Initial update to OpenSim 0.8.2.1 source code.

author: David Walter Seikel 2016-11-03 21:44:39 +1000
committer: David Walter Seikel 2016-11-03 21:44:39 +1000
commit: 134f86e8d5c414409631b25b8c6f0ee45fbd8631 (patch)
tree: 216b89d3fb89acfb81be1e440c25c41ab09fa96d /OpenSim/Region/PhysicsModules/BulletS/BSTerrainMesh.cs
parent: More changing to production grid. Double oops. (diff)
download: opensim-SC_OLD-134f86e8d5c414409631b25b8c6f0ee45fbd8631.zip
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1 files changed, 440 insertions, 0 deletions
diff --git a/OpenSim/Region/PhysicsModules/BulletS/BSTerrainMesh.cs b/OpenSim/Region/PhysicsModules/BulletS/BSTerrainMesh.cs
new file mode 100755
index 0000000..cd59b65
--- /dev/null
+++ b/OpenSim/Region/PhysicsModules/BulletS/BSTerrainMesh.cs
@@ -0,0 +1,440 @@
+/*
+ * Copyright (c) Contributors, http://opensimulator.org/
+ * See CONTRIBUTORS.TXT for a full list of copyright holders.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ *     * Redistributions of source code must retain the above copyright
+ *       notice, this list of conditions and the following disclaimer.
+ *     * Redistributions in binary form must reproduce the above copyrightD
+ *       notice, this list of conditions and the following disclaimer in the
+ *       documentation and/or other materials provided with the distribution.
+ *     * Neither the name of the OpenSimulator Project nor the
+ *       names of its contributors may be used to endorse or promote products
+ *       derived from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY
+ * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
+ * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ * DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
+ * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
+ * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
+ * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
+ * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
+ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+using System;
+using System.Collections.Generic;
+using System.Text;
+using OpenSim.Framework;
+using OpenSim.Region.Framework;
+using OpenSim.Region.PhysicsModules.SharedBase;
+using Nini.Config;
+using log4net;
+using OpenMetaverse;
+namespace OpenSim.Region.PhysicsModule.BulletS
+{
+public sealed class BSTerrainMesh : BSTerrainPhys
+{
+    static string LogHeader = "[BULLETSIM TERRAIN MESH]";
+    private float[] m_savedHeightMap;
+    int m_sizeX;
+    int m_sizeY;
+    BulletShape m_terrainShape;
+    BulletBody m_terrainBody;
+    public BSTerrainMesh(BSScene physicsScene, Vector3 regionBase, uint id, Vector3 regionSize)
+        : base(physicsScene, regionBase, id)
+    {
+    }
+    public BSTerrainMesh(BSScene physicsScene, Vector3 regionBase, uint id /* parameters for making mesh */)
+        : base(physicsScene, regionBase, id)
+    {
+    }
+    // Create terrain mesh from a heightmap.
+    public BSTerrainMesh(BSScene physicsScene, Vector3 regionBase, uint id, float[] initialMap,
+                                                    Vector3 minCoords, Vector3 maxCoords)
+        : base(physicsScene, regionBase, id)
+    {
+        int indicesCount;
+        int[] indices;
+        int verticesCount;
+        float[] vertices;
+        m_savedHeightMap = initialMap;
+        m_sizeX = (int)(maxCoords.X - minCoords.X);
+        m_sizeY = (int)(maxCoords.Y - minCoords.Y);
+        bool meshCreationSuccess = false;
+        if (BSParam.TerrainMeshMagnification == 1)
+        {
+            // If a magnification of one, use the old routine that is tried and true.
+            meshCreationSuccess = BSTerrainMesh.ConvertHeightmapToMesh(m_physicsScene,
+                                            initialMap, m_sizeX, m_sizeY,       // input size
+                                            Vector3.Zero,                       // base for mesh
+                                            out indicesCount, out indices, out verticesCount, out vertices);
+        }
+        else
+        {
+            // Other magnifications use the newer routine
+            meshCreationSuccess = BSTerrainMesh.ConvertHeightmapToMesh2(m_physicsScene,
+                                            initialMap, m_sizeX, m_sizeY,       // input size
+                                            BSParam.TerrainMeshMagnification,
+                                            physicsScene.TerrainManager.DefaultRegionSize,
+                                            Vector3.Zero,                       // base for mesh
+                                            out indicesCount, out indices, out verticesCount, out vertices);
+        }
+        if (!meshCreationSuccess)
+        {
+            // DISASTER!!
+            m_physicsScene.DetailLog("{0},BSTerrainMesh.create,failedConversionOfHeightmap,id={1}", BSScene.DetailLogZero, ID);
+            m_physicsScene.Logger.ErrorFormat("{0} Failed conversion of heightmap to mesh! base={1}", LogHeader, TerrainBase);
+            // Something is very messed up and a crash is in our future.
+            return;
+        }
+        m_physicsScene.DetailLog("{0},BSTerrainMesh.create,meshed,id={1},indices={2},indSz={3},vertices={4},vertSz={5}",
+                                BSScene.DetailLogZero, ID, indicesCount, indices.Length, verticesCount, vertices.Length);
+        m_terrainShape = m_physicsScene.PE.CreateMeshShape(m_physicsScene.World, indicesCount, indices, verticesCount, vertices);
+        if (!m_terrainShape.HasPhysicalShape)
+        {
+            // DISASTER!!
+            m_physicsScene.DetailLog("{0},BSTerrainMesh.create,failedCreationOfShape,id={1}", BSScene.DetailLogZero, ID);
+            m_physicsScene.Logger.ErrorFormat("{0} Failed creation of terrain mesh! base={1}", LogHeader, TerrainBase);
+            // Something is very messed up and a crash is in our future.
+            return;
+        }
+        Vector3 pos = regionBase;
+        Quaternion rot = Quaternion.Identity;
+        m_terrainBody = m_physicsScene.PE.CreateBodyWithDefaultMotionState(m_terrainShape, ID, pos, rot);
+        if (!m_terrainBody.HasPhysicalBody)
+        {
+            // DISASTER!!
+            m_physicsScene.Logger.ErrorFormat("{0} Failed creation of terrain body! base={1}", LogHeader, TerrainBase);
+            // Something is very messed up and a crash is in our future.
+            return;
+        }
+        physicsScene.PE.SetShapeCollisionMargin(m_terrainShape, BSParam.TerrainCollisionMargin);
+        // Set current terrain attributes
+        m_physicsScene.PE.SetFriction(m_terrainBody, BSParam.TerrainFriction);
+        m_physicsScene.PE.SetHitFraction(m_terrainBody, BSParam.TerrainHitFraction);
+        m_physicsScene.PE.SetRestitution(m_terrainBody, BSParam.TerrainRestitution);
+        m_physicsScene.PE.SetContactProcessingThreshold(m_terrainBody, BSParam.TerrainContactProcessingThreshold);
+        m_physicsScene.PE.SetCollisionFlags(m_terrainBody, CollisionFlags.CF_STATIC_OBJECT);
+        // Static objects are not very massive.
+        m_physicsScene.PE.SetMassProps(m_terrainBody, 0f, Vector3.Zero);
+        // Put the new terrain to the world of physical objects
+        m_physicsScene.PE.AddObjectToWorld(m_physicsScene.World, m_terrainBody);
+        // Redo its bounding box now that it is in the world
+        m_physicsScene.PE.UpdateSingleAabb(m_physicsScene.World, m_terrainBody);
+        m_terrainBody.collisionType = CollisionType.Terrain;
+        m_terrainBody.ApplyCollisionMask(m_physicsScene);
+        if (BSParam.UseSingleSidedMeshes)
+        {
+            m_physicsScene.DetailLog("{0},BSTerrainMesh.settingCustomMaterial,id={1}", BSScene.DetailLogZero, id);
+            m_physicsScene.PE.AddToCollisionFlags(m_terrainBody, CollisionFlags.CF_CUSTOM_MATERIAL_CALLBACK);
+        }
+        // Make it so the terrain will not move or be considered for movement.
+        m_physicsScene.PE.ForceActivationState(m_terrainBody, ActivationState.DISABLE_SIMULATION);
+    }
+    public override void Dispose()
+    {
+        if (m_terrainBody.HasPhysicalBody)
+        {
+            m_physicsScene.PE.RemoveObjectFromWorld(m_physicsScene.World, m_terrainBody);
+            // Frees both the body and the shape.
+            m_physicsScene.PE.DestroyObject(m_physicsScene.World, m_terrainBody);
+            m_terrainBody.Clear();
+            m_terrainShape.Clear();
+        }
+    }
+    public override float GetTerrainHeightAtXYZ(Vector3 pos)
+    {
+        // For the moment use the saved heightmap to get the terrain height.
+        // TODO: raycast downward to find the true terrain below the position.
+        float ret = BSTerrainManager.HEIGHT_GETHEIGHT_RET;
+        int mapIndex = (int)pos.Y * m_sizeY + (int)pos.X;
+        try
+        {
+            ret = m_savedHeightMap[mapIndex];
+        }
+        catch
+        {
+            // Sometimes they give us wonky values of X and Y. Give a warning and return something.
+            m_physicsScene.Logger.WarnFormat("{0} Bad request for terrain height. terrainBase={1}, pos={2}",
+                                                LogHeader, TerrainBase, pos);
+            ret = BSTerrainManager.HEIGHT_GETHEIGHT_RET;
+        }
+        return ret;
+    }
+    // The passed position is relative to the base of the region.
+    public override float GetWaterLevelAtXYZ(Vector3 pos)
+    {
+        return m_physicsScene.SimpleWaterLevel;
+    }
+    // Convert the passed heightmap to mesh information suitable for CreateMeshShape2().
+    // Return 'true' if successfully created.
+    public static bool ConvertHeightmapToMesh( BSScene physicsScene,
+                                float[] heightMap, int sizeX, int sizeY,    // parameters of incoming heightmap
+                                Vector3 extentBase,                         // base to be added to all vertices
+                                out int indicesCountO, out int[] indicesO,
+                                out int verticesCountO, out float[] verticesO)
+    {
+        bool ret = false;
+        int indicesCount = 0;
+        int verticesCount = 0;
+        int[] indices = new int[0];
+        float[] vertices = new float[0];
+        // Simple mesh creation which assumes magnification == 1.
+        // TODO: do a more general solution that scales, adds new vertices and smoothes the result.
+        // Create an array of vertices that is sizeX+1 by sizeY+1 (note the loop
+        //    from zero to <= sizeX). The triangle indices are then generated as two triangles
+        //    per heightmap point. There are sizeX by sizeY of these squares. The extra row and
+        //    column of vertices are used to complete the triangles of the last row and column
+        //    of the heightmap.
+        try
+        {
+            // One vertice per heightmap value plus the vertices off the side and bottom edge.
+            int totalVertices = (sizeX + 1) * (sizeY + 1);
+            vertices = new float[totalVertices * 3];
+            int totalIndices = sizeX * sizeY * 6;
+            indices = new int[totalIndices];
+            if (physicsScene != null)
+                physicsScene.DetailLog("{0},BSTerrainMesh.ConvertHeightMapToMesh,totVert={1},totInd={2},extentBase={3}",
+                                    BSScene.DetailLogZero, totalVertices, totalIndices, extentBase);
+            float minHeight = float.MaxValue;
+            // Note that sizeX+1 vertices are created since there is land between this and the next region.
+            for (int yy = 0; yy <= sizeY; yy++)
+            {
+                for (int xx = 0; xx <= sizeX; xx++)     // Hint: the "<=" means we go around sizeX + 1 times
+                {
+                    int offset = yy * sizeX + xx;
+                    // Extend the height with the height from the last row or column
+                    if (yy == sizeY) offset -= sizeX;
+                    if (xx == sizeX) offset -= 1;
+                    float height = heightMap[offset];
+                    minHeight = Math.Min(minHeight, height);
+                    vertices[verticesCount + 0] = (float)xx + extentBase.X;
+                    vertices[verticesCount + 1] = (float)yy + extentBase.Y;
+                    vertices[verticesCount + 2] = height + extentBase.Z;
+                    verticesCount += 3;
+                }
+            }
+            verticesCount = verticesCount / 3;
+            for (int yy = 0; yy < sizeY; yy++)
+            {
+                for (int xx = 0; xx < sizeX; xx++)
+                {
+                    int offset = yy * (sizeX + 1) + xx;
+                    // Each vertices is presumed to be the upper left corner of a box of two triangles
+                    indices[indicesCount + 0] = offset;
+                    indices[indicesCount + 1] = offset + 1;
+                    indices[indicesCount + 2] = offset + sizeX + 1; // accounting for the extra column
+                    indices[indicesCount + 3] = offset + 1;
+                    indices[indicesCount + 4] = offset + sizeX + 2;
+                    indices[indicesCount + 5] = offset + sizeX + 1;
+                    indicesCount += 6;
+                }
+            }
+            ret = true;
+        }
+        catch (Exception e)
+        {
+            if (physicsScene != null)
+                physicsScene.Logger.ErrorFormat("{0} Failed conversion of heightmap to mesh. For={1}/{2}, e={3}",
+                                                LogHeader, physicsScene.RegionName, extentBase, e);
+        }
+        indicesCountO = indicesCount;
+        indicesO = indices;
+        verticesCountO = verticesCount;
+        verticesO = vertices;
+        return ret;
+    }
+    private class HeightMapGetter
+    {
+        private float[] m_heightMap;
+        private int m_sizeX;
+        private int m_sizeY;
+        public HeightMapGetter(float[] pHeightMap, int pSizeX, int pSizeY)
+        {
+            m_heightMap = pHeightMap;
+            m_sizeX = pSizeX;
+            m_sizeY = pSizeY;
+        }
+        // The heightmap is extended as an infinite plane at the last height
+        public float GetHeight(int xx, int yy)
+        {
+            int offset = 0;
+            // Extend the height with the height from the last row or column
+            if (yy >= m_sizeY)
+                if (xx >= m_sizeX)
+                    offset = (m_sizeY - 1) * m_sizeX + (m_sizeX - 1);
+                else
+                    offset = (m_sizeY - 1) * m_sizeX + xx;
+            else
+                if (xx >= m_sizeX)
+                    offset = yy * m_sizeX + (m_sizeX - 1);
+                else
+                    offset = yy * m_sizeX + xx;
+            return m_heightMap[offset];
+        }
+    }
+    // Convert the passed heightmap to mesh information suitable for CreateMeshShape2().
+    // Version that handles magnification.
+    // Return 'true' if successfully created.
+    public static bool ConvertHeightmapToMesh2( BSScene physicsScene,
+                                float[] heightMap, int sizeX, int sizeY,    // parameters of incoming heightmap
+                                int magnification,                          // number of vertices per heighmap step
+                                Vector3 extent,                             // dimensions of the output mesh
+                                Vector3 extentBase,                         // base to be added to all vertices
+                                out int indicesCountO, out int[] indicesO,
+                                out int verticesCountO, out float[] verticesO)
+    {
+        bool ret = false;
+        int indicesCount = 0;
+        int verticesCount = 0;
+        int[] indices = new int[0];
+        float[] vertices = new float[0];
+        HeightMapGetter hmap = new HeightMapGetter(heightMap, sizeX, sizeY);
+        // The vertices dimension of the output mesh
+        int meshX = sizeX * magnification;
+        int meshY = sizeY * magnification;
+        // The output size of one mesh step
+        float meshXStep = extent.X / meshX;
+        float meshYStep = extent.Y / meshY;
+        // Create an array of vertices that is meshX+1 by meshY+1 (note the loop
+        //    from zero to <= meshX). The triangle indices are then generated as two triangles
+        //    per heightmap point. There are meshX by meshY of these squares. The extra row and
+        //    column of vertices are used to complete the triangles of the last row and column
+        //    of the heightmap.
+        try
+        {
+            // Vertices for the output heightmap plus one on the side and bottom to complete triangles
+            int totalVertices = (meshX + 1) * (meshY + 1);
+            vertices = new float[totalVertices * 3];
+            int totalIndices = meshX * meshY * 6;
+            indices = new int[totalIndices];
+            if (physicsScene != null)
+                physicsScene.DetailLog("{0},BSTerrainMesh.ConvertHeightMapToMesh2,inSize={1},outSize={2},totVert={3},totInd={4},extentBase={5}",
+                                    BSScene.DetailLogZero, new Vector2(sizeX, sizeY), new Vector2(meshX, meshY),
+                                    totalVertices, totalIndices, extentBase);
+            float minHeight = float.MaxValue;
+            // Note that sizeX+1 vertices are created since there is land between this and the next region.
+            // Loop through the output vertices and compute the mediun height in between the input vertices
+            for (int yy = 0; yy <= meshY; yy++)
+            {
+                for (int xx = 0; xx <= meshX; xx++)     // Hint: the "<=" means we go around sizeX + 1 times
+                {
+                    float offsetY = (float)yy * (float)sizeY / (float)meshY;     // The Y that is closest to the mesh point
+                    int stepY = (int)offsetY;
+                    float fractionalY = offsetY - (float)stepY;
+                    float offsetX = (float)xx * (float)sizeX / (float)meshX;     // The X that is closest to the mesh point
+                    int stepX = (int)offsetX;
+                    float fractionalX = offsetX - (float)stepX;
+                    // physicsScene.DetailLog("{0},BSTerrainMesh.ConvertHeightMapToMesh2,xx={1},yy={2},offX={3},stepX={4},fractX={5},offY={6},stepY={7},fractY={8}",
+                    //                 BSScene.DetailLogZero, xx, yy, offsetX, stepX, fractionalX, offsetY, stepY, fractionalY);
+                    // get the four corners of the heightmap square the mesh point is in
+                    float heightUL = hmap.GetHeight(stepX    , stepY    );
+                    float heightUR = hmap.GetHeight(stepX + 1, stepY    );
+                    float heightLL = hmap.GetHeight(stepX    , stepY + 1);
+                    float heightLR = hmap.GetHeight(stepX + 1, stepY + 1);
+                    // bilinear interplolation
+                    float height = heightUL * (1 - fractionalX) * (1 - fractionalY)
+                                 + heightUR * fractionalX       * (1 - fractionalY)
+                                 + heightLL * (1 - fractionalX) * fractionalY
+                                 + heightLR * fractionalX       * fractionalY;
+                    // physicsScene.DetailLog("{0},BSTerrainMesh.ConvertHeightMapToMesh2,heightUL={1},heightUR={2},heightLL={3},heightLR={4},heightMap={5}",
+                    //                 BSScene.DetailLogZero, heightUL, heightUR, heightLL, heightLR, height);
+                    minHeight = Math.Min(minHeight, height);
+                    vertices[verticesCount + 0] = (float)xx * meshXStep + extentBase.X;
+                    vertices[verticesCount + 1] = (float)yy * meshYStep + extentBase.Y;
+                    vertices[verticesCount + 2] = height + extentBase.Z;
+                    verticesCount += 3;
+                }
+            }
+            // The number of vertices generated
+            verticesCount /= 3;
+            // Loop through all the heightmap squares and create indices for the two triangles for that square
+            for (int yy = 0; yy < meshY; yy++)
+            {
+                for (int xx = 0; xx < meshX; xx++)
+                {
+                    int offset = yy * (meshX + 1) + xx;
+                    // Each vertices is presumed to be the upper left corner of a box of two triangles
+                    indices[indicesCount + 0] = offset;
+                    indices[indicesCount + 1] = offset + 1;
+                    indices[indicesCount + 2] = offset + meshX + 1; // accounting for the extra column
+                    indices[indicesCount + 3] = offset + 1;
+                    indices[indicesCount + 4] = offset + meshX + 2;
+                    indices[indicesCount + 5] = offset + meshX + 1;
+                    indicesCount += 6;
+                }
+            }
+            ret = true;
+        }
+        catch (Exception e)
+        {
+            if (physicsScene != null)
+                physicsScene.Logger.ErrorFormat("{0} Failed conversion of heightmap to mesh. For={1}/{2}, e={3}",
+                                                LogHeader, physicsScene.RegionName, extentBase, e);
+        }
+        indicesCountO = indicesCount;
+        indicesO = indices;
+        verticesCountO = verticesCount;
+        verticesO = vertices;
+        return ret;
+    }
+}
+}
author	David Walter Seikel	2016-11-03 21:44:39 +1000
committer	David Walter Seikel	2016-11-03 21:44:39 +1000
commit	134f86e8d5c414409631b25b8c6f0ee45fbd8631 (patch)
tree	216b89d3fb89acfb81be1e440c25c41ab09fa96d /OpenSim/Region/PhysicsModules/BulletS/BSTerrainMesh.cs
parent	More changing to production grid. Double oops. (diff)
download	opensim-SC_OLD-134f86e8d5c414409631b25b8c6f0ee45fbd8631.zip opensim-SC_OLD-134f86e8d5c414409631b25b8c6f0ee45fbd8631.tar.gz opensim-SC_OLD-134f86e8d5c414409631b25b8c6f0ee45fbd8631.tar.bz2 opensim-SC_OLD-134f86e8d5c414409631b25b8c6f0ee45fbd8631.tar.xz

diff --git a/OpenSim/Region/PhysicsModules/BulletS/BSTerrainMesh.cs b/OpenSim/Region/PhysicsModules/BulletS/BSTerrainMesh.cs new file mode 100755 index 0000000..cd59b65 --- /dev/null +++ b/OpenSim/Region/PhysicsModules/BulletS/BSTerrainMesh.cs
@@ -0,0 +1,440 @@
	1	/*
	2	* Copyright (c) Contributors, http://opensimulator.org/
	3	* See CONTRIBUTORS.TXT for a full list of copyright holders.
	4	*
	5	* Redistribution and use in source and binary forms, with or without
	6	* modification, are permitted provided that the following conditions are met:
	7	* * Redistributions of source code must retain the above copyright
	8	* notice, this list of conditions and the following disclaimer.
	9	* * Redistributions in binary form must reproduce the above copyrightD
	10	* notice, this list of conditions and the following disclaimer in the
	11	* documentation and/or other materials provided with the distribution.
	12	* * Neither the name of the OpenSimulator Project nor the
	13	* names of its contributors may be used to endorse or promote products
	14	* derived from this software without specific prior written permission.
	15	*
	16	* THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY
	17	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
	18	* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	19	* DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
	20	* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
	21	* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
	22	* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
	23	* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	24	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
	25	* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	26	*/
	27	using System;
	28	using System.Collections.Generic;
	29	using System.Text;
	30
	31	using OpenSim.Framework;
	32	using OpenSim.Region.Framework;
	33	using OpenSim.Region.PhysicsModules.SharedBase;
	34
	35	using Nini.Config;
	36	using log4net;
	37
	38	using OpenMetaverse;
	39
	40	namespace OpenSim.Region.PhysicsModule.BulletS
	41	{
	42	public sealed class BSTerrainMesh : BSTerrainPhys
	43	{
	44	static string LogHeader = "[BULLETSIM TERRAIN MESH]";
	45
	46	private float[] m_savedHeightMap;
	47	int m_sizeX;
	48	int m_sizeY;
	49
	50	BulletShape m_terrainShape;
	51	BulletBody m_terrainBody;
	52
	53	public BSTerrainMesh(BSScene physicsScene, Vector3 regionBase, uint id, Vector3 regionSize)
	54	: base(physicsScene, regionBase, id)
	55	{
	56	}
	57
	58	public BSTerrainMesh(BSScene physicsScene, Vector3 regionBase, uint id /* parameters for making mesh */)
	59	: base(physicsScene, regionBase, id)
	60	{
	61	}
	62
	63	// Create terrain mesh from a heightmap.
	64	public BSTerrainMesh(BSScene physicsScene, Vector3 regionBase, uint id, float[] initialMap,
	65	Vector3 minCoords, Vector3 maxCoords)
	66	: base(physicsScene, regionBase, id)
	67	{
	68	int indicesCount;
	69	int[] indices;
	70	int verticesCount;
	71	float[] vertices;
	72
	73	m_savedHeightMap = initialMap;
	74
	75	m_sizeX = (int)(maxCoords.X - minCoords.X);
	76	m_sizeY = (int)(maxCoords.Y - minCoords.Y);
	77
	78	bool meshCreationSuccess = false;
	79	if (BSParam.TerrainMeshMagnification == 1)
	80	{
	81	// If a magnification of one, use the old routine that is tried and true.
	82	meshCreationSuccess = BSTerrainMesh.ConvertHeightmapToMesh(m_physicsScene,
	83	initialMap, m_sizeX, m_sizeY, // input size
	84	Vector3.Zero, // base for mesh
	85	out indicesCount, out indices, out verticesCount, out vertices);
	86	}
	87	else
	88	{
	89	// Other magnifications use the newer routine
	90	meshCreationSuccess = BSTerrainMesh.ConvertHeightmapToMesh2(m_physicsScene,
	91	initialMap, m_sizeX, m_sizeY, // input size
	92	BSParam.TerrainMeshMagnification,
	93	physicsScene.TerrainManager.DefaultRegionSize,
	94	Vector3.Zero, // base for mesh
	95	out indicesCount, out indices, out verticesCount, out vertices);
	96	}
	97	if (!meshCreationSuccess)
	98	{
	99	// DISASTER!!
	100	m_physicsScene.DetailLog("{0},BSTerrainMesh.create,failedConversionOfHeightmap,id={1}", BSScene.DetailLogZero, ID);
	101	m_physicsScene.Logger.ErrorFormat("{0} Failed conversion of heightmap to mesh! base={1}", LogHeader, TerrainBase);
	102	// Something is very messed up and a crash is in our future.
	103	return;
	104	}
	105
	106	m_physicsScene.DetailLog("{0},BSTerrainMesh.create,meshed,id={1},indices={2},indSz={3},vertices={4},vertSz={5}",
	107	BSScene.DetailLogZero, ID, indicesCount, indices.Length, verticesCount, vertices.Length);
	108
	109	m_terrainShape = m_physicsScene.PE.CreateMeshShape(m_physicsScene.World, indicesCount, indices, verticesCount, vertices);
	110	if (!m_terrainShape.HasPhysicalShape)
	111	{
	112	// DISASTER!!
	113	m_physicsScene.DetailLog("{0},BSTerrainMesh.create,failedCreationOfShape,id={1}", BSScene.DetailLogZero, ID);
	114	m_physicsScene.Logger.ErrorFormat("{0} Failed creation of terrain mesh! base={1}", LogHeader, TerrainBase);
	115	// Something is very messed up and a crash is in our future.
	116	return;
	117	}
	118
	119	Vector3 pos = regionBase;
	120	Quaternion rot = Quaternion.Identity;
	121
	122	m_terrainBody = m_physicsScene.PE.CreateBodyWithDefaultMotionState(m_terrainShape, ID, pos, rot);
	123	if (!m_terrainBody.HasPhysicalBody)
	124	{
	125	// DISASTER!!
	126	m_physicsScene.Logger.ErrorFormat("{0} Failed creation of terrain body! base={1}", LogHeader, TerrainBase);
	127	// Something is very messed up and a crash is in our future.
	128	return;
	129	}
	130	physicsScene.PE.SetShapeCollisionMargin(m_terrainShape, BSParam.TerrainCollisionMargin);
	131
	132	// Set current terrain attributes
	133	m_physicsScene.PE.SetFriction(m_terrainBody, BSParam.TerrainFriction);
	134	m_physicsScene.PE.SetHitFraction(m_terrainBody, BSParam.TerrainHitFraction);
	135	m_physicsScene.PE.SetRestitution(m_terrainBody, BSParam.TerrainRestitution);
	136	m_physicsScene.PE.SetContactProcessingThreshold(m_terrainBody, BSParam.TerrainContactProcessingThreshold);
	137	m_physicsScene.PE.SetCollisionFlags(m_terrainBody, CollisionFlags.CF_STATIC_OBJECT);
	138
	139	// Static objects are not very massive.
	140	m_physicsScene.PE.SetMassProps(m_terrainBody, 0f, Vector3.Zero);
	141
	142	// Put the new terrain to the world of physical objects
	143	m_physicsScene.PE.AddObjectToWorld(m_physicsScene.World, m_terrainBody);
	144
	145	// Redo its bounding box now that it is in the world
	146	m_physicsScene.PE.UpdateSingleAabb(m_physicsScene.World, m_terrainBody);
	147
	148	m_terrainBody.collisionType = CollisionType.Terrain;
	149	m_terrainBody.ApplyCollisionMask(m_physicsScene);
	150
	151	if (BSParam.UseSingleSidedMeshes)
	152	{
	153	m_physicsScene.DetailLog("{0},BSTerrainMesh.settingCustomMaterial,id={1}", BSScene.DetailLogZero, id);
	154	m_physicsScene.PE.AddToCollisionFlags(m_terrainBody, CollisionFlags.CF_CUSTOM_MATERIAL_CALLBACK);
	155	}
	156
	157	// Make it so the terrain will not move or be considered for movement.
	158	m_physicsScene.PE.ForceActivationState(m_terrainBody, ActivationState.DISABLE_SIMULATION);
	159	}
	160
	161	public override void Dispose()
	162	{
	163	if (m_terrainBody.HasPhysicalBody)
	164	{
	165	m_physicsScene.PE.RemoveObjectFromWorld(m_physicsScene.World, m_terrainBody);
	166	// Frees both the body and the shape.
	167	m_physicsScene.PE.DestroyObject(m_physicsScene.World, m_terrainBody);
	168	m_terrainBody.Clear();
	169	m_terrainShape.Clear();
	170	}
	171	}
	172
	173	public override float GetTerrainHeightAtXYZ(Vector3 pos)
	174	{
	175	// For the moment use the saved heightmap to get the terrain height.
	176	// TODO: raycast downward to find the true terrain below the position.
	177	float ret = BSTerrainManager.HEIGHT_GETHEIGHT_RET;
	178
	179	int mapIndex = (int)pos.Y * m_sizeY + (int)pos.X;
	180	try
	181	{
	182	ret = m_savedHeightMap[mapIndex];
	183	}
	184	catch
	185	{
	186	// Sometimes they give us wonky values of X and Y. Give a warning and return something.
	187	m_physicsScene.Logger.WarnFormat("{0} Bad request for terrain height. terrainBase={1}, pos={2}",
	188	LogHeader, TerrainBase, pos);
	189	ret = BSTerrainManager.HEIGHT_GETHEIGHT_RET;
	190	}
	191	return ret;
	192	}
	193
	194	// The passed position is relative to the base of the region.
	195	public override float GetWaterLevelAtXYZ(Vector3 pos)
	196	{
	197	return m_physicsScene.SimpleWaterLevel;
	198	}
	199
	200	// Convert the passed heightmap to mesh information suitable for CreateMeshShape2().
	201	// Return 'true' if successfully created.
	202	public static bool ConvertHeightmapToMesh( BSScene physicsScene,
	203	float[] heightMap, int sizeX, int sizeY, // parameters of incoming heightmap
	204	Vector3 extentBase, // base to be added to all vertices
	205	out int indicesCountO, out int[] indicesO,
	206	out int verticesCountO, out float[] verticesO)
	207	{
	208	bool ret = false;
	209
	210	int indicesCount = 0;
	211	int verticesCount = 0;
	212	int[] indices = new int[0];
	213	float[] vertices = new float[0];
	214
	215	// Simple mesh creation which assumes magnification == 1.
	216	// TODO: do a more general solution that scales, adds new vertices and smoothes the result.
	217
	218	// Create an array of vertices that is sizeX+1 by sizeY+1 (note the loop
	219	// from zero to <= sizeX). The triangle indices are then generated as two triangles
	220	// per heightmap point. There are sizeX by sizeY of these squares. The extra row and
	221	// column of vertices are used to complete the triangles of the last row and column
	222	// of the heightmap.
	223	try
	224	{
	225	// One vertice per heightmap value plus the vertices off the side and bottom edge.
	226	int totalVertices = (sizeX + 1) * (sizeY + 1);
	227	vertices = new float[totalVertices * 3];
	228	int totalIndices = sizeX * sizeY * 6;
	229	indices = new int[totalIndices];
	230
	231	if (physicsScene != null)
	232	physicsScene.DetailLog("{0},BSTerrainMesh.ConvertHeightMapToMesh,totVert={1},totInd={2},extentBase={3}",
	233	BSScene.DetailLogZero, totalVertices, totalIndices, extentBase);
	234	float minHeight = float.MaxValue;
	235	// Note that sizeX+1 vertices are created since there is land between this and the next region.
	236	for (int yy = 0; yy <= sizeY; yy++)
	237	{
	238	for (int xx = 0; xx <= sizeX; xx++) // Hint: the "<=" means we go around sizeX + 1 times
	239	{
	240	int offset = yy * sizeX + xx;
	241	// Extend the height with the height from the last row or column
	242	if (yy == sizeY) offset -= sizeX;
	243	if (xx == sizeX) offset -= 1;
	244	float height = heightMap[offset];
	245	minHeight = Math.Min(minHeight, height);
	246	vertices[verticesCount + 0] = (float)xx + extentBase.X;
	247	vertices[verticesCount + 1] = (float)yy + extentBase.Y;
	248	vertices[verticesCount + 2] = height + extentBase.Z;
	249	verticesCount += 3;
	250	}
	251	}
	252	verticesCount = verticesCount / 3;
	253
	254	for (int yy = 0; yy < sizeY; yy++)
	255	{
	256	for (int xx = 0; xx < sizeX; xx++)
	257	{
	258	int offset = yy * (sizeX + 1) + xx;
	259	// Each vertices is presumed to be the upper left corner of a box of two triangles
	260	indices[indicesCount + 0] = offset;
	261	indices[indicesCount + 1] = offset + 1;
	262	indices[indicesCount + 2] = offset + sizeX + 1; // accounting for the extra column
	263	indices[indicesCount + 3] = offset + 1;
	264	indices[indicesCount + 4] = offset + sizeX + 2;
	265	indices[indicesCount + 5] = offset + sizeX + 1;
	266	indicesCount += 6;
	267	}
	268	}
	269
	270	ret = true;
	271	}
	272	catch (Exception e)
	273	{
	274	if (physicsScene != null)
	275	physicsScene.Logger.ErrorFormat("{0} Failed conversion of heightmap to mesh. For={1}/{2}, e={3}",
	276	LogHeader, physicsScene.RegionName, extentBase, e);
	277	}
	278
	279	indicesCountO = indicesCount;
	280	indicesO = indices;
	281	verticesCountO = verticesCount;
	282	verticesO = vertices;
	283
	284	return ret;
	285	}
	286
	287	private class HeightMapGetter
	288	{
	289	private float[] m_heightMap;
	290	private int m_sizeX;
	291	private int m_sizeY;
	292	public HeightMapGetter(float[] pHeightMap, int pSizeX, int pSizeY)
	293	{
	294	m_heightMap = pHeightMap;
	295	m_sizeX = pSizeX;
	296	m_sizeY = pSizeY;
	297	}
	298	// The heightmap is extended as an infinite plane at the last height
	299	public float GetHeight(int xx, int yy)
	300	{
	301	int offset = 0;
	302	// Extend the height with the height from the last row or column
	303	if (yy >= m_sizeY)
	304	if (xx >= m_sizeX)
	305	offset = (m_sizeY - 1) * m_sizeX + (m_sizeX - 1);
	306	else
	307	offset = (m_sizeY - 1) * m_sizeX + xx;
	308	else
	309	if (xx >= m_sizeX)
	310	offset = yy * m_sizeX + (m_sizeX - 1);
	311	else
	312	offset = yy * m_sizeX + xx;
	313
	314	return m_heightMap[offset];
	315	}
	316	}
	317
	318	// Convert the passed heightmap to mesh information suitable for CreateMeshShape2().
	319	// Version that handles magnification.
	320	// Return 'true' if successfully created.
	321	public static bool ConvertHeightmapToMesh2( BSScene physicsScene,
	322	float[] heightMap, int sizeX, int sizeY, // parameters of incoming heightmap
	323	int magnification, // number of vertices per heighmap step
	324	Vector3 extent, // dimensions of the output mesh
	325	Vector3 extentBase, // base to be added to all vertices
	326	out int indicesCountO, out int[] indicesO,
	327	out int verticesCountO, out float[] verticesO)
	328	{
	329	bool ret = false;
	330
	331	int indicesCount = 0;
	332	int verticesCount = 0;
	333	int[] indices = new int[0];
	334	float[] vertices = new float[0];
	335
	336	HeightMapGetter hmap = new HeightMapGetter(heightMap, sizeX, sizeY);
	337
	338	// The vertices dimension of the output mesh
	339	int meshX = sizeX * magnification;
	340	int meshY = sizeY * magnification;
	341	// The output size of one mesh step
	342	float meshXStep = extent.X / meshX;
	343	float meshYStep = extent.Y / meshY;
	344
	345	// Create an array of vertices that is meshX+1 by meshY+1 (note the loop
	346	// from zero to <= meshX). The triangle indices are then generated as two triangles
	347	// per heightmap point. There are meshX by meshY of these squares. The extra row and
	348	// column of vertices are used to complete the triangles of the last row and column
	349	// of the heightmap.
	350	try
	351	{
	352	// Vertices for the output heightmap plus one on the side and bottom to complete triangles
	353	int totalVertices = (meshX + 1) * (meshY + 1);
	354	vertices = new float[totalVertices * 3];
	355	int totalIndices = meshX * meshY * 6;
	356	indices = new int[totalIndices];
	357
	358	if (physicsScene != null)
	359	physicsScene.DetailLog("{0},BSTerrainMesh.ConvertHeightMapToMesh2,inSize={1},outSize={2},totVert={3},totInd={4},extentBase={5}",
	360	BSScene.DetailLogZero, new Vector2(sizeX, sizeY), new Vector2(meshX, meshY),
	361	totalVertices, totalIndices, extentBase);
	362
	363	float minHeight = float.MaxValue;
	364	// Note that sizeX+1 vertices are created since there is land between this and the next region.
	365	// Loop through the output vertices and compute the mediun height in between the input vertices
	366	for (int yy = 0; yy <= meshY; yy++)
	367	{
	368	for (int xx = 0; xx <= meshX; xx++) // Hint: the "<=" means we go around sizeX + 1 times
	369	{
	370	float offsetY = (float)yy * (float)sizeY / (float)meshY; // The Y that is closest to the mesh point
	371	int stepY = (int)offsetY;
	372	float fractionalY = offsetY - (float)stepY;
	373	float offsetX = (float)xx * (float)sizeX / (float)meshX; // The X that is closest to the mesh point
	374	int stepX = (int)offsetX;
	375	float fractionalX = offsetX - (float)stepX;
	376
	377	// physicsScene.DetailLog("{0},BSTerrainMesh.ConvertHeightMapToMesh2,xx={1},yy={2},offX={3},stepX={4},fractX={5},offY={6},stepY={7},fractY={8}",
	378	// BSScene.DetailLogZero, xx, yy, offsetX, stepX, fractionalX, offsetY, stepY, fractionalY);
	379
	380	// get the four corners of the heightmap square the mesh point is in
	381	float heightUL = hmap.GetHeight(stepX , stepY );
	382	float heightUR = hmap.GetHeight(stepX + 1, stepY );
	383	float heightLL = hmap.GetHeight(stepX , stepY + 1);
	384	float heightLR = hmap.GetHeight(stepX + 1, stepY + 1);
	385
	386	// bilinear interplolation
	387	float height = heightUL * (1 - fractionalX) * (1 - fractionalY)
	388	+ heightUR * fractionalX * (1 - fractionalY)
	389	+ heightLL * (1 - fractionalX) * fractionalY
	390	+ heightLR * fractionalX * fractionalY;
	391
	392	// physicsScene.DetailLog("{0},BSTerrainMesh.ConvertHeightMapToMesh2,heightUL={1},heightUR={2},heightLL={3},heightLR={4},heightMap={5}",
	393	// BSScene.DetailLogZero, heightUL, heightUR, heightLL, heightLR, height);
	394
	395	minHeight = Math.Min(minHeight, height);
	396
	397	vertices[verticesCount + 0] = (float)xx * meshXStep + extentBase.X;
	398	vertices[verticesCount + 1] = (float)yy * meshYStep + extentBase.Y;
	399	vertices[verticesCount + 2] = height + extentBase.Z;
	400	verticesCount += 3;
	401	}
	402	}
	403	// The number of vertices generated
	404	verticesCount /= 3;
	405
	406	// Loop through all the heightmap squares and create indices for the two triangles for that square
	407	for (int yy = 0; yy < meshY; yy++)
	408	{
	409	for (int xx = 0; xx < meshX; xx++)
	410	{
	411	int offset = yy * (meshX + 1) + xx;
	412	// Each vertices is presumed to be the upper left corner of a box of two triangles
	413	indices[indicesCount + 0] = offset;
	414	indices[indicesCount + 1] = offset + 1;
	415	indices[indicesCount + 2] = offset + meshX + 1; // accounting for the extra column
	416	indices[indicesCount + 3] = offset + 1;
	417	indices[indicesCount + 4] = offset + meshX + 2;
	418	indices[indicesCount + 5] = offset + meshX + 1;
	419	indicesCount += 6;
	420	}
	421	}
	422
	423	ret = true;
	424	}
	425	catch (Exception e)
	426	{
	427	if (physicsScene != null)
	428	physicsScene.Logger.ErrorFormat("{0} Failed conversion of heightmap to mesh. For={1}/{2}, e={3}",
	429	LogHeader, physicsScene.RegionName, extentBase, e);
	430	}
	431
	432	indicesCountO = indicesCount;
	433	indicesO = indices;
	434	verticesCountO = verticesCount;
	435	verticesO = vertices;
	436
	437	return ret;
	438	}
	439	}
	440	}