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https://git.do.srb2.org/STJr/UltimateZoneBuilder.git
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477 lines
No EOL
12 KiB
C#
477 lines
No EOL
12 KiB
C#
#region ================== Namespaces
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using System;
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using System.Reflection;
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using System.Runtime.Serialization;
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using System.Collections.Generic;
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using System.Text.RegularExpressions;
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using System.Linq;
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using System.Diagnostics;
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using CodeImp.DoomBuilder.Geometry;
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using CodeImp.DoomBuilder.Map;
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using CodeImp.DoomBuilder.Types;
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#endregion
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namespace CodeImp.DoomBuilder.ThreeDFloorMode
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{
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public class SlopeVertexGroup
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{
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#region ================== Variables
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private List<SlopeVertex> vertices;
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private List<Sector> sectors;
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private Dictionary<Sector, PlaneType> sectorplanes;
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private List<Sector> taggedsectors; // For highlighting 3D floors
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private int id;
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private int height;
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private Vertex anchorvertex;
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private Vector2D anchor;
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private bool reposition;
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private bool spline;
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#endregion
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#region ================== Enums
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#endregion
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#region ================== Properties
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public List<SlopeVertex> Vertices { get { return vertices; } set { vertices = value; ComputeHeight(); } }
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public List<Sector> Sectors { get { return sectors; } set { sectors = value; } }
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public Dictionary<Sector, PlaneType> SectorPlanes { get { return sectorplanes; } }
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public List<Sector> TaggedSectors { get { return taggedsectors; } set { taggedsectors = value; } }
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public int Id { get { return id; } }
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public int Height { get { return height; } set { height = value; } }
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public bool Reposition { get { return reposition; } set { reposition = value; } }
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public bool Spline { get { return spline; }set { spline = value; } }
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#endregion
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#region ================== Constructors
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public SlopeVertexGroup(int id, Sector sector)
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{
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List<string> list = new List<string> { "floor", "ceiling" };
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Type type = typeof(SlopeVertexGroup);
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this.id = id;
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sectors = new List<Sector>();
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sectorplanes = new Dictionary<Sector, PlaneType>();
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taggedsectors = new List<Sector>();
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vertices = new List<SlopeVertex>();
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anchorvertex = null;
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// There will always be at least two slope vertices, so add them here
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vertices.Add(new SlopeVertex(sector, id, 0));
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vertices.Add(new SlopeVertex(sector, id, 1));
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// Check if there's a third slope vertex, and add it if there is
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string vertexidentifier = String.Format("user_svg{0}_v2_x", id);
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foreach (KeyValuePair<string, UniValue> kvp in sector.Fields)
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{
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if (kvp.Key == vertexidentifier)
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{
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vertices.Add(new SlopeVertex(sector, id, 2));
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break;
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}
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}
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// Get reposition value
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reposition = sector.Fields.GetValue(String.Format("user_svg{0}_reposition", id), true);
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// Get spline value
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spline = sector.Fields.GetValue(String.Format("user_svg{0}_spline", id), false);
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spline = false;
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ComputeHeight();
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FindSectors();
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}
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public SlopeVertexGroup(int id, List<SlopeVertex> vertices)
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{
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this.vertices = vertices;
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this.id = id;
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sectors = new List<Sector>();
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sectorplanes = new Dictionary<Sector, PlaneType>();
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taggedsectors = new List<Sector>();
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anchorvertex = null;
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height = 0;
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ComputeHeight();
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}
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#endregion
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#region ================== Methods
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public void FindSectors()
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{
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if (sectors == null)
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sectors = new List<Sector>();
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else
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sectors.Clear();
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if (taggedsectors == null)
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taggedsectors = new List<Sector>();
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else
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taggedsectors.Clear();
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sectorplanes.Clear();
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foreach (Sector s in General.Map.Map.Sectors)
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{
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bool onfloor = s.Fields.GetValue("user_floorplane_id", -1) == id;
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bool onceiling = s.Fields.GetValue("user_ceilingplane_id", -1) == id;
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PlaneType pt = 0;
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if (!onfloor && !onceiling)
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continue;
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sectors.Add(s);
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if (onfloor && onceiling)
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pt = PlaneType.Floor | PlaneType.Ceiling;
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else if (onfloor)
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pt = PlaneType.Floor;
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else if (onceiling)
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pt = PlaneType.Ceiling;
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sectorplanes.Add(s, pt);
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GetTaggesSectors(s, pt);
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}
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}
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public void RemovePlanes()
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{
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foreach (Sector s in sectors.ToList())
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{
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RemoveSector(s, this.sectorplanes[s]);
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}
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}
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public void RemoveFromSectors()
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{
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foreach (Sector s in sectors.ToList())
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{
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RemoveSector(s, PlaneType.Floor);
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RemoveSector(s, PlaneType.Ceiling);
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}
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}
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private void GetTaggesSectors(Sector s, PlaneType pt)
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{
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// Check if the current sector is a 3D floor control sector. If that's the case also store the
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// tagged sector(s). They will be used for highlighting in slope mode
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foreach (Sidedef sd in s.Sidedefs)
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{
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if (sd.Line.Action == 160)
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{
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foreach (Sector ts in BuilderPlug.GetSectorsByTag(sd.Line.Args[0]))
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{
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if (!taggedsectors.Contains(ts))
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taggedsectors.Add(ts);
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if(!sectorplanes.ContainsKey(ts))
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sectorplanes.Add(ts, pt);
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}
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}
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}
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}
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public void AddSector(Sector s, PlaneType pt)
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{
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if (sectorplanes.ContainsKey(s))
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{
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pt |= sectorplanes[s];
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sectorplanes.Remove(s);
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}
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if (sectors.Contains(s))
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sectors.Remove(s);
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sectorplanes.Add(s, pt);
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sectors.Add(s);
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GetTaggesSectors(s, pt);
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ApplyToSectors();
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}
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public void RemoveSector(Sector s, PlaneType pt)
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{
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Debug.WriteLine("Removing from Sector " + s.Index.ToString() + ": " + pt.ToString());
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if (sectorplanes.ContainsKey(s))
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{
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if (sectors.Contains(s) && sectorplanes[s] == pt)
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{
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sectors.Remove(s);
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sectorplanes.Remove(s);
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}
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else
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sectorplanes[s] &= ~pt;
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}
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if ((pt & PlaneType.Floor) == PlaneType.Floor)
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{
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s.FloorSlope = new Vector3D();
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s.FloorSlopeOffset = 0;
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s.Fields.Remove("user_floorplane_id");
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}
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if ((pt & PlaneType.Ceiling) == PlaneType.Ceiling)
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{
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s.CeilSlope = new Vector3D();
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s.CeilSlopeOffset = 0;
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s.Fields.Remove("user_ceilingplane_id");
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}
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}
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public void RemoveUndoRedoUDMFFields(Sector s)
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{
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string fieldname = "";
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string[] comp = new string[] { "x", "y", "z" };
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if (s == null || s.IsDisposed)
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return;
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s.Fields.BeforeFieldsChange();
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for (int i = 0; i < 3; i++)
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{
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foreach (string c in comp)
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{
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fieldname = string.Format("user_svg{0}_v{1}_{2}", id, i, c);
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if (s.Fields.ContainsKey(fieldname))
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s.Fields.Remove(fieldname);
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}
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}
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// Remove reposition field
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fieldname = string.Format("user_svg{0}_reposition", id);
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if (s.Fields.ContainsKey(fieldname))
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s.Fields.Remove(fieldname);
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}
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public void ApplyToSectors()
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{
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List<Sector> removesectors = new List<Sector>();
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ComputeHeight();
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foreach (Sector s in sectors)
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{
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bool hasplane = false;
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if (sectorplanes.ContainsKey(s) && (sectorplanes[s] & PlaneType.Floor) == PlaneType.Floor)
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{
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hasplane = true;
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if (s.Fields.ContainsKey("user_floorplane_id"))
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s.Fields["user_floorplane_id"] = new UniValue(UniversalType.Integer, id);
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else
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s.Fields.Add("user_floorplane_id", new UniValue(UniversalType.Integer, id));
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}
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else if (s.Fields.ContainsKey("user_floorplane_id") && s.Fields.GetValue("user_floorplane_id", -1) == id)
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{
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s.Fields.Remove("user_floorplane_id");
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}
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if (sectorplanes.ContainsKey(s) && (sectorplanes[s] & PlaneType.Ceiling) == PlaneType.Ceiling)
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{
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hasplane = true;
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if (s.Fields.ContainsKey("user_ceilingplane_id"))
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s.Fields["user_ceilingplane_id"] = new UniValue(UniversalType.Integer, id);
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else
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s.Fields.Add("user_ceilingplane_id", new UniValue(UniversalType.Integer, id));
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}
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else if (s.Fields.ContainsKey("user_ceilingplane_id") && s.Fields.GetValue("user_ceilingplane_id", -1) == id)
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{
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s.Fields.Remove("user_ceilingplane_id");
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}
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if (!hasplane)
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removesectors.Add(s);
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}
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foreach (Sector s in removesectors)
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sectors.Remove(s);
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foreach (Sector s in sectors)
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BuilderPlug.Me.UpdateSlopes(s);
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}
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public void StoreInSector(Sector sector)
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{
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// Make sure the field work with undo/redo
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sector.Fields.BeforeFieldsChange();
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// Also store all slope vertices in the sector
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for (int i = 0; i < vertices.Count; i++)
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vertices[i].StoreInSector(sector, id, i);
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string identifier = String.Format("user_svg{0}_reposition", id);
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// Add, update, or delete the reposition field
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if (reposition)
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{
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//default action
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if (sector.Fields.ContainsKey(identifier))
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sector.Fields.Remove(identifier);
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}
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else
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{
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if (sector.Fields.ContainsKey(identifier))
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sector.Fields[identifier] = new UniValue(UniversalType.Boolean, reposition);
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else
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sector.Fields.Add(identifier, new UniValue(UniversalType.Boolean, reposition));
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}
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// Spline
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identifier = String.Format("user_svg{0}_spline", id);
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if (!spline && sector.Fields.ContainsKey(identifier))
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sector.Fields.Remove(identifier);
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else if (spline)
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{
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if (sector.Fields.ContainsKey(identifier))
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sector.Fields[identifier] = new UniValue(UniversalType.Boolean, spline);
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else
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sector.Fields.Add(identifier, new UniValue(UniversalType.Boolean, spline));
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}
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}
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public void SelectVertices(bool select)
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{
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foreach (SlopeVertex sv in vertices)
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sv.Selected = select;
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}
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public bool GetAnchor()
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{
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anchorvertex = null;
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if (sectors.Count == 0)
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return false;
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// Try to find a sector that contains a SV
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/*
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foreach (Sector s in sectors)
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{
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foreach (SlopeVertex sv in vertices)
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{
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if (s.Intersect(sv.Pos))
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{
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anchorvertex = s.Sidedefs.First().Line.Start;
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anchor = new Vector2D(anchorvertex.Position);
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return true;
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}
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}
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}
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*/
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// Just grab the next best vertex
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foreach (Sector s in sectors)
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{
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foreach (Sidedef sd in s.Sidedefs)
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{
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anchorvertex = sd.Line.Start;
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anchor = new Vector2D(anchorvertex.Position);
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return true;
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}
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}
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return false;
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}
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public void RepositionByAnchor()
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{
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if (anchorvertex == null || !reposition)
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return;
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Vector2D diff = anchorvertex.Position - anchor;
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if (diff.x == 0.0f && diff.y == 0.0f)
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return;
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foreach (SlopeVertex sv in vertices)
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{
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sv.Pos += diff;
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}
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anchorvertex = null;
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}
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public void ComputeHeight()
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{
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List<Vector3D> sp = new List<Vector3D>();
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for (int i = 0; i < vertices.Count; i++)
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{
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sp.Add(new Vector3D(vertices[i].Pos.x, vertices[i].Pos.y,vertices[i].Z));
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}
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if (vertices.Count == 2)
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{
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double z = sp[0].z;
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Line2D line = new Line2D(sp[0], sp[1]);
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Vector3D perpendicular = line.GetPerpendicular();
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Vector2D v = sp[0] + perpendicular;
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sp.Add(new Vector3D(v.x, v.y, z));
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}
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Plane p = new Plane(sp[0], sp[1], sp[2], true);
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double fheight = p.GetZ(GetCircumcenter(sp));
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// If something went wrong with computing the height use the height
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// of the first vertex as a workaround
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if (double.IsNaN(fheight))
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height = Convert.ToInt32(sp[0].z);
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else
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height = Convert.ToInt32(fheight);
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}
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private Vector2D GetCircumcenter(List<Vector3D> points)
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{
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double u_ray;
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Line2D line1 = new Line2D(points[0], points[1]);
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Line2D line2 = new Line2D(points[2], points[0]);
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// Perpendicular bisectors
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Line2D bisector1 = new Line2D(line1.GetCoordinatesAt(0.5f), line1.GetCoordinatesAt(0.5f) + line1.GetPerpendicular());
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Line2D bisector2 = new Line2D(line2.GetCoordinatesAt(0.5f), line2.GetCoordinatesAt(0.5f) + line2.GetPerpendicular());
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bisector1.GetIntersection(bisector2, out u_ray);
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return bisector1.GetCoordinatesAt(u_ray);
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}
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public bool VerticesAreValid()
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{
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if (vertices.Count == 2 && vertices[0].Pos == vertices[1].Pos)
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return false;
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if (vertices.Count == 3)
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{
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double side = Line2D.GetSideOfLine(vertices[0].Pos, vertices[1].Pos, vertices[3].Pos);
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if (side == 0.0f)
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return false;
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}
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return true;
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}
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#endregion
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}
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} |