228 lines
6.6 KiB
C#
228 lines
6.6 KiB
C#
#region Copyright & License Information
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/*
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* Copyright 2007-2020 The OpenRA Developers (see AUTHORS)
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* This file is part of OpenRA, which is free software. It is made
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* available to you under the terms of the GNU General Public License
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* as published by the Free Software Foundation, either version 3 of
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* the License, or (at your option) any later version. For more
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* information, see COPYING.
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*/
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#endregion
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using System;
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using System.Collections.Generic;
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using System.IO;
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using OpenRA.Primitives;
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namespace OpenRA.Graphics
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{
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public sealed class TerrainSpriteLayer : IDisposable
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{
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static readonly int[] CornerVertexMap = { 0, 1, 2, 2, 3, 0 };
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public readonly BlendMode BlendMode;
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readonly Sheet[] sheets;
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readonly Sprite emptySprite;
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readonly IVertexBuffer<Vertex> vertexBuffer;
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readonly Vertex[] vertices;
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readonly bool[] ignoreTint;
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readonly HashSet<int> dirtyRows = new HashSet<int>();
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readonly int rowStride;
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readonly bool restrictToBounds;
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readonly WorldRenderer worldRenderer;
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readonly Map map;
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readonly PaletteReference[] palettes;
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public TerrainSpriteLayer(World world, WorldRenderer wr, Sprite emptySprite, BlendMode blendMode, bool restrictToBounds)
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{
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worldRenderer = wr;
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this.restrictToBounds = restrictToBounds;
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this.emptySprite = emptySprite;
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sheets = new Sheet[SpriteRenderer.SheetCount];
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BlendMode = blendMode;
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map = world.Map;
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rowStride = 6 * map.MapSize.X;
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vertices = new Vertex[rowStride * map.MapSize.Y];
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palettes = new PaletteReference[map.MapSize.X * map.MapSize.Y];
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vertexBuffer = Game.Renderer.Context.CreateVertexBuffer(vertices.Length);
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wr.PaletteInvalidated += UpdatePaletteIndices;
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if (wr.TerrainLighting != null)
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{
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ignoreTint = new bool[rowStride * map.MapSize.Y];
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wr.TerrainLighting.CellChanged += UpdateTint;
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}
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}
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void UpdatePaletteIndices()
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{
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for (var i = 0; i < vertices.Length; i++)
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{
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var v = vertices[i];
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var p = palettes[i / 6]?.TextureIndex ?? 0;
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vertices[i] = new Vertex(v.X, v.Y, v.Z, v.S, v.T, v.U, v.V, p, v.C, v.R, v.G, v.B, v.A);
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}
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for (var row = 0; row < map.MapSize.Y; row++)
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dirtyRows.Add(row);
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}
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public void Clear(CPos cell)
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{
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Update(cell, null, null, 1f, 1f, true);
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}
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public void Update(CPos cell, ISpriteSequence sequence, PaletteReference palette, int frame)
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{
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Update(cell, sequence.GetSprite(frame), palette, sequence.Scale, sequence.GetAlpha(frame), sequence.IgnoreWorldTint);
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}
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public void Update(CPos cell, Sprite sprite, PaletteReference palette, float scale = 1f, float alpha = 1f, bool ignoreTint = false)
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{
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var xyz = float3.Zero;
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if (sprite != null)
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{
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var cellOrigin = map.CenterOfCell(cell) - new WVec(0, 0, map.Grid.Ramps[map.Ramp[cell]].CenterHeightOffset);
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xyz = worldRenderer.Screen3DPosition(cellOrigin) + scale * (sprite.Offset - 0.5f * sprite.Size);
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}
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Update(cell.ToMPos(map.Grid.Type), sprite, palette, xyz, scale, alpha, ignoreTint);
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}
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void UpdateTint(MPos uv)
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{
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var offset = rowStride * uv.V + 6 * uv.U;
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if (ignoreTint[offset])
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{
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for (var i = 0; i < 6; i++)
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{
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var v = vertices[offset + i];
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vertices[offset + i] = new Vertex(v.X, v.Y, v.Z, v.S, v.T, v.U, v.V, v.P, v.C, v.A * float3.Ones, v.A);
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}
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return;
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}
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// Allow the terrain tint to vary linearly across the cell to smooth out the staircase effect
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// This is done by sampling the lighting the corners of the sprite, even though those pixels are
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// transparent for isometric tiles
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var tl = worldRenderer.TerrainLighting;
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var pos = map.CenterOfCell(uv.ToCPos(map));
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var step = map.Grid.Type == MapGridType.RectangularIsometric ? 724 : 512;
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var weights = new[]
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{
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tl.TintAt(pos + new WVec(-step, -step, 0)),
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tl.TintAt(pos + new WVec(step, -step, 0)),
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tl.TintAt(pos + new WVec(step, step, 0)),
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tl.TintAt(pos + new WVec(-step, step, 0))
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};
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// Apply tint directly to the underlying vertices
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// This saves us from having to re-query the sprite information, which has not changed
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for (var i = 0; i < 6; i++)
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{
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var v = vertices[offset + i];
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vertices[offset + i] = new Vertex(v.X, v.Y, v.Z, v.S, v.T, v.U, v.V, v.P, v.C, v.A * weights[CornerVertexMap[i]], v.A);
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}
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dirtyRows.Add(uv.V);
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}
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int GetOrAddSheetIndex(Sheet sheet)
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{
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if (sheet == null)
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return 0;
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for (var i = 0; i < sheets.Length; i++)
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{
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if (sheets[i] == sheet)
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return i;
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if (sheets[i] == null)
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{
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sheets[i] = sheet;
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return i;
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}
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}
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throw new InvalidDataException("Sheet overflow");
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}
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public void Update(MPos uv, Sprite sprite, PaletteReference palette, in float3 pos, float scale, float alpha, bool ignoreTint)
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{
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int2 samplers;
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if (sprite != null)
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{
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if (sprite.BlendMode != BlendMode)
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throw new InvalidDataException("Attempted to add sprite with a different blend mode");
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samplers = new int2(GetOrAddSheetIndex(sprite.Sheet), GetOrAddSheetIndex((sprite as SpriteWithSecondaryData)?.SecondarySheet));
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}
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else
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{
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sprite = emptySprite;
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samplers = int2.Zero;
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}
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// The vertex buffer does not have geometry for cells outside the map
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if (!map.Tiles.Contains(uv))
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return;
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var offset = rowStride * uv.V + 6 * uv.U;
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Util.FastCreateQuad(vertices, pos, sprite, samplers, palette?.TextureIndex ?? 0, offset, scale * sprite.Size, alpha * float3.Ones, alpha);
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palettes[uv.V * map.MapSize.X + uv.U] = palette;
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if (worldRenderer.TerrainLighting != null)
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{
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this.ignoreTint[offset] = ignoreTint;
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UpdateTint(uv);
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}
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dirtyRows.Add(uv.V);
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}
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public void Draw(Viewport viewport)
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{
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var cells = restrictToBounds ? viewport.VisibleCellsInsideBounds : viewport.AllVisibleCells;
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// Only draw the rows that are visible.
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var firstRow = cells.CandidateMapCoords.TopLeft.V.Clamp(0, map.MapSize.Y);
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var lastRow = (cells.CandidateMapCoords.BottomRight.V + 1).Clamp(firstRow, map.MapSize.Y);
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Game.Renderer.Flush();
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// Flush any visible changes to the GPU
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for (var row = firstRow; row <= lastRow; row++)
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{
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if (!dirtyRows.Remove(row))
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continue;
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var rowOffset = rowStride * row;
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vertexBuffer.SetData(vertices, rowOffset, rowOffset, rowStride);
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}
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Game.Renderer.WorldSpriteRenderer.DrawVertexBuffer(
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vertexBuffer, rowStride * firstRow, rowStride * (lastRow - firstRow),
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PrimitiveType.TriangleList, sheets, BlendMode);
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Game.Renderer.Flush();
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}
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public void Dispose()
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{
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worldRenderer.PaletteInvalidated -= UpdatePaletteIndices;
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if (worldRenderer.TerrainLighting != null)
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worldRenderer.TerrainLighting.CellChanged -= UpdateTint;
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vertexBuffer.Dispose();
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}
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}
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}
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