorded; private bool geometrychanged; private bool populationchanged; // Background thread private volatile bool dobackgroundwork; private Thread backgroundthread; // Disposing private bool isdisposed = false; #endregion #region ================== Properties public UndoSnapshot NextUndo { get { if(!isundosnapshot && (snapshot != null)) return snapshot; else if(undos.Count > 0) return undos[0]; else return null; } } public UndoSnapshot NextRedo { get { if(isundosnapshot && (snapshot != null)) return snapshot; else if(redos.Count > 0) return redos[0]; else return null; } } public bool IsDisposed { get { return isdisposed; } } /// /// This can be used to ignore insignificant element property changes. Any property changes /// that are made while this is set to True will not be undoable. Use with great care! /// public bool IgnorePropChanges { get { return ignorepropchanges; } set { ignorepropchanges = value; } } /// /// After undo or redo, this returns if the geometry changed. This includes add/remove operations /// on sectors, linedefs, sidedefs and vertices, references changes and property changes on vertices. /// public bool GeometryChanged { get { return geometrychanged; } } /// /// After undo or redo, this returns if things were added/removed. This does not include thing property changes. /// public bool PopulationChanged { get { return populationchanged; } } #endregion #region ================== Constructor / Disposer // Constructor internal UndoManager() { // Initialize ticketid = 1; undos = new List(MAX_UNDO_LEVELS + 1); redos = new List(MAX_UNDO_LEVELS + 1); // Bind any methods General.Actions.BindMethods(this); // Start background thread backgroundthread = new Thread(new ThreadStart(BackgroundThread)); backgroundthread.Name = "Snapshot Compressor"; backgroundthread.Priority = ThreadPriority.Lowest; backgroundthread.IsBackground = true; backgroundthread.Start(); // We have no destructor GC.SuppressFinalize(this); } // Disposer internal void Dispose() { // Not already disposed? if(!isdisposed) { // Unbind any methods General.Actions.UnbindMethods(this); // Stop the thread and wait for it to end backgroundthread.Interrupt(); backgroundthread.Join(); backgroundthread = null; // Clean up ClearUndos(); ClearRedos(); General.WriteLogLine("All undo and redo levels cleared."); // Done isdisposed = true; } } #endregion #region ================== Private Methods // This clears the redos private void ClearRedos() { lock(redos) { // Dispose all redos foreach(UndoSnapshot u in redos) u.Dispose(); redos.Clear(); // If the current snapshot is meant for redo, trash it also if(isundosnapshot && (snapshot != null)) { FinishRecording(); isundosnapshot = false; snapshot = null; } } } // This clears the undos private void ClearUndos() { lock(undos) { // Dispose all undos foreach(UndoSnapshot u in undos) u.Dispose(); undos.Clear(); // If the current snapshot is meant for undo, trash it also if(!isundosnapshot && (snapshot != null)) { FinishRecording(); isundosnapshot = false; snapshot = null; } } } // This checks and removes a level when the limit is reached private void LimitUndoRedoLevel(List list) { UndoSnapshot u; // Too many? if(list.Count > MAX_UNDO_LEVELS) { // Remove one and dispose map u = list[list.Count - 1]; u.Dispose(); list.RemoveAt(list.Count - 1); } } // Background thread private void BackgroundThread() { while(true) { if(dobackgroundwork) { // First set dobackgroundwork to false before performing the work so // that it can be set to true again when another pass is needed dobackgroundwork = false; int undolevel = 0; UndoSnapshot us; while(true) { // Get the next snapshot or leave lock(undos) { if(undolevel < undos.Count) us = undos[undolevel]; else break; } // Write to file or load from file, if needed if(us.StoreOnDisk && !us.IsOnDisk) us.WriteToFile(); else if(!us.StoreOnDisk && us.IsOnDisk) us.RestoreFromFile(); // Next undolevel++; } int redolevel = 0; while(true) { // Get the next snapshot or leave lock(redos) { if(redolevel < redos.Count) us = redos[redolevel]; else break; } // Write to file or load from file, if needed if(us.StoreOnDisk && !us.IsOnDisk) us.WriteToFile(); else if(!us.StoreOnDisk && us.IsOnDisk) us.RestoreFromFile(); // Next redolevel++; } } try { Thread.Sleep(30); } catch(ThreadInterruptedException) { break; } } } // This starts a new recording private void StartRecording(string description) { stream = new MemoryStream(STREAM_CAPACITY); ss = new SerializerStream(stream); ss.Begin(); commandswritten = 0; propsrecorded = null; snapshot = new UndoSnapshot(description, stream, ticketid); } // This finishes recording private void FinishRecording() { // End current recording if((stream != null) && (ss != null)) { propsrecorded = null; ss.wInt(commandswritten); ss.End(); ss = null; } } // This begins writing to the record stream private bool BeginRecordData(StreamCodes code) { if((ss == null) || isdisposed) return false; isrecordingcommand = true; prevstreamlength = stream.Length; ss.wByte((byte)code); return true; } // This ends writing to the record stream private void EndRecordData() { // We write the difference in bytes to the stream so that // the stream can be read from the end backwards int delta = (int)(stream.Length - prevstreamlength); ss.wInt(delta); commandswritten++; isrecordingcommand = false; } // This outputs record info, if desired private void LogRecordInfo(string info) { #if DEBUG //General.WriteLogLine(info); #endif } // This plays back a stream in reverse private void PlaybackStream(MemoryStream pstream) { General.Map.Map.AutoRemove = false; pstream.Seek(0, SeekOrigin.Begin); DeserializerStream ds = new DeserializerStream(pstream); ds.Begin(); if(pstream.Length > 4) { // Start at the end pstream.Seek(ds.EndPosition - 4, SeekOrigin.Begin); int numcmds; ds.rInt(out numcmds); pstream.Seek(-8, SeekOrigin.Current); while(numcmds > 0) { // Go back up the stream to the beginning of the prev command int len; ds.rInt(out len); pstream.Seek(-(len + 4), SeekOrigin.Current); // Play back the command long beginpos = pstream.Position; byte cmd; ds.rByte(out cmd); switch((StreamCodes)cmd) { case StreamCodes.AddVertex: PlayAddVertex(ds); break; case StreamCodes.RemVertex: PlayRemVertex(ds); break; case StreamCodes.PrpVertex: PlayPrpVertex(ds); break; case StreamCodes.AddLinedef: PlayAddLinedef(ds); break; case StreamCodes.RemLinedef: PlayRemLinedef(ds); break; case StreamCodes.PrpLinedef: PlayPrpLinedef(ds); break; case StreamCodes.RefLinedefStart: PlayRefLinedefStart(ds); break; case StreamCodes.RefLinedefEnd: PlayRefLinedefEnd(ds); break; case StreamCodes.RefLinedefFront: PlayRefLinedefFront(ds); break; case StreamCodes.RefLinedefBack: PlayRefLinedefBack(ds); break; case StreamCodes.AddSidedef: PlayAddSidedef(ds); break; case StreamCodes.RemSidedef: PlayRemSidedef(ds); break; case StreamCodes.PrpSidedef: PlayPrpSidedef(ds); break; case StreamCodes.RefSidedefSector: PlayRefSidedefSector(ds); break; case StreamCodes.AddSector: PlayAddSector(ds); break; case StreamCodes.RemSector: PlayRemSector(ds); break; case StreamCodes.PrpSector: PlayPrpSector(ds); break; case StreamCodes.AddThing: PlayAddThing(ds); break; case StreamCodes.RemThing: PlayRemThing(ds); break; case StreamCodes.PrpThing: PlayPrpThing(ds); break; } // Sanity check if((beginpos + len) != pstream.Position) throw new Exception("The last command did not read the same amount of data that was written for this command!"); // Go back for next command pstream.Seek(-(len + 4), SeekOrigin.Current); numcmds--; } } General.Map.Map.AutoRemove = true; } #endregion #region ================== Public Methods // This makes a list of the undo levels in order they will be undone public List GetUndoList() { List list = new List(undos.Count + 1); if(!isundosnapshot && (snapshot != null)) list.Add(snapshot); list.AddRange(undos); return list; } // This makes a list of the redo levels in order they will be undone public List GetRedoList() { List list = new List(redos.Count + 1); if(isundosnapshot && (snapshot != null)) list.Add(snapshot); list.AddRange(redos); return list; } // This clears all redos public void ClearAllRedos() { ClearRedos(); General.MainWindow.UpdateInterface(); } /// /// This makes an undo and returns the unique ticket id. Also automatically indicates that the map is changed. /// /// Any description you want the undo to be named. Should be something related to the changes you are about to make. /// Ticket ID that identifies the created undo level. public int CreateUndo(string description) { return CreateUndo(description, null, 0, 0); } /// /// This makes an undo and returns the unique ticket id. Also automatically indicates that the map is changed. /// /// Any description you want the undo to be named. Should be something related to the changes you are about to make. /// The object creating the undo. All objects from within the same plugin are equal, so it is safe to just use 'this' everywhere. This is only used for undo grouping and you can use 'null' if you don't want undo grouping. /// The undo group id you want this undo level to group with (undos only group together if the previous undo has the same source, id and tag). Group 0 indicates no grouping. /// The undo group tag you want this undo level to group with (undos only group together if the previous undo has the same source, id and tag). Use at your own discretion. /// Ticket ID that identifies the created undo level. Returns -1 when no undo level was created. public int CreateUndo(string description, object groupsource, int groupid, int grouptag) { //UndoSnapshot u; Plugin p = null; string groupsourcename = "Null"; // Figure out the source plugin if(groupsource != null) { p = General.Plugins.FindPluginByAssembly(groupsource.GetType().Assembly); if(p != null) groupsourcename = p.Name; } // Not the same as previous group, or no grouping desired... if((p == null) || (lastgroupplugin == null) || (p != lastgroupplugin) || (groupid == 0) || (lastgroupid == 0) || (groupid != lastgroupid) || (grouptag != lastgrouptag)) { FinishRecording(); // Next ticket id if(++ticketid == int.MaxValue) ticketid = 1; General.WriteLogLine("Creating undo snapshot \"" + description + "\", Source " + groupsourcename + ", Group " + groupid + ", Tag " + grouptag + ", Ticket ID " + ticketid + "..."); if((snapshot != null) && !isundosnapshot) { lock(undos) { // The current top of the stack can now be written to disk // because it is no longer the next immediate undo level if(undos.Count > 0) undos[0].StoreOnDisk = true; // Put it on the stack undos.Insert(0, snapshot); LimitUndoRedoLevel(undos); } } StartRecording(description); isundosnapshot = false; // Clear all redos ClearRedos(); // Keep grouping info lastgroupplugin = p; lastgroupid = groupid; lastgrouptag = grouptag; // Map changes! General.Map.IsChanged = true; // Update dobackgroundwork = true; General.Plugins.OnUndoCreated(); General.MainWindow.UpdateInterface(); // Done return ticketid; } else { return -1; } } // This removes a previously made undo public void WithdrawUndo() { // Previously, withdrawing an undo level was possible, because each undo level contained // an entire snapshot of the map. With the new progressive undo system, you cannot ignore // any changes, so we have to actually perform the undo and trash the redo it creates. PerformUndo(1, false); ClearAllRedos(); General.Plugins.OnUndoWithdrawn(); } // This performs an undo [BeginAction("undo")] public void PerformUndo() { PerformUndo(1); } // This performs one or more undo levels public void PerformUndo(int levels) { PerformUndo(levels, true); } private void PerformUndo(int levels, bool showmessage) { UndoSnapshot u = null; Cursor oldcursor = Cursor.Current; Cursor.Current = Cursors.WaitCursor; int levelsundone = 0; // Anything to undo? if((undos.Count > 0) || ((snapshot != null) && !isundosnapshot)) { // Let the plugins know if(General.Plugins.OnUndoBegin()) { // Call UndoBegin event if(General.Editing.Mode.OnUndoBegin()) { // Cancel volatile mode, if any // This returns false when mode was not volatile if(!General.Editing.CancelVolatileMode()) { geometrychanged = false; populationchanged = false; General.Map.Map.ClearAllMarks(false); General.Map.Map.BeginAddRemove(); // Go for all levels to undo for(int lvl = 0; lvl < levels; lvl++) { FinishRecording(); if(isundosnapshot) { if(snapshot != null) { // This snapshot was made by a previous call to this // function and should go on the redo list lock(redos) { // The current top of the stack can now be written to disk // because it is no longer the next immediate redo level if(redos.Count > 0) redos[0].StoreOnDisk = true; // Put it on the stack redos.Insert(0, snapshot); LimitUndoRedoLevel(redos); } } } else { // The snapshot can be undone immediately and it will // be recorded for the redo list if(snapshot != null) u = snapshot; } // No immediate snapshot to undo? Then get the next one from the stack if(u == null) { lock(undos) { if(undos.Count > 0) { // Get undo snapshot u = undos[0]; undos.RemoveAt(0); // Make the current top of the stack load into memory // because it just became the next immediate undo level if(undos.Count > 0) undos[0].StoreOnDisk = false; } else { // Nothing more to undo u = null; break; } } } General.WriteLogLine("Performing undo \"" + u.Description + "\", Ticket ID " + u.TicketID + "..."); if((levels == 1) && showmessage) General.Interface.DisplayStatus(StatusType.Action, u.Description + " undone."); // Make a snapshot for redo StartRecording(u.Description); isundosnapshot = true; // Reset grouping lastgroupplugin = null; // Play back the stream in reverse MemoryStream data = u.GetStream(); PlaybackStream(data); data.Dispose(); // Done with this snapshot u = null; levelsundone++; } General.Map.Map.EndAddRemove(); if((levels > 1) && showmessage) General.Interface.DisplayStatus(StatusType.Action, "Undone " + levelsundone + " changes."); // Remove selection General.Map.Map.ClearAllSelected(); // Update map General.Map.Map.Update(); foreach(Thing t in General.Map.Map.Things) if(t.Marked) t.UpdateConfiguration(); General.Map.ThingsFilter.Update(); General.Map.Data.UpdateUsedTextures(); General.MainWindow.RefreshInfo(); //General.MainWindow.RedrawDisplay(); // Map changed! General.Map.IsChanged = true; // Done General.Editing.Mode.OnUndoEnd(); General.Plugins.OnUndoEnd(); // Update interface General.MainWindow.RedrawDisplay(); //mxd dobackgroundwork = true; General.MainWindow.UpdateInterface(); } } } } Cursor.Current = oldcursor; } // This performs a redo [BeginAction("redo")] public void PerformRedo() { PerformRedo(1); } public void PerformRedo(int levels) { UndoSnapshot r = null; Cursor oldcursor = Cursor.Current; Cursor.Current = Cursors.WaitCursor; int levelsundone = 0; // Anything to redo? if((redos.Count > 0) || ((snapshot != null) && isundosnapshot)) { // Let the plugins know if(General.Plugins.OnRedoBegin()) { // Call RedoBegin event if(General.Editing.Mode.OnRedoBegin()) { // Cancel volatile mode, if any // This returns false when mode was not volatile if(!General.Editing.CancelVolatileMode()) { geometrychanged = false; populationchanged = false; General.Map.Map.ClearAllMarks(false); General.Map.Map.BeginAddRemove(); // Go for all levels to redo for(int lvl = 0; lvl < levels; lvl++) { FinishRecording(); if(isundosnapshot) { // This snapshot was started by PerformUndo, which means // it can directly be used to redo to previous undo if(snapshot != null) r = snapshot; } else { if(snapshot != null) { // This snapshot was made by a previous call to this // function and should go on the undo list lock(undos) { // The current top of the stack can now be written to disk // because it is no longer the next immediate undo level if(undos.Count > 0) undos[0].StoreOnDisk = true; // Put it on the stack undos.Insert(0, snapshot); LimitUndoRedoLevel(undos); } } } // No immediate snapshot to redo? Then get the next one from the stack if(r == null) { lock(redos) { if(redos.Count > 0) { // Get redo snapshot r = redos[0]; redos.RemoveAt(0); // Make the current top of the stack load into memory // because it just became the next immediate undo level if(redos.Count > 0) redos[0].StoreOnDisk = false; } else { // Nothing more to redo r = null; break; } } } General.WriteLogLine("Performing redo \"" + r.Description + "\", Ticket ID " + r.TicketID + "..."); if(levels == 1) General.Interface.DisplayStatus(StatusType.Action, r.Description + " redone."); StartRecording(r.Description); isundosnapshot = false; // Reset grouping lastgroupplugin = null; // Play back the stream in reverse MemoryStream data = r.GetStream(); PlaybackStream(data); data.Dispose(); // Done with this snapshot r = null; levelsundone++; } General.Map.Map.EndAddRemove(); if(levels > 1) General.Interface.DisplayStatus(StatusType.Action, "Redone " + levelsundone + " changes."); // Remove selection General.Map.Map.ClearAllSelected(); // Update map General.Map.Map.Update(); foreach(Thing t in General.Map.Map.Things) if(t.Marked) t.UpdateConfiguration(); General.Map.ThingsFilter.Update(); General.Map.Data.UpdateUsedTextures(); General.MainWindow.RefreshInfo(); //General.MainWindow.RedrawDisplay(); // Map changed! General.Map.IsChanged = true; // Done General.Editing.Mode.OnRedoEnd(); General.Plugins.OnRedoEnd(); // Update interface General.MainWindow.RedrawDisplay(); //mxd dobackgroundwork = true; General.MainWindow.UpdateInterface(); } } } } Cursor.Current = oldcursor; } #endregion #region ================== Record and Playback internal void RecAddVertex(Vertex v) { if(!BeginRecordData(StreamCodes.AddVertex)) return; ss.wInt(v.Index); EndRecordData(); //LogRecordInfo("REC: Adding vertex " + v.Index + " at " + v.Position); propsrecorded = null; } internal void PlayAddVertex(DeserializerStream ds) { int index; ds.rInt(out index); //LogRecordInfo("PLY: Removing vertex " + index); Vertex v = General.Map.Map.GetVertexByIndex(index); foreach(Linedef l in v.Linedefs) l.Marked = true; v.Dispose(); geometrychanged = true; } internal void RecRemVertex(Vertex v) { if(!BeginRecordData(StreamCodes.RemVertex)) return; ss.wInt(v.Index); ss.wVector2D(v.Position); v.ReadWrite(ss); EndRecordData(); //LogRecordInfo("REC: Removing vertex " + v.Index + " (at " + v.Position + ")"); propsrecorded = null; } internal void PlayRemVertex(DeserializerStream ds) { int index; ds.rInt(out index); Vector2D pos; ds.rVector2D(out pos); //LogRecordInfo("PLY: Adding vertex " + index + " at " + pos); Vertex v = General.Map.Map.CreateVertex(index, pos); v.ReadWrite(ds); v.Marked = true; geometrychanged = true; } internal void RecPrpVertex(Vertex v) { if(!ignorepropchanges && !isrecordingcommand && !object.ReferenceEquals(v, propsrecorded)) { if(!BeginRecordData(StreamCodes.PrpVertex)) return; ss.wInt(v.Index); v.ReadWrite(ss); EndRecordData(); propsrecorded = v; } } internal void PlayPrpVertex(DeserializerStream ds) { int index; ds.rInt(out index); Vertex v = General.Map.Map.GetVertexByIndex(index); v.ReadWrite(ds); v.Marked = true; geometrychanged = true; } internal void RecAddLinedef(Linedef l) { if(!BeginRecordData(StreamCodes.AddLinedef)) return; ss.wInt(l.Index); EndRecordData(); //LogRecordInfo("REC: Adding linedef " + l.Index + " from " + ((l.Start != null) ? l.Start.Index : -1) + " to " + ((l.End != null) ? l.End.Index : -1)); propsrecorded = null; } internal void PlayAddLinedef(DeserializerStream ds) { int index; ds.rInt(out index); //LogRecordInfo("PLY: Removing linedef " + index); Linedef l = General.Map.Map.GetLinedefByIndex(index); if(l.Front != null) l.Front.Marked = true; if(l.Back != null) l.Back.Marked = true; l.Dispose(); geometrychanged = true; } internal void RecRemLinedef(Linedef l) { if(!BeginRecordData(StreamCodes.RemLinedef)) return; ss.wInt(l.Index); ss.wInt(l.Start.Index); ss.wInt(l.End.Index); l.ReadWrite(ss); EndRecordData(); //LogRecordInfo("REC: Removing linedef " + l.Index + " (from " + ((l.Start != null) ? l.Start.Index : -1) + " to " + ((l.End != null) ? l.End.Index : -1) + ")"); propsrecorded = null; } internal void PlayRemLinedef(DeserializerStream ds) { int index; ds.rInt(out index); int sindex; ds.rInt(out sindex); int eindex; ds.rInt(out eindex); //LogRecordInfo("PLY: Adding linedef " + index + " from " + sindex + " to " + eindex); Vertex vs = General.Map.Map.GetVertexByIndex(sindex); Vertex ve = General.Map.Map.GetVertexByIndex(eindex); Linedef l = General.Map.Map.CreateLinedef(index, vs, ve); l.ReadWrite(ds); l.Marked = true; geometrychanged = true; } internal void RecPrpLinedef(Linedef l) { if(!ignorepropchanges && !isrecordingcommand && !object.ReferenceEquals(l, propsrecorded)) { if(!BeginRecordData(StreamCodes.PrpLinedef)) return; ss.wInt(l.Index); l.ReadWrite(ss); EndRecordData(); propsrecorded = l; } } internal void PlayPrpLinedef(DeserializerStream ds) { int index; ds.rInt(out index); Linedef l = General.Map.Map.GetLinedefByIndex(index); l.ReadWrite(ds); l.Marked = true; } internal void RecRefLinedefStart(Linedef l) { if(!BeginRecordData(StreamCodes.RefLinedefStart)) return; ss.wInt(l.Index); if(l.Start != null) ss.wInt(l.Start.Index); else ss.wInt(-1); EndRecordData(); //LogRecordInfo("REC: Setting linedef " + l.Index + " start vertex " + ((l.Start != null) ? l.Start.Index : -1)); propsrecorded = null; } internal void PlayRefLinedefStart(DeserializerStream ds) { int index; ds.rInt(out index); Linedef l = General.Map.Map.GetLinedefByIndex(index); int vindex; ds.rInt(out vindex); //LogRecordInfo("PLY: Setting linedef " + index + " start vertex " + vindex); Vertex v = (vindex >= 0) ? General.Map.Map.GetVertexByIndex(vindex) : null; l.SetStartVertex(v); l.Marked = true; if(v != null) v.Marked = true; geometrychanged = true; } internal void RecRefLinedefEnd(Linedef l) { if(!BeginRecordData(StreamCodes.RefLinedefEnd)) return; ss.wInt(l.Index); if(l.End != null) ss.wInt(l.End.Index); else ss.wInt(-1); EndRecordData(); //LogRecordInfo("REC: Setting linedef " + l.Index + " end vertex " + ((l.End != null) ? l.End.Index : -1)); propsrecorded = null; } internal void PlayRefLinedefEnd(DeserializerStream ds) { int index; ds.rInt(out index); Linedef l = General.Map.Map.GetLinedefByIndex(index); int vindex; ds.rInt(out vindex); //LogRecordInfo("PLY: Setting linedef " + index + " end vertex " + vindex); Vertex v = (vindex >= 0) ? General.Map.Map.GetVertexByIndex(vindex) : null; l.SetEndVertex(v); l.Marked = true; if(v != null) v.Marked = true; geometrychanged = true; } internal void RecRefLinedefFront(Linedef l) { if(!BeginRecordData(StreamCodes.RefLinedefFront)) return; ss.wInt(l.Index); if(l.Front != null) ss.wInt(l.Front.Index); else ss.wInt(-1); EndRecordData(); //LogRecordInfo("REC: Setting linedef " + l.Index + " front sidedef " + ((l.Front != null) ? l.Front.Index : -1)); propsrecorded = null; } internal void PlayRefLinedefFront(DeserializerStream ds) { int index; ds.rInt(out index); Linedef l = General.Map.Map.GetLinedefByIndex(index); int sindex; ds.rInt(out sindex); //LogRecordInfo("PLY: Setting linedef " + index + " front sidedef " + sindex); Sidedef sd = (sindex >= 0) ? General.Map.Map.GetSidedefByIndex(sindex) : null; l.AttachFront(sd); l.Marked = true; if(sd != null) sd.Marked = true; geometrychanged = true; } internal void RecRefLinedefBack(Linedef l) { if(!BeginRecordData(StreamCodes.RefLinedefBack)) return; ss.wInt(l.Index); if(l.Back != null) ss.wInt(l.Back.Index); else ss.wInt(-1); EndRecordData(); //LogRecordInfo("REC: Setting linedef " + l.Index + " back sidedef " + ((l.Back != null) ? l.Back.Index : -1)); propsrecorded = null; } internal void PlayRefLinedefBack(DeserializerStream ds) { int index; ds.rInt(out index); Linedef l = General.Map.Map.GetLinedefByIndex(index); int sindex; ds.rInt(out sindex); //LogRecordInfo("PLY: Setting linedef " + index + " back sidedef " + sindex); Sidedef sd = (sindex >= 0) ? General.Map.Map.GetSidedefByIndex(sindex) : null; l.AttachBack(sd); l.Marked = true; if(sd != null) sd.Marked = true; geometrychanged = true; } internal void RecAddSidedef(Sidedef s) { if(!BeginRecordData(StreamCodes.AddSidedef)) return; ss.wInt(s.Index); EndRecordData(); //LogRecordInfo("REC: Adding sidedef " + s.Index + " to linedef " + s.Line.Index + (s.IsFront ? " front" : " back") + " and sector " + s.Sector.Index); propsrecorded = null; } internal void PlayAddSidedef(DeserializerStream ds) { int index; ds.rInt(out index); //LogRecordInfo("PLY: Removing sidedef " + index); Sidedef s = General.Map.Map.GetSidedefByIndex(index); if(s.Sector != null) s.Sector.Marked = true; s.Dispose(); geometrychanged = true; } internal void RecRemSidedef(Sidedef s) { if(!BeginRecordData(StreamCodes.RemSidedef)) return; ss.wInt(s.Index); ss.wInt(s.Line.Index); ss.wBool(s.IsFront); ss.wInt(s.Sector.Index); s.ReadWrite(ss); EndRecordData(); //LogRecordInfo("REC: Removing sidedef " + s.Index + " (from linedef " + s.Line.Index + (s.IsFront ? " front" : " back") + " and sector " + s.Sector.Index + ")"); propsrecorded = null; } internal void PlayRemSidedef(DeserializerStream ds) { int index; ds.rInt(out index); int dindex; ds.rInt(out dindex); bool front; ds.rBool(out front); int sindex; ds.rInt(out sindex); //LogRecordInfo("PLY: Adding sidedef " + index + " to linedef " + dindex + (front ? " front" : " back") + " and sector " + sindex); Linedef l = General.Map.Map.GetLinedefByIndex(dindex); Sector s = General.Map.Map.GetSectorByIndex(sindex); Sidedef sd = General.Map.Map.CreateSidedef(index, l, front, s); sd.ReadWrite(ds); sd.Marked = true; geometrychanged = true; } internal void RecPrpSidedef(Sidedef s) { if(!ignorepropchanges && !isrecordingcommand && !object.ReferenceEquals(s, propsrecorded)) { if(!BeginRecordData(StreamCodes.PrpSidedef)) return; ss.wInt(s.Index); s.ReadWrite(ss); EndRecordData(); propsrecorded = s; } } internal void PlayPrpSidedef(DeserializerStream ds) { int index; ds.rInt(out index); Sidedef s = General.Map.Map.GetSidedefByIndex(index); s.ReadWrite(ds); s.Marked = true; } internal void RecRefSidedefSector(Sidedef s) { if(!BeginRecordData(StreamCodes.RefSidedefSector)) return; ss.wInt(s.Index); if(s.Sector != null) ss.wInt(s.Sector.Index); else ss.wInt(-1); EndRecordData(); //LogRecordInfo("REC: Setting sidedef " + s.Index + " sector " + ((s.Sector != null) ? s.Sector.Index : -1)); propsrecorded = null; } internal void PlayRefSidedefSector(DeserializerStream ds) { int index; ds.rInt(out index); Sidedef sd = General.Map.Map.GetSidedefByIndex(index); int sindex; ds.rInt(out sindex); //LogRecordInfo("PLY: Setting sidedef " + index + " sector " + sindex); Sector sc = (sindex >= 0) ? General.Map.Map.GetSectorByIndex(sindex) : null; sd.SetSector(sc); sd.Marked = true; if(sc != null) sc.Marked = true; geometrychanged = true; } internal void RecAddSector(Sector s) { if(!BeginRecordData(StreamCodes.AddSector)) return; ss.wInt(s.Index); EndRecordData(); //LogRecordInfo("REC: Adding sector " + s.Index); propsrecorded = null; } internal void PlayAddSector(DeserializerStream ds) { int index; ds.rInt(out index); //LogRecordInfo("PLY: Removing sector " + index); Sector s = General.Map.Map.GetSectorByIndex(index); s.Dispose(); geometrychanged = true; } internal void RecRemSector(Sector s) { if(!BeginRecordData(StreamCodes.RemSector)) return; ss.wInt(s.Index); s.ReadWrite(ss); EndRecordData(); //LogRecordInfo("REC: Removing sector " + s.Index); propsrecorded = null; } internal void PlayRemSector(DeserializerStream ds) { int index; ds.rInt(out index); //LogRecordInfo("PLY: Adding sector " + index); Sector s = General.Map.Map.CreateSector(index); s.ReadWrite(ds); s.Marked = true; geometrychanged = true; } internal void RecPrpSector(Sector s) { if(!ignorepropchanges && !isrecordingcommand && !object.ReferenceEquals(s, propsrecorded)) { if(!BeginRecordData(StreamCodes.PrpSector)) return; ss.wInt(s.Index); s.ReadWrite(ss); EndRecordData(); propsrecorded = s; } } internal void PlayPrpSector(DeserializerStream ds) { int index; ds.rInt(out index); Sector s = General.Map.Map.GetSectorByIndex(index); s.ReadWrite(ds); s.Marked = true; } internal void RecAddThing(Thing t) { if(!BeginRecordData(StreamCodes.AddThing)) return; ss.wInt(t.Index); EndRecordData(); //LogRecordInfo("REC: Adding thing " + t.Index); propsrecorded = null; } internal void PlayAddThing(DeserializerStream ds) { int index; ds.rInt(out index); //LogRecordInfo("PLY: Removing thing " + index); Thing t = General.Map.Map.GetThingByIndex(index); t.Dispose(); populationchanged = true; } internal void RecRemThing(Thing t) { if(!BeginRecordData(StreamCodes.RemThing)) return; ss.wInt(t.Index); t.ReadWrite(ss); EndRecordData(); //LogRecordInfo("REC: Removing thing " + t.Index); propsrecorded = null; } internal void PlayRemThing(DeserializerStream ds) { int index; ds.rInt(out index); //LogRecordInfo("PLY: Adding thing " + index); Thing t = General.Map.Map.CreateThing(index); t.ReadWrite(ds); t.Marked = true; populationchanged = true; } internal void RecPrpThing(Thing t) { if(!ignorepropchanges && !isrecordingcommand && !object.ReferenceEquals(t, propsrecorded)) { if(!BeginRecordData(StreamCodes.PrpThing)) return; ss.wInt(t.Index); t.ReadWrite(ss); EndRecordData(); propsrecorded = t; } } internal void PlayPrpThing(DeserializerStream ds) { int index; ds.rInt(out index); Thing t = General.Map.Map.GetThingByIndex(index); t.ReadWrite(ds); t.Marked = true; } #endregion } }