#region ================== Copyright (c) 2014 Boris Iwanski /* * Copyright (c) 2014 Boris Iwanski * 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.Collections.Specialized; using System.Collections.ObjectModel; using System.Globalization; using System.Text; using System.Text.RegularExpressions; using System.Windows.Forms; using System.IO; using System.Reflection; using System.Linq; using System.Diagnostics; using CodeImp.DoomBuilder.Windows; using CodeImp.DoomBuilder.IO; using CodeImp.DoomBuilder.Map; using CodeImp.DoomBuilder.Rendering; using CodeImp.DoomBuilder.Geometry; using System.Drawing; using CodeImp.DoomBuilder.Editing; using CodeImp.DoomBuilder.Plugins; using CodeImp.DoomBuilder.Actions; using CodeImp.DoomBuilder.Types; using CodeImp.DoomBuilder.Config; using CodeImp.DoomBuilder.Data; using CodeImp.DoomBuilder.BuilderModes; // using CodeImp.DoomBuilder.GZBuilder.Geometry; using CodeImp.DoomBuilder.VisualModes; #endregion namespace CodeImp.DoomBuilder.ThreeDFloorMode { // // MANDATORY: The plug! // This is an important class to the Doom Builder core. Every plugin must // have exactly 1 class that inherits from Plug. When the plugin is loaded, // this class is instantiated and used to receive events from the core. // Make sure the class is public, because only public classes can be seen // by the core. // [Flags] public enum PlaneType { Floor = 1, Ceiling = 2, Bottom = 4, // Floor of 3D floor control sector Top = 8 // Ceiling of 3D floor control sector } public enum LabelDisplayOption { Always, Never, WhenHighlighted, } public class BuilderPlug : Plug { #region ================== Variables private bool additiveselect; private bool additivepaintselect; private float highlightrange; private bool autoclearselection; private MenusForm menusform; private bool usehighlight; private ControlSectorArea controlsectorarea; private float highlightsloperange; private List slopevertexgroups; private float stitchrange; private Sector slopedatasector; private bool updateafteraction; private string updateafteractionname; private LabelDisplayOption sectorlabeldisplayoption; private LabelDisplayOption slopevertexlabeldisplayoption; private PreferencesForm preferencesform; // TMP public List drawlines; public List drawpoints; #endregion #region ================== Properties public bool AdditiveSelect { get { return additiveselect; } } public bool AdditivePaintSelect { get { return additivepaintselect; } } public float HighlightRange { get { return highlightrange; } } public bool AutoClearSelection { get { return autoclearselection; } } public MenusForm MenusForm { get { return menusform; } } public bool UseHighlight { get { return usehighlight; } set { usehighlight = value; General.Map.Renderer3D.ShowSelection = usehighlight; General.Map.Renderer3D.ShowHighlight = usehighlight; } } public ControlSectorArea ControlSectorArea { get { return controlsectorarea; } } public float HighlightSlopeRange { get { return highlightsloperange; } } public List SlopeVertexGroups { get { return slopevertexgroups; } set { slopevertexgroups = value; } } public float StitchRange { get { return stitchrange; } } public Sector SlopeDataSector { get { return slopedatasector; } set { slopedatasector = value; } } public LabelDisplayOption SectorLabelDisplayOption { get { return sectorlabeldisplayoption; } set { sectorlabeldisplayoption = value; } } public LabelDisplayOption SlopeVertexLabelDisplayOption { get { return slopevertexlabeldisplayoption; } set { slopevertexlabeldisplayoption = value; } } #endregion // Static instance. We can't use a real static class, because BuilderPlug must // be instantiated by the core, so we keep a static reference. (this technique // should be familiar to object-oriented programmers) private static BuilderPlug me; // Lines tagged to the selected sectors private static ThreeDFloorEditorWindow tdfew = new ThreeDFloorEditorWindow(); public static ThreeDFloorEditorWindow TDFEW { get { return tdfew; } } // Static property to access the BuilderPlug public static BuilderPlug Me { get { return me; } } // This plugin relies on some functionality that wasn't there in older versions public override int MinimumRevision { get { return 1310; } } // This event is called when the plugin is initialized public override void OnInitialize() { base.OnInitialize(); usehighlight = true; LoadSettings(); slopevertexgroups = new List(); //controlsectorarea = new ControlSectorArea(-512, 0, 512, 0, -128, -64, 128, 64, 64, 56); // This binds the methods in this class that have the BeginAction // and EndAction attributes with their actions. Without this, the // attributes are useless. Note that in classes derived from EditMode // this is not needed, because they are bound automatically when the // editing mode is engaged. General.Actions.BindMethods(this); menusform = new MenusForm(); // TODO: Add DB2 version check so that old DB2 versions won't crash // General.ErrorLogger.Add(ErrorType.Error, "zomg!"); // Keep a static reference me = this; // TMP drawlines = new List(); drawpoints = new List(); } // This is called when the plugin is terminated public override void Dispose() { base.Dispose(); // This must be called to remove bound methods for actions. General.Actions.UnbindMethods(this); } public override void OnMapNewEnd() { base.OnMapNewEnd(); controlsectorarea = new ControlSectorArea(-512, 0, 512, 0, 64, 56); BuilderPlug.Me.ControlSectorArea.LoadConfig(); slopevertexgroups.Clear(); slopedatasector = null; } public override void OnMapOpenEnd() { base.OnMapOpenEnd(); controlsectorarea = new ControlSectorArea(-512, 0, 512, 0, 64, 56); BuilderPlug.Me.ControlSectorArea.LoadConfig(); // Try to find the slope data sector and store slope information in it slopedatasector = GetSlopeDataSector(); if (slopedatasector != null) LoadSlopeVertexGroupsFromSector(); } public override void OnUndoEnd() { base.OnUndoEnd(); // Load slope vertex data from the dummy sector LoadSlopeVertexGroupsFromSector(); } public override void OnRedoEnd() { base.OnRedoEnd(); // Load slope vertex data from the dummy sector LoadSlopeVertexGroupsFromSector(); } public override void OnActionBegin(CodeImp.DoomBuilder.Actions.Action action) { base.OnActionBegin(action); string[] monitoractions = { "buildermodes_raisesector8", "buildermodes_lowersector8", "buildermodes_raisesector1", "buildermodes_lowersector1", "builder_visualedit", "builder_classicedit" }; if (General.Editing.Mode is SlopeMode) return; if (monitoractions.Contains(action.Name)) { updateafteraction = true; updateafteractionname = action.Name; } //else // updateafteraction = false; } public override void OnActionEnd(CodeImp.DoomBuilder.Actions.Action action) { base.OnActionEnd(action); if (!updateafteraction && action.Name != updateafteractionname) return; updateafteraction = false; Dictionary updatesvgs = new Dictionary(); // Find SVGs that needs to be updated, and change the SV z positions foreach (SlopeVertexGroup svg in slopevertexgroups) { bool update = false; Dictionary> newheights = new Dictionary>(); foreach (Sector s in svg.Sectors) { if (s.Fields == null) continue; if ((svg.SectorPlanes[s] & PlaneType.Floor) == PlaneType.Floor) { if (s.Fields.ContainsKey("user_floorplane_id") && s.Fields.GetValue("user_floorplane_id", -1) == svg.Id) { if (svg.Height != s.FloorHeight) { int diff = s.FloorHeight - svg.Height; if (!newheights.ContainsKey(diff)) newheights.Add(diff, new List() { s }); else newheights[diff].Add(s); update = true; //break; } } } if ((svg.SectorPlanes[s] & PlaneType.Ceiling) == PlaneType.Ceiling) { if (s.Fields.ContainsKey("user_ceilingplane_id") && s.Fields.GetValue("user_ceilingplane_id", -1) == svg.Id) { if (svg.Height != s.CeilHeight) { int diff = s.CeilHeight - svg.Height; if (!newheights.ContainsKey(diff)) newheights.Add(diff, new List() { s }); else newheights[diff].Add(s); update = true; //break; } } } } // Debug.WriteLine(String.Format("floordiff: {0} / ceilingdiff: {1} / height: {2}", floordiff, ceilingdiff, svg.Height)); if (update) { if (newheights.Count > 1) Debug.WriteLine(String.Format("Slope: multiple new heights, doing nothing. Your map is fucked!")); else if (!updatesvgs.ContainsKey(svg)) updatesvgs.Add(svg, newheights.First().Key); } } // Update the slopes, and also update the view if in visual mode foreach (SlopeVertexGroup svg in updatesvgs.Keys) { foreach (SlopeVertex sv in svg.Vertices) sv.Z += updatesvgs[svg]; svg.ComputeHeight(); foreach (Sector s in svg.Sectors) UpdateSlopes(s); // Save the updated data in the sector svg.StoreInSector(slopedatasector); if (General.Editing.Mode is BaseVisualMode) { List sectors = new List(); List visualsectors = new List(); BaseVisualMode mode = ((BaseVisualMode)General.Editing.Mode); foreach (Sector s in svg.Sectors) { sectors.Add(s); // Get neighbouring sectors and add them to the list foreach (Sidedef sd in s.Sidedefs) { if (sd.Other != null && !sectors.Contains(sd.Other.Sector)) sectors.Add(sd.Other.Sector); } } foreach (Sector s in svg.TaggedSectors) { if(!sectors.Contains(s)) sectors.Add(s); // Get neighbouring sectors and add them to the list foreach (Sidedef sd in s.Sidedefs) { if (sd.Other != null && !sectors.Contains(sd.Other.Sector)) sectors.Add(sd.Other.Sector); } } foreach (Sector s in sectors) visualsectors.Add(mode.GetVisualSector(s)); foreach (VisualSector vs in visualsectors) vs.UpdateSectorGeometry(true); foreach (VisualSector vs in visualsectors) vs.UpdateSectorData(); } } } public override bool OnModeChange(EditMode oldmode, EditMode newmode) { if (newmode != null && oldmode != null) { if (newmode.GetType().Name == "DragSectorsMode") { foreach (SlopeVertexGroup svg in slopevertexgroups) if (svg.Reposition) svg.GetAnchor(); } else if(oldmode.GetType().Name == "DragSectorsMode") { foreach (SlopeVertexGroup svg in slopevertexgroups) if (svg.Reposition) { svg.RepositionByAnchor(); svg.StoreInSector(slopedatasector); } } } return base.OnModeChange(oldmode, newmode); } // When the Preferences dialog is shown public override void OnShowPreferences(PreferencesController controller) { base.OnShowPreferences(controller); // Load preferences preferencesform = new PreferencesForm(); preferencesform.Setup(controller); } // When the Preferences dialog is closed public override void OnClosePreferences(PreferencesController controller) { base.OnClosePreferences(controller); // Apply settings that could have been changed LoadSettings(); // Unload preferences preferencesform.Dispose(); preferencesform = null; } #region ================== Actions #endregion #region ================== Methods private Sector GetSlopeDataSector() { foreach (Sector s in General.Map.Map.Sectors) { if (s.Fields.GetValue("user_slopedatasector", false) == true) return s; } return null; } public DialogResult ThreeDFloorEditor() { List selectedSectors = new List(General.Map.Map.GetSelectedSectors(true)); if (selectedSectors.Count <= 0 && General.Editing.Mode.HighlightedObject is Sector) selectedSectors.Add((Sector)General.Editing.Mode.HighlightedObject); if (tdfew == null) tdfew = new ThreeDFloorEditorWindow(); tdfew.ThreeDFloors = GetThreeDFloors(selectedSectors); DialogResult result = tdfew.ShowDialog((Form)General.Interface); return result; } // Use the same settings as the BuilderModes plugin private void LoadSettings() { additiveselect = General.Settings.ReadPluginSetting("BuilderModes", "additiveselect", false); additivepaintselect = General.Settings.ReadPluginSetting("BuilderModes", "additivepaintselect", false); highlightrange = General.Settings.ReadPluginSetting("BuilderModes", "highlightrange", 20); autoclearselection = General.Settings.ReadPluginSetting("BuilderModes", "autoclearselection", false); highlightsloperange = (float)General.Settings.ReadPluginSetting("BuilderModes", "highlightthingsrange", 10); stitchrange = (float)General.Settings.ReadPluginSetting("BuilderModes", "stitchrange", 20); slopevertexlabeldisplayoption = (LabelDisplayOption)General.Settings.ReadPluginSetting("slopevertexlabeldisplayoption", (int)LabelDisplayOption.Always); sectorlabeldisplayoption = (LabelDisplayOption)General.Settings.ReadPluginSetting("sectorlabeldisplayoption", (int)LabelDisplayOption.Always); } public void StoreSlopeVertexGroupsInSector() { if (slopedatasector != null && !slopedatasector.IsDisposed) { slopedatasector.Fields.BeforeFieldsChange(); if (!slopedatasector.Fields.ContainsKey("user_slopedatasector")) { slopedatasector.Fields.Add("user_slopedatasector", new UniValue(UniversalType.Boolean, true)); } slopedatasector.Fields["comment"] = new UniValue(UniversalType.String, "[!]DO NOT EDIT OR DELETE! This sector is used by the slope mode for undo/redo operations."); foreach (SlopeVertexGroup svg in slopevertexgroups) svg.StoreInSector(slopedatasector); } } public void LoadSlopeVertexGroupsFromSector() { Regex svgregex = new Regex(@"user_svg(\d+)_v0_x", RegexOptions.IgnoreCase); slopevertexgroups.Clear(); if (slopedatasector == null || slopedatasector.IsDisposed) return; foreach (KeyValuePair kvp in slopedatasector.Fields) { Match svgmatch = svgregex.Match((string)kvp.Key); if (svgmatch.Success) { int svgid = Convert.ToInt32(svgmatch.Groups[1].ToString()); slopevertexgroups.Add(new SlopeVertexGroup(svgid, slopedatasector)); } } General.Map.Map.Update(); } public void UpdateSlopes() { // foreach (Sector s in General.Map.Map.Sectors) // UpdateSlopes(s); foreach (SlopeVertexGroup svg in slopevertexgroups) { foreach (Sector s in svg.Sectors) { if (s != null && !s.IsDisposed) UpdateSlopes(s); } } } public Vector3D CRS(Vector3D p0, Vector3D p1, Vector3D p2, Vector3D p3, float t) { return 0.5f * ((2 * p1) + (-p0 + p2) * t + (2 * p0 - 5 * p1 + 4 * p2 - p3) * (t * t) + (-p0 + 3 * p1 - 3 * p2 + p3) * (t * t * t) ); } public void UpdateSlopes(Sector s) { string[] fieldnames = new string[] { "user_floorplane_id", "user_ceilingplane_id" }; foreach (string fn in fieldnames) { int id = s.Fields.GetValue(fn, -1); if (id == -1) { if (fn == "user_floorplane_id") { s.FloorSlope = new Vector3D(); s.FloorSlopeOffset = 0; } else { s.CeilSlope = new Vector3D(); s.CeilSlopeOffset = 0; } continue; } List sp = new List(); SlopeVertexGroup svg = GetSlopeVertexGroup(id); // If the SVG does not exist unbind the SVG info from this sector if (svg == null) { s.Fields.Remove(fn); continue; } if (svg.Spline) { Vector2D center = new Vector2D(s.BBox.Width / 2 + s.BBox.X, s.BBox.Height / 2 + s.BBox.Y); List splinelines = new List(); List tangents = new List(); sp.Add(new Vector3D(svg.Vertices[1].Pos.x, svg.Vertices[1].Pos.y, svg.Vertices[1].Z)); sp.Add(new Vector3D(svg.Vertices[0].Pos.x, svg.Vertices[0].Pos.y, svg.Vertices[0].Z)); sp.Add(new Vector3D(svg.Vertices[2].Pos.x, svg.Vertices[2].Pos.y, svg.Vertices[2].Z)); sp.Add(new Vector3D(sp[2].x-96, sp[2].y, sp[2].z-64)); sp.Insert(0, new Vector3D(sp[0].x+96, sp[0].y, sp[0].z-64)); //sp.Add(new Vector3D(sp[2] + (sp[2] - sp[1]))); //sp.Insert(0, new Vector3D(sp[0] + (sp[0] - sp[1]))); // Create tangents tangents.Add(new Vector3D()); for (int i = 1; i <= 3; i++) tangents.Add(new Vector3D((sp[i + 1] - sp[i - 1]) / 2.0f)); tangents.Add(new Vector3D()); Debug.Print("----- tangents -----"); for (int i = 0; i < tangents.Count; i++) Debug.Print(tangents[i].ToString()); for(float u=0.0f; u < 1.0f; u += 0.1f) { splinelines.Add(new Line3D( CRS(sp[0], sp[1], sp[2], sp[3], u), CRS(sp[0], sp[1], sp[2], sp[3], u+0.1f) )); /* splinelines.Add(new Line3D( Tools.HermiteSpline(sp[1], tangents[1], sp[2], tangents[2], u), Tools.HermiteSpline(sp[1], tangents[1], sp[2], tangents[2], u+0.1f) ) ); */ } for (float u = 0.0f; u < 1.0f; u += 0.1f) { splinelines.Add(new Line3D( CRS(sp[1], sp[2], sp[3], sp[4], u), CRS(sp[1], sp[2], sp[3], sp[4], u + 0.1f) )); /* splinelines.Add(new Line3D( Tools.HermiteSpline(sp[2], tangents[2], sp[3], tangents[3], u), Tools.HermiteSpline(sp[2], tangents[2], sp[3], tangents[3], u + 0.1f) ) ); */ } drawlines.Clear(); drawlines.AddRange(splinelines); drawpoints.Clear(); drawpoints.AddRange(sp); Line2D sl1 = new Line2D(sp[1], sp[2]); Line2D sl2 = new Line2D(sp[2], sp[3]); List points = new List(); Debug.Print("----- spline lines -----"); foreach(Line3D l in splinelines) Debug.Print(l.Start.ToString() + " / " + l.End.ToString()); foreach (Sidedef sd in s.Sidedefs) { double u = 0.0f; Plane ldplane = new Plane(sd.Line.Start.Position, sd.Line.End.Position, new Vector3D(sd.Line.Start.Position.x, sd.Line.Start.Position.y, 128), true); foreach(Line3D l in splinelines) { if(ldplane.GetIntersection(l.Start, l.End, ref u)) { if (u < 0.0f || u > 1.0f) continue; Vector3D v = (l.End - l.Start) * u + l.Start; points.Add(v); } } /* if(sd.Line.Line.GetIntersection(sl1, out u)) points.Add(Tools.HermiteSpline(sp[1], tangents[1], sp[2], tangents[2], u)); if (sd.Line.Line.GetIntersection(sl2, out u)) points.Add(Tools.HermiteSpline(sp[2], tangents[2], sp[3], tangents[3], u)); */ } if (fn == "user_floorplane_id") { /* s.FloorSlope = new Vector3D(p.a, p.b, p.c); s.FloorSlopeOffset = p.d; */ } else { List ps = new List(); if (points.Count > 2) points.RemoveAt(0); Vector2D perp = new Line2D(points[0], points[1]).GetPerpendicular(); ps.Add(points[0]); ps.Add(points[1]); ps.Add(new Vector3D(points[0].x+perp.x, points[0].y+perp.y, points[0].z)); Debug.Print("----- points -----"); for (int i = 0; i < ps.Count; i++) Debug.Print(ps[i].ToString()); /* for(int i=0; i < ps.Count; i++) { ps[i] = new Vector3D(ps[i].x, ps[i].z, ps[i].y); } */ Debug.Print("-----"); for (int i = 0; i < ps.Count; i++) Debug.Print(ps[i].ToString()); Plane p = new Plane(ps[0], ps[1], ps[2], false); s.CeilSlope = new Vector3D(p.a, p.b, p.c); s.CeilSlopeOffset = p.d; } } else // No spline { for (int i = 0; i < svg.Vertices.Count; i++) { sp.Add(new Vector3D(svg.Vertices[i].Pos.x, svg.Vertices[i].Pos.y, svg.Vertices[i].Z)); } if (svg.Vertices.Count == 2) { double z = sp[0].z; Line2D line = new Line2D(sp[0], sp[1]); Vector3D perpendicular = line.GetPerpendicular(); Vector2D v = sp[0] + perpendicular; sp.Add(new Vector3D(v.x, v.y, z)); } if (fn == "user_floorplane_id") { Plane p = new Plane(sp[0], sp[1], sp[2], true); s.FloorSlope = new Vector3D(p.a, p.b, p.c); s.FloorSlopeOffset = p.d; s.FloorHeight = svg.Height; svg.Height = s.FloorHeight; } else { Plane p = new Plane(sp[0], sp[1], sp[2], false); s.CeilSlope = new Vector3D(p.a, p.b, p.c); s.CeilSlopeOffset = p.d; s.CeilHeight = svg.Height; svg.Height = s.CeilHeight; } } } } public static List GetThreeDFloors(List sectors) { List tdf = new List(); List tmpsectors = new List(); // Immediately return if the list is empty if (sectors.Count == 0) return tdf; foreach (Linedef ld in General.Map.Map.Linedefs) if (ld.Action == 160) foreach (Sector s in sectors) if (s != null && s.Tags.Contains(ld.Args[0]) && !tmpsectors.Contains(ld.Front.Sector)) tmpsectors.Add(ld.Front.Sector); foreach(Sector s in tmpsectors) if(s != null) tdf.Add(new ThreeDFloor(s)); return tdf; } public static void ProcessThreeDFloors(List threedfloors) { ProcessThreeDFloors(threedfloors, null); } public static void ProcessThreeDFloors(List threedfloors, List selectedSectors) { // List selectedSectors = new List(General.Map.Map.GetSelectedSectors(true)); var sectorsByTag = new Dictionary>(); var sectorsToThreeDFloors = new Dictionary>(); var sectorGroups = new List>(); List tagblacklist = new List(); if(selectedSectors == null) selectedSectors = new List(General.Map.Map.GetSelectedSectors(true)); var tmpSelectedSectors = new List(selectedSectors); foreach (ThreeDFloor tdf in GetThreeDFloors(selectedSectors)) { bool add = true; foreach (ThreeDFloor tdf2 in threedfloors) { if (tdf.Sector == tdf2.Sector) { add = false; break; } } if (add) { threedfloors.Add(tdf); } } tmpSelectedSectors = new List(selectedSectors); General.Map.UndoRedo.CreateUndo("Modify 3D floors"); // Create a list of all tags used by the control sectors. This is necessary so that // tags that will be assigned to not yet existing geometry will not be used foreach (ThreeDFloor tdf in threedfloors) foreach (int tag in tdf.Tags) if (!tagblacklist.Contains(tag)) tagblacklist.Add(tag); try { foreach (ThreeDFloor tdf in threedfloors) { if (tdf.Rebuild) tdf.DeleteControlSector(); if (tdf.IsNew || tdf.Rebuild) tdf.CreateGeometry(tagblacklist); tdf.UpdateGeometry(); } } catch (Exception e) { MessageBox.Show(e.Message + "\nPlease increase the size of the control sector area.", "Error", MessageBoxButtons.OK, MessageBoxIcon.Error); General.Map.UndoRedo.WithdrawUndo(); return; } // Fill the sectorsToThreeDFloors dictionary, with a selected sector as key // and a list of all 3D floors, that should be applied to to this sector, as value foreach (Sector s in selectedSectors) { // Multiple tags is actually a UDMF field, so make sure it gets recorded for undo/redo s.Fields.BeforeFieldsChange(); if (!sectorsToThreeDFloors.ContainsKey(s)) sectorsToThreeDFloors.Add(s, new List()); foreach (ThreeDFloor tdf in threedfloors) { if (tdf.TaggedSectors.Contains(s)) sectorsToThreeDFloors[s].Add(tdf); } } // Group all selected sectors by their 3D floors. I.e. each element of sectorGroups // is a list of sectors that have the same 3D floors while (tmpSelectedSectors.Count > 0) { Sector s1 = tmpSelectedSectors.First(); var list = new List(); var delsectors = new List(); foreach (Sector s2 in tmpSelectedSectors) { if (sectorsToThreeDFloors[s1].ContainsAllElements(sectorsToThreeDFloors[s2])) { list.Add(s2); delsectors.Add(s2); } } foreach (Sector s in delsectors) tmpSelectedSectors.Remove(s); tmpSelectedSectors.Remove(s1); sectorGroups.Add(list); } // Bind the 3D floors to the selected sectors foreach (List sectors in sectorGroups) { if (General.Map.UDMF == true) { foreach (Sector s in sectors) { // Remove all tags associated to 3D floors from the sector... foreach (ThreeDFloor tdf in threedfloors) { if (s.Tags.Contains(tdf.UDMFTag)) s.Tags.Remove(tdf.UDMFTag); } // ... and re-add the ones that are still associated foreach (ThreeDFloor tdf in sectorsToThreeDFloors[s]) { if (!s.Tags.Contains(tdf.UDMFTag)) s.Tags.Add(tdf.UDMFTag); } // Remove tag 0 if there are other tags present, or add tag 0 if the sector has no tags if (s.Tags.Count > 1 && s.Tags.Contains(0)) s.Tags.Remove(0); if(s.Tags.Count == 0) s.Tags.Add(0); } } else { int newtag; // Just use sectors.First(), all elements in sectors have the same 3D floors anyway // If there are no 3D floors associated set the tag to 0 if (sectorsToThreeDFloors[sectors.First()].Count == 0) newtag = 0; else try { newtag = BuilderPlug.Me.ControlSectorArea.GetNewSectorTag(tagblacklist); } catch (Exception e) { MessageBox.Show(e.Message + "\nPlease increase the custom tag range.", "Error", MessageBoxButtons.OK, MessageBoxIcon.Error); General.Map.UndoRedo.WithdrawUndo(); return; } foreach (Sector s in sectors) s.Tag = newtag; try { foreach (ThreeDFloor tdf in sectorsToThreeDFloors[sectors.First()]) tdf.BindTag(newtag); } catch (Exception e) { MessageBox.Show(e.Message, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error); General.Map.UndoRedo.WithdrawUndo(); return; } } } // Remove unused tags from the 3D floors foreach (ThreeDFloor tdf in threedfloors) tdf.Cleanup(); } public SlopeVertexGroup AddSlopeVertexGroup(List vertices, out int id) { for (int i = 1; i < int.MaxValue; i++) { if (!slopevertexgroups.Exists(x => x.Id == i)) { SlopeVertexGroup svg = new SlopeVertexGroup(i, (List)vertices); slopevertexgroups.Add(svg); id = i; return svg; } } throw new Exception("No free slope vertex group ids"); } public SlopeVertexGroup GetSlopeVertexGroup(SlopeVertex sv) { foreach (SlopeVertexGroup svg in slopevertexgroups) { if (svg.Vertices.Contains(sv)) return svg; } return null; } public SlopeVertexGroup GetSlopeVertexGroup(int id) { foreach (SlopeVertexGroup svg in slopevertexgroups) { if (svg.Id == id) return svg; } return null; } public SlopeVertexGroup GetSlopeVertexGroup(Sector s) { foreach (SlopeVertexGroup svg in slopevertexgroups) { if (svg.Sectors.Contains(s)) return svg; } return null; } #endregion } public static class ThreeDFloorHelpers { public static List GetSectorsByTag(this MapSet ms, int tag) { List sectors = new List(); foreach (Sector s in ms.Sectors) if (s.Tags.Contains(tag)) sectors.Add(s); return sectors; } public static bool ContainsAllElements(this List list1, List list2) { if (list1.Count != list2.Count) return false; foreach (T i in list1) if (!list2.Contains(i)) return false; return true; } // Taken from http://stackoverflow.com/questions/10816803/finding-next-available-key-in-a-dictionary-or-related-collection // Add item to sortedList (numeric key) to next available key item, and return key public static int AddNext(this SortedList sortedList, T item) { int key = 1; // Make it 0 to start from Zero based index int count = sortedList.Count; int counter = 0; do { if (count == 0) break; int nextKeyInList = sortedList.Keys[counter++]; if (key != nextKeyInList) break; key = nextKeyInList + 1; if (count == 1 || counter == count) break; if (key != sortedList.Keys[counter]) break; } while (true); sortedList.Add(key, item); return key; } } }