mirror of
https://mirror.ghproxy.com/https://github.com/dexyfex/CodeWalker
synced 2024-11-05 14:47:22 +08:00
291 lines
9.6 KiB
C#
291 lines
9.6 KiB
C#
using CodeWalker.GameFiles;
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using SharpDX;
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using System;
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using System.Collections.Generic;
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using System.Text;
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namespace CodeWalker.World
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{
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public class Watermaps : BasePathData
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{
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public volatile bool Inited = false;
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public GameFileCache GameFileCache;
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public List<WatermapFile> WatermapFiles = new List<WatermapFile>();
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public Vector4[] GetNodePositions()
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{
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return NodePositions;
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}
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public EditorVertex[] GetPathVertices()
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{
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return null;
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}
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public EditorVertex[] GetTriangleVertices()
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{
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return TriangleVerts;
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}
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public Vector4[] NodePositions;
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public EditorVertex[] TriangleVerts;
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public void Init(GameFileCache gameFileCache, Action<string> updateStatus)
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{
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Inited = false;
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GameFileCache = gameFileCache;
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WatermapFiles.Clear();
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LoadWatermap("common.rpf\\data\\levels\\gta5\\waterheight.dat");
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BuildVertices();
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Inited = true;
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}
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private void LoadWatermap(string filename)
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{
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var wmf = GameFileCache.RpfMan.GetFile<WatermapFile>(filename);
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WatermapFiles.Add(wmf);
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}
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public void BuildVertices()
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{
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var vlist = new List<EditorVertex>();
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var nlist = new List<Vector4>();
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foreach (var wmf in WatermapFiles)
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{
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BuildWatermapVertices(wmf, vlist, nlist);
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}
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if (vlist.Count > 0)
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{
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TriangleVerts = vlist.ToArray();
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}
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else
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{
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TriangleVerts = null;
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}
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if (nlist.Count > 0)
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{
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NodePositions = nlist.ToArray();
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}
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else
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{
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NodePositions = null;
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}
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}
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private void BuildWatermapVertices(WatermapFile wmf, List<EditorVertex> vl, List<Vector4> nl)
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{
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var v1 = new EditorVertex();
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var v2 = new EditorVertex();
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var v3 = new EditorVertex();
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var v4 = new EditorVertex();
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uint cblu = (uint)new Color(0, 0, 128, 60).ToRgba();
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float getHeight(int o)
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{
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var harr = wmf.GridWatermapRefs[o];
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if (harr == null) return 0;
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if (harr.Length == 0) return 0;
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var h0 = harr[0];
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var i0 = h0.Item;
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if (h0.Type == WatermapFile.WaterItemType.River)
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{
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return h0.Vector.Z;
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}
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if (h0.Type == WatermapFile.WaterItemType.Lake)
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{
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if (i0 != null) return i0.Position.Z;
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}
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if (h0.Type == WatermapFile.WaterItemType.Pool)
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{
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if (i0 != null) return i0.Position.Z;
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}
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return h0.Vector.Z;
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}
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uint getColour(int o)
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{
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var harr = wmf.GridWatermapRefs[o];
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if (harr == null) return cblu;
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if (harr.Length == 0) return cblu;
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var i0 = harr[0].Item;
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if (i0 == null) return cblu;
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var c = i0.Colour;
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c.A = 128;
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return (uint)c.ToRgba();
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}
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var w = wmf.Width;
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var h = wmf.Height;
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var min = new Vector3(wmf.CornerX, wmf.CornerY, 0.0f);
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var step = new Vector3(wmf.TileX, -wmf.TileY, 1.0f);
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//var siz = new Vector3(w, h, 1) * step;
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for (int yi = 1; yi < h; yi++)
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{
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var yo = yi - 1;
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for (int xi = 1; xi < w; xi++)
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{
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var xo = xi - 1;
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var o1 = yi * w + xo;
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var o2 = yi * w + xi;
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var o3 = yo * w + xo;
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var o4 = yo * w + xi;
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v1.Position = min + step * new Vector3(xo, yi, getHeight(o1));
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v2.Position = min + step * new Vector3(xi, yi, getHeight(o2));
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v3.Position = min + step * new Vector3(xo, yo, getHeight(o3));
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v4.Position = min + step * new Vector3(xi, yo, getHeight(o4));
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v1.Colour = getColour(o1);
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v2.Colour = getColour(o2);
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v3.Colour = getColour(o3);
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v4.Colour = getColour(o4);
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//vl.Add(v1); vl.Add(v2); vl.Add(v3);
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//vl.Add(v3); vl.Add(v2); vl.Add(v4);
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}
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}
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//for (int y = 0; y < h; y++)
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//{
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// for (int x = 0; x < w; x++)
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// {
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// var o = y * w + x;
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// nl.Add(new Vector4(min + step * new Vector3(x, y, getHeight(o)), 10));
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// }
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//}
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void addQuad(Quad q)
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{
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v1.Position = q.P1;
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v2.Position = q.P2;
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v3.Position = q.P3;
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v4.Position = q.P4;
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vl.Add(v1); vl.Add(v2); vl.Add(v3);
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vl.Add(v3); vl.Add(v2); vl.Add(v4);
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}
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void addRivEnd(Vector3 p, Vector3 s, Vector3 d, float r)
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{
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v1.Position = p;
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v2.Position = p + s * r;
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v3.Position = p + d * r;
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v4.Position = p - s * r;
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vl.Add(v1); vl.Add(v2); vl.Add(v3);
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vl.Add(v1); vl.Add(v3); vl.Add(v4);
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}
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var rivers = wmf.Rivers;
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if (rivers != null)
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{
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foreach (var river in rivers)
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{
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if ((river.Vectors == null) || (river.VectorCount <= 1))
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{ continue; }
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var rwid = 20.0f;
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var rc = river.Colour;
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rc.A = 128;
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v1.Colour = v2.Colour = v3.Colour = v4.Colour = (uint)rc.ToRgba();
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var quads = new Quad[river.Vectors.Length - 1];
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var li = river.Vectors.Length - 1;
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for (int i = 1; i < river.Vectors.Length; i++)
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{
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var o = i - 1;
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var vo = river.Vectors[o];
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var vi = river.Vectors[i];
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var dif = vi.XYZ() - vo.XYZ();
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var dir = Vector3.Normalize(dif);
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var sid = Vector3.Normalize(Vector3.Cross(dir, Vector3.UnitZ));
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if (Math.Abs(dir.Z) > 0.95f)
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{
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dir = Vector3.UnitY;
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sid = Vector3.UnitX;
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}
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quads[o].P1 = vo.XYZ() - sid*rwid;
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quads[o].P2 = vo.XYZ() + sid*rwid;
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quads[o].P3 = vi.XYZ() - sid*rwid;
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quads[o].P4 = vi.XYZ() + sid*rwid;
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if (i == 1) addRivEnd(vo.XYZ(), -sid, -dir, rwid);
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if (i == li) addRivEnd(vi.XYZ(), sid, dir, rwid);
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}
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for (int i = 1; i < quads.Length; i++)
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{
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var o = i - 1;
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quads[o].P3 = quads[i].P1 = (quads[o].P3 + quads[i].P1) * 0.5f;
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quads[o].P4 = quads[i].P2 = (quads[o].P4 + quads[i].P2) * 0.5f;
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}
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for (int i = 0; i < quads.Length; i++)
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{
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addQuad(quads[i]);
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}
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}
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}
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var lakes = wmf.Lakes;
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if (lakes != null)
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{
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foreach (var lake in lakes)
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{
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if ((lake.Vectors == null) || (lake.VectorCount == 0))
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{ continue; }
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var lp = lake.Position;
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var lc = lake.Colour;
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lc.A = 128;
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v1.Colour = v2.Colour = v3.Colour = v4.Colour = (uint)lc.ToRgba();
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for (int i = 0; i < lake.Vectors.Length; i++)
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{
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var vi = lake.Vectors[i];
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var vp = new Vector3(vi.X, vi.Y, lp.Z);
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var q = new Quad();
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q.P1 = vp + new Vector3(vi.Z, -vi.W, 0);
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q.P2 = vp + new Vector3(vi.Z, vi.W, 0);
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q.P3 = vp + new Vector3(-vi.Z, -vi.W, 0);
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q.P4 = vp + new Vector3(-vi.Z, vi.W, 0);
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addQuad(q);
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}
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}
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}
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var pools = wmf.Pools;
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if (pools != null)
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{
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foreach (var pool in pools)
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{
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var pp = pool.Position;
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var ps = pool.Size;
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var pc = pool.Colour;
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pc.A = 128;
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v1.Colour = v2.Colour = v3.Colour = v4.Colour = (uint)pc.ToRgba();
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var q = new Quad();
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q.P1 = pp + new Vector3(ps.X, -ps.Y, 0);
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q.P2 = pp + new Vector3(ps.X, ps.Y, 0);
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q.P3 = pp + new Vector3(-ps.X, -ps.Y, 0);
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q.P4 = pp + new Vector3(-ps.X, ps.Y, 0);
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addQuad(q);
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}
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}
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}
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struct Quad
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{
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public Vector3 P1;
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public Vector3 P2;
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public Vector3 P3;
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public Vector3 P4;
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}
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}
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}
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