rename Ubit physics modules

author: UbitUmarov 2015-09-12 21:38:26 +0100
committer: UbitUmarov 2015-09-12 21:38:26 +0100
commit: e9a56d5e194b9b80f8adf5d1ce5d9ab3f5f7bfdd (patch)
tree: 1ca1c7225046f446604ffa80e348f2497d9ae482 /OpenSim/Region/PhysicsModules/ubOdeMeshing/Mesh.cs
parent: remove a silly and not necessary List i added (diff)
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1 files changed, 601 insertions, 0 deletions
diff --git a/OpenSim/Region/PhysicsModules/ubOdeMeshing/Mesh.cs b/OpenSim/Region/PhysicsModules/ubOdeMeshing/Mesh.cs
new file mode 100644
index 0000000..da8f623
--- /dev/null
+++ b/OpenSim/Region/PhysicsModules/ubOdeMeshing/Mesh.cs
@@ -0,0 +1,601 @@
+/*
+ * 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 copyright
+ *       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.IO;
+using System.Runtime.InteropServices;
+using OpenSim.Region.PhysicsModules.SharedBase;
+using PrimMesher;
+using OpenMetaverse;
+using System.Runtime.Serialization;
+using System.Runtime.Serialization.Formatters.Binary;
+namespace OpenSim.Region.PhysicsModule.ubODEMeshing
+{
+    public class MeshBuildingData
+    {
+        public Dictionary<Vertex, int> m_vertices;
+        public List<Triangle> m_triangles;
+        public float m_obbXmin;
+        public float m_obbXmax;
+        public float m_obbYmin;
+        public float m_obbYmax;
+        public float m_obbZmin;
+        public float m_obbZmax;
+        public Vector3 m_centroid;
+        public int m_centroidDiv;
+    }
+    [Serializable()]
+    public class Mesh : IMesh
+    {
+        float[] vertices;
+        int[] indexes;
+        Vector3 m_obb;
+        Vector3 m_obboffset;
+        [NonSerialized()]
+        MeshBuildingData m_bdata;
+        [NonSerialized()]
+        GCHandle vhandler;
+        [NonSerialized()]
+        GCHandle ihandler;
+        [NonSerialized()]
+        IntPtr m_verticesPtr = IntPtr.Zero;
+        [NonSerialized()]
+        IntPtr m_indicesPtr = IntPtr.Zero;
+        [NonSerialized()]
+        int m_vertexCount = 0;
+        [NonSerialized()]
+        int m_indexCount = 0;
+        public int RefCount { get; set; }
+        public AMeshKey Key { get; set; }
+        private class vertexcomp : IEqualityComparer<Vertex>
+        {
+            public bool Equals(Vertex v1, Vertex v2)
+            {
+                if (v1.X == v2.X && v1.Y == v2.Y && v1.Z == v2.Z)
+                    return true;
+                else
+                    return false;
+            }
+            public int GetHashCode(Vertex v)
+            {
+                int a = v.X.GetHashCode();
+                int b = v.Y.GetHashCode();
+                int c = v.Z.GetHashCode();
+                return (a << 16) ^ (b << 8) ^ c;
+            }
+        }
+        public Mesh()
+        {
+            vertexcomp vcomp = new vertexcomp();
+            m_bdata = new MeshBuildingData();
+            m_bdata.m_vertices = new Dictionary<Vertex, int>(vcomp);
+            m_bdata.m_triangles = new List<Triangle>();
+            m_bdata.m_centroid = Vector3.Zero;
+            m_bdata.m_centroidDiv = 0;
+            m_bdata.m_obbXmin = float.MaxValue;
+            m_bdata.m_obbXmax = float.MinValue;
+            m_bdata.m_obbYmin = float.MaxValue;
+            m_bdata.m_obbYmax = float.MinValue;
+            m_bdata.m_obbZmin = float.MaxValue;
+            m_bdata.m_obbZmax = float.MinValue;
+            m_obb = new Vector3(0.5f, 0.5f, 0.5f);
+            m_obboffset = Vector3.Zero;
+        }
+        public Mesh Scale(Vector3 scale)
+        {
+            if (m_verticesPtr == null || m_indicesPtr == null)
+                return null;
+            Mesh result = new Mesh();
+            float x = scale.X;
+            float y = scale.Y;
+            float z = scale.Z;
+            result.m_obb.X = m_obb.X * x;
+            result.m_obb.Y = m_obb.Y * y;
+            result.m_obb.Z = m_obb.Z * z;
+            result.m_obboffset.X = m_obboffset.X * x;
+            result.m_obboffset.Y = m_obboffset.Y * y;
+            result.m_obboffset.Z = m_obboffset.Z * z;
+            result.vertices = new float[vertices.Length];
+            int j = 0;
+            for (int i = 0; i < m_vertexCount; i++)
+            {
+                result.vertices[j] = vertices[j] * x;
+                j++;
+                result.vertices[j] = vertices[j] * y;
+                j++;
+                result.vertices[j] = vertices[j] * z;
+                j++;
+            }
+            result.indexes = new int[indexes.Length];
+            indexes.CopyTo(result.indexes,0);
+            result.pinMemory();
+            return result;
+        }
+        public Mesh Clone()
+        {
+            Mesh result = new Mesh();
+            if (m_bdata != null)
+            {
+                result.m_bdata = new MeshBuildingData();
+                foreach (Triangle t in m_bdata.m_triangles)
+                {
+                    result.Add(new Triangle(t.v1.Clone(), t.v2.Clone(), t.v3.Clone()));
+                }
+                result.m_bdata.m_centroid = m_bdata.m_centroid;
+                result.m_bdata.m_centroidDiv = m_bdata.m_centroidDiv;
+                result.m_bdata.m_obbXmin = m_bdata.m_obbXmin;
+                result.m_bdata.m_obbXmax = m_bdata.m_obbXmax;
+                result.m_bdata.m_obbYmin = m_bdata.m_obbYmin;
+                result.m_bdata.m_obbYmax = m_bdata.m_obbYmax;
+                result.m_bdata.m_obbZmin = m_bdata.m_obbZmin;
+                result.m_bdata.m_obbZmax = m_bdata.m_obbZmax;
+            }
+            result.m_obb = m_obb;
+            result.m_obboffset = m_obboffset;
+            return result;
+        }
+        public void addVertexLStats(Vertex v)
+        {
+            float x = v.X;
+            float y = v.Y;
+            float z = v.Z;
+            m_bdata.m_centroid.X += x;
+            m_bdata.m_centroid.Y += y;
+            m_bdata.m_centroid.Z += z;
+            m_bdata.m_centroidDiv++;
+            if (x > m_bdata.m_obbXmax)
+                m_bdata.m_obbXmax = x;
+            else if (x < m_bdata.m_obbXmin)
+                m_bdata.m_obbXmin = x;
+            if (y > m_bdata.m_obbYmax)
+                m_bdata.m_obbYmax = y;
+            else if (y < m_bdata.m_obbYmin)
+                m_bdata.m_obbYmin = y;
+            if (z > m_bdata.m_obbZmax)
+                m_bdata.m_obbZmax = z;
+            else if (z < m_bdata.m_obbZmin)
+                m_bdata.m_obbZmin = z;
+        }
+        public void Add(Triangle triangle)
+        {
+            if (m_indicesPtr != IntPtr.Zero || m_verticesPtr != IntPtr.Zero)
+                throw new NotSupportedException("Attempt to Add to a pinned Mesh");
+            triangle.v1.X = (float)Math.Round(triangle.v1.X, 6);
+            triangle.v1.Y = (float)Math.Round(triangle.v1.Y, 6);
+            triangle.v1.Z = (float)Math.Round(triangle.v1.Z, 6);
+            triangle.v2.X = (float)Math.Round(triangle.v2.X, 6);
+            triangle.v2.Y = (float)Math.Round(triangle.v2.Y, 6);
+            triangle.v2.Z = (float)Math.Round(triangle.v2.Z, 6);
+            triangle.v3.X = (float)Math.Round(triangle.v3.X, 6);
+            triangle.v3.Y = (float)Math.Round(triangle.v3.Y, 6);
+            triangle.v3.Z = (float)Math.Round(triangle.v3.Z, 6);
+            if ((triangle.v1.X == triangle.v2.X && triangle.v1.Y == triangle.v2.Y && triangle.v1.Z == triangle.v2.Z)
+                || (triangle.v1.X == triangle.v3.X && triangle.v1.Y == triangle.v3.Y && triangle.v1.Z == triangle.v3.Z)
+                || (triangle.v2.X == triangle.v3.X && triangle.v2.Y == triangle.v3.Y && triangle.v2.Z == triangle.v3.Z)
+                )               
+            {               
+                return;
+            }
+            if (m_bdata.m_vertices.Count == 0)
+            {
+                m_bdata.m_centroidDiv = 0;
+                m_bdata.m_centroid = Vector3.Zero;
+            }
+            if (!m_bdata.m_vertices.ContainsKey(triangle.v1))
+            {
+                m_bdata.m_vertices[triangle.v1] = m_bdata.m_vertices.Count;
+                addVertexLStats(triangle.v1);
+            }
+            if (!m_bdata.m_vertices.ContainsKey(triangle.v2))
+            {
+                m_bdata.m_vertices[triangle.v2] = m_bdata.m_vertices.Count;
+                addVertexLStats(triangle.v2);
+            }
+            if (!m_bdata.m_vertices.ContainsKey(triangle.v3))
+            {
+                m_bdata.m_vertices[triangle.v3] = m_bdata.m_vertices.Count;
+                addVertexLStats(triangle.v3);
+            }
+            m_bdata.m_triangles.Add(triangle);
+        }
+        public Vector3 GetCentroid()
+        {
+            return m_obboffset;
+        }
+        public Vector3 GetOBB()
+        {
+            return m_obb;
+            float x, y, z;
+            if (m_bdata.m_centroidDiv > 0)
+            {
+                x = (m_bdata.m_obbXmax - m_bdata.m_obbXmin) * 0.5f;
+                y = (m_bdata.m_obbYmax - m_bdata.m_obbYmin) * 0.5f;
+                z = (m_bdata.m_obbZmax - m_bdata.m_obbZmin) * 0.5f;
+            }
+            else // ??
+            {
+                x = 0.5f;
+                y = 0.5f;
+                z = 0.5f;
+            }
+            return new Vector3(x, y, z);
+        }
+        public List<Vector3> getVertexList()
+        {
+            List<Vector3> result = new List<Vector3>();
+            foreach (Vertex v in m_bdata.m_vertices.Keys)
+            {
+                result.Add(new Vector3(v.X, v.Y, v.Z));
+            }
+            return result;
+        }
+        public float[] getVertexListAsFloat()
+        {
+            if (m_bdata.m_vertices == null)
+                throw new NotSupportedException();
+            float[] result = new float[m_bdata.m_vertices.Count * 3];
+            foreach (KeyValuePair<Vertex, int> kvp in m_bdata.m_vertices)
+            {
+                Vertex v = kvp.Key;
+                int i = kvp.Value;
+                result[3 * i + 0] = v.X;
+                result[3 * i + 1] = v.Y;
+                result[3 * i + 2] = v.Z;
+            }
+            return result;
+        }
+        public float[] getVertexListAsFloatLocked()
+        {
+            return null;
+        }
+        public void getVertexListAsPtrToFloatArray(out IntPtr _vertices, out int vertexStride, out int vertexCount)
+        {
+            // A vertex is 3 floats
+            vertexStride = 3 * sizeof(float);
+            // If there isn't an unmanaged array allocated yet, do it now
+            if (m_verticesPtr == IntPtr.Zero && m_bdata != null)
+            {
+                vertices = getVertexListAsFloat();
+                // Each vertex is 3 elements (floats)
+                m_vertexCount = vertices.Length / 3;
+                vhandler = GCHandle.Alloc(vertices, GCHandleType.Pinned);
+                m_verticesPtr = vhandler.AddrOfPinnedObject();
+                GC.AddMemoryPressure(Buffer.ByteLength(vertices));
+            }
+            _vertices = m_verticesPtr;
+            vertexCount = m_vertexCount;
+        }
+        public int[] getIndexListAsInt()
+        {
+            if (m_bdata.m_triangles == null)
+                throw new NotSupportedException();
+            int[] result = new int[m_bdata.m_triangles.Count * 3];
+            for (int i = 0; i < m_bdata.m_triangles.Count; i++)
+            {
+                Triangle t = m_bdata.m_triangles[i];
+                result[3 * i + 0] = m_bdata.m_vertices[t.v1];
+                result[3 * i + 1] = m_bdata.m_vertices[t.v2];
+                result[3 * i + 2] = m_bdata.m_vertices[t.v3];
+            }
+            return result;
+        }
+        /// <summary>
+        /// creates a list of index values that defines triangle faces. THIS METHOD FREES ALL NON-PINNED MESH DATA
+        /// </summary>
+        /// <returns></returns>
+        public int[] getIndexListAsIntLocked()
+        {
+            return null;
+        }
+        public void getIndexListAsPtrToIntArray(out IntPtr indices, out int triStride, out int indexCount)
+        {
+            // If there isn't an unmanaged array allocated yet, do it now
+            if (m_indicesPtr == IntPtr.Zero && m_bdata != null)
+            {
+                indexes = getIndexListAsInt();
+                m_indexCount = indexes.Length;
+                ihandler = GCHandle.Alloc(indexes, GCHandleType.Pinned);
+                m_indicesPtr = ihandler.AddrOfPinnedObject();
+                GC.AddMemoryPressure(Buffer.ByteLength(indexes));
+            }
+            // A triangle is 3 ints (indices)
+            triStride = 3 * sizeof(int);
+            indices = m_indicesPtr;
+            indexCount = m_indexCount;
+        }
+        public void releasePinned()
+        {
+            if (m_verticesPtr != IntPtr.Zero)
+            {
+                vhandler.Free();
+                vertices = null;
+                m_verticesPtr = IntPtr.Zero;
+            }
+            if (m_indicesPtr != IntPtr.Zero)
+            {
+                ihandler.Free();
+                indexes = null;
+                m_indicesPtr = IntPtr.Zero;
+            }
+        }
+        /// <summary>
+        /// frees up the source mesh data to minimize memory - call this method after calling get*Locked() functions
+        /// </summary>
+        public void releaseSourceMeshData()
+        {
+            if (m_bdata != null)
+            {
+                m_bdata.m_triangles = null;
+                m_bdata.m_vertices = null;
+            }
+        }
+        public void releaseBuildingMeshData()
+        {
+            if (m_bdata != null)
+            {
+                m_bdata.m_triangles = null;
+                m_bdata.m_vertices = null;
+                m_bdata = null;
+            }
+        }
+        public void Append(IMesh newMesh)
+        {
+            if (m_indicesPtr != IntPtr.Zero || m_verticesPtr != IntPtr.Zero)
+                throw new NotSupportedException("Attempt to Append to a pinned Mesh");
+        
+            if (!(newMesh is Mesh))
+                return;
+            foreach (Triangle t in ((Mesh)newMesh).m_bdata.m_triangles)
+                Add(t);
+        }
+        // Do a linear transformation of  mesh.
+        public void TransformLinear(float[,] matrix, float[] offset)
+        {
+            if (m_indicesPtr != IntPtr.Zero || m_verticesPtr != IntPtr.Zero)
+                throw new NotSupportedException("Attempt to TransformLinear a pinned Mesh");
+            foreach (Vertex v in m_bdata.m_vertices.Keys)
+            {
+                if (v == null)
+                    continue;
+                float x, y, z;
+                x = v.X*matrix[0, 0] + v.Y*matrix[1, 0] + v.Z*matrix[2, 0];
+                y = v.X*matrix[0, 1] + v.Y*matrix[1, 1] + v.Z*matrix[2, 1];
+                z = v.X*matrix[0, 2] + v.Y*matrix[1, 2] + v.Z*matrix[2, 2];
+                v.X = x + offset[0];
+                v.Y = y + offset[1];
+                v.Z = z + offset[2];
+            }
+        }
+        public void DumpRaw(String path, String name, String title)
+        {
+            if (path == null)
+                return;
+            if (m_bdata == null)
+                return;
+            String fileName = name + "_" + title + ".raw";
+            String completePath = System.IO.Path.Combine(path, fileName);
+            StreamWriter sw = new StreamWriter(completePath);
+            foreach (Triangle t in m_bdata.m_triangles)
+            {
+                String s = t.ToStringRaw();
+                sw.WriteLine(s);
+            }
+            sw.Close();
+        }
+        public void TrimExcess()
+        {
+            m_bdata.m_triangles.TrimExcess();
+        }
+        public void pinMemory()
+        {
+            m_vertexCount = vertices.Length / 3;
+            vhandler = GCHandle.Alloc(vertices, GCHandleType.Pinned);
+            m_verticesPtr = vhandler.AddrOfPinnedObject();
+            GC.AddMemoryPressure(Buffer.ByteLength(vertices));
+            m_indexCount = indexes.Length;
+            ihandler = GCHandle.Alloc(indexes, GCHandleType.Pinned);
+            m_indicesPtr = ihandler.AddrOfPinnedObject();
+            GC.AddMemoryPressure(Buffer.ByteLength(indexes));
+        }
+        public void PrepForOde()
+        {
+            // If there isn't an unmanaged array allocated yet, do it now
+            if (m_verticesPtr == IntPtr.Zero)
+                vertices = getVertexListAsFloat();
+            // If there isn't an unmanaged array allocated yet, do it now
+            if (m_indicesPtr == IntPtr.Zero)
+                indexes = getIndexListAsInt();
+            pinMemory();
+            float x, y, z;
+            if (m_bdata.m_centroidDiv > 0)
+            {
+                m_obboffset = new Vector3(m_bdata.m_centroid.X / m_bdata.m_centroidDiv, m_bdata.m_centroid.Y / m_bdata.m_centroidDiv, m_bdata.m_centroid.Z / m_bdata.m_centroidDiv);
+                x = (m_bdata.m_obbXmax - m_bdata.m_obbXmin) * 0.5f;
+                y = (m_bdata.m_obbYmax - m_bdata.m_obbYmin) * 0.5f;
+                z = (m_bdata.m_obbZmax - m_bdata.m_obbZmin) * 0.5f;
+            }
+            else
+            {
+                m_obboffset = Vector3.Zero;
+                x = 0.5f;
+                y = 0.5f;
+                z = 0.5f;
+            }
+            m_obb = new Vector3(x, y, z);
+            releaseBuildingMeshData();
+        }
+        public bool ToStream(Stream st)
+        {
+            if (m_indicesPtr == IntPtr.Zero || m_verticesPtr == IntPtr.Zero)
+                return false;
+            BinaryWriter bw = new BinaryWriter(st);
+            bool ok = true;
+            try
+            {
+                bw.Write(m_vertexCount);
+                bw.Write(m_indexCount);
+                for (int i = 0; i < 3 * m_vertexCount; i++)
+                    bw.Write(vertices[i]);
+                for (int i = 0; i < m_indexCount; i++)
+                    bw.Write(indexes[i]);
+                bw.Write(m_obb.X);
+                bw.Write(m_obb.Y);
+                bw.Write(m_obb.Z);
+                bw.Write(m_obboffset.X);
+                bw.Write(m_obboffset.Y);
+                bw.Write(m_obboffset.Z);
+            }
+            catch
+            {
+                ok = false;
+            }
+            if (bw != null)
+            {
+                bw.Flush();
+                bw.Close();
+            }
+            return ok;
+        }
+        public static Mesh FromStream(Stream st, AMeshKey key)
+        {
+            Mesh mesh = new Mesh();
+            mesh.releaseBuildingMeshData();
+            BinaryReader br = new BinaryReader(st);
+            bool ok = true;
+            try
+            {
+                mesh.m_vertexCount = br.ReadInt32();
+                mesh.m_indexCount = br.ReadInt32();
+                int n = 3 * mesh.m_vertexCount;
+                mesh.vertices = new float[n];
+                for (int i = 0; i < n; i++)
+                    mesh.vertices[i] = br.ReadSingle();
+                mesh.indexes = new int[mesh.m_indexCount];
+                for (int i = 0; i < mesh.m_indexCount; i++)
+                    mesh.indexes[i] = br.ReadInt32();
+                mesh.m_obb.X = br.ReadSingle();
+                mesh.m_obb.Y = br.ReadSingle();
+                mesh.m_obb.Z = br.ReadSingle();
+                mesh.m_obboffset.X = br.ReadSingle();
+                mesh.m_obboffset.Y = br.ReadSingle();
+                mesh.m_obboffset.Z = br.ReadSingle();
+            }
+            catch
+            {
+                ok = false;
+            }
+            br.Close();
+            if (ok)
+            {
+                mesh.pinMemory();
+                mesh.Key = key;
+                mesh.RefCount = 1;
+                return mesh;
+            }
+            mesh.vertices = null;
+            mesh.indexes = null;
+            return null;
+        }
+    }
+}
author	UbitUmarov	2015-09-12 21:38:26 +0100
committer	UbitUmarov	2015-09-12 21:38:26 +0100
commit	e9a56d5e194b9b80f8adf5d1ce5d9ab3f5f7bfdd (patch)
tree	1ca1c7225046f446604ffa80e348f2497d9ae482 /OpenSim/Region/PhysicsModules/ubOdeMeshing/Mesh.cs
parent	remove a silly and not necessary List i added (diff)
download	opensim-SC-e9a56d5e194b9b80f8adf5d1ce5d9ab3f5f7bfdd.zip opensim-SC-e9a56d5e194b9b80f8adf5d1ce5d9ab3f5f7bfdd.tar.gz opensim-SC-e9a56d5e194b9b80f8adf5d1ce5d9ab3f5f7bfdd.tar.bz2 opensim-SC-e9a56d5e194b9b80f8adf5d1ce5d9ab3f5f7bfdd.tar.xz

diff --git a/OpenSim/Region/PhysicsModules/ubOdeMeshing/Mesh.cs b/OpenSim/Region/PhysicsModules/ubOdeMeshing/Mesh.cs new file mode 100644 index 0000000..da8f623 --- /dev/null +++ b/OpenSim/Region/PhysicsModules/ubOdeMeshing/Mesh.cs
@@ -0,0 +1,601 @@
	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 copyright
	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
	28	using System;
	29	using System.Collections.Generic;
	30	using System.IO;
	31	using System.Runtime.InteropServices;
	32	using OpenSim.Region.PhysicsModules.SharedBase;
	33	using PrimMesher;
	34	using OpenMetaverse;
	35	using System.Runtime.Serialization;
	36	using System.Runtime.Serialization.Formatters.Binary;
	37
	38	namespace OpenSim.Region.PhysicsModule.ubODEMeshing
	39	{
	40	public class MeshBuildingData
	41	{
	42	public Dictionary<Vertex, int> m_vertices;
	43	public List<Triangle> m_triangles;
	44	public float m_obbXmin;
	45	public float m_obbXmax;
	46	public float m_obbYmin;
	47	public float m_obbYmax;
	48	public float m_obbZmin;
	49	public float m_obbZmax;
	50	public Vector3 m_centroid;
	51	public int m_centroidDiv;
	52	}
	53
	54	[Serializable()]
	55	public class Mesh : IMesh
	56	{
	57	float[] vertices;
	58	int[] indexes;
	59	Vector3 m_obb;
	60	Vector3 m_obboffset;
	61	[NonSerialized()]
	62	MeshBuildingData m_bdata;
	63	[NonSerialized()]
	64	GCHandle vhandler;
	65	[NonSerialized()]
	66	GCHandle ihandler;
	67	[NonSerialized()]
	68	IntPtr m_verticesPtr = IntPtr.Zero;
	69	[NonSerialized()]
	70	IntPtr m_indicesPtr = IntPtr.Zero;
	71	[NonSerialized()]
	72	int m_vertexCount = 0;
	73	[NonSerialized()]
	74	int m_indexCount = 0;
	75
	76	public int RefCount { get; set; }
	77	public AMeshKey Key { get; set; }
	78
	79	private class vertexcomp : IEqualityComparer<Vertex>
	80	{
	81	public bool Equals(Vertex v1, Vertex v2)
	82	{
	83	if (v1.X == v2.X && v1.Y == v2.Y && v1.Z == v2.Z)
	84	return true;
	85	else
	86	return false;
	87	}
	88	public int GetHashCode(Vertex v)
	89	{
	90	int a = v.X.GetHashCode();
	91	int b = v.Y.GetHashCode();
	92	int c = v.Z.GetHashCode();
	93	return (a << 16) ^ (b << 8) ^ c;
	94	}
	95	}
	96
	97	public Mesh()
	98	{
	99	vertexcomp vcomp = new vertexcomp();
	100
	101	m_bdata = new MeshBuildingData();
	102	m_bdata.m_vertices = new Dictionary<Vertex, int>(vcomp);
	103	m_bdata.m_triangles = new List<Triangle>();
	104	m_bdata.m_centroid = Vector3.Zero;
	105	m_bdata.m_centroidDiv = 0;
	106	m_bdata.m_obbXmin = float.MaxValue;
	107	m_bdata.m_obbXmax = float.MinValue;
	108	m_bdata.m_obbYmin = float.MaxValue;
	109	m_bdata.m_obbYmax = float.MinValue;
	110	m_bdata.m_obbZmin = float.MaxValue;
	111	m_bdata.m_obbZmax = float.MinValue;
	112	m_obb = new Vector3(0.5f, 0.5f, 0.5f);
	113	m_obboffset = Vector3.Zero;
	114	}
	115
	116
	117	public Mesh Scale(Vector3 scale)
	118	{
	119	if (m_verticesPtr == null \|\| m_indicesPtr == null)
	120	return null;
	121
	122	Mesh result = new Mesh();
	123
	124	float x = scale.X;
	125	float y = scale.Y;
	126	float z = scale.Z;
	127
	128	result.m_obb.X = m_obb.X * x;
	129	result.m_obb.Y = m_obb.Y * y;
	130	result.m_obb.Z = m_obb.Z * z;
	131	result.m_obboffset.X = m_obboffset.X * x;
	132	result.m_obboffset.Y = m_obboffset.Y * y;
	133	result.m_obboffset.Z = m_obboffset.Z * z;
	134
	135	result.vertices = new float[vertices.Length];
	136	int j = 0;
	137	for (int i = 0; i < m_vertexCount; i++)
	138	{
	139	result.vertices[j] = vertices[j] * x;
	140	j++;
	141	result.vertices[j] = vertices[j] * y;
	142	j++;
	143	result.vertices[j] = vertices[j] * z;
	144	j++;
	145	}
	146
	147	result.indexes = new int[indexes.Length];
	148	indexes.CopyTo(result.indexes,0);
	149
	150	result.pinMemory();
	151
	152	return result;
	153	}
	154
	155	public Mesh Clone()
	156	{
	157	Mesh result = new Mesh();
	158
	159	if (m_bdata != null)
	160	{
	161	result.m_bdata = new MeshBuildingData();
	162	foreach (Triangle t in m_bdata.m_triangles)
	163	{
	164	result.Add(new Triangle(t.v1.Clone(), t.v2.Clone(), t.v3.Clone()));
	165	}
	166	result.m_bdata.m_centroid = m_bdata.m_centroid;
	167	result.m_bdata.m_centroidDiv = m_bdata.m_centroidDiv;
	168	result.m_bdata.m_obbXmin = m_bdata.m_obbXmin;
	169	result.m_bdata.m_obbXmax = m_bdata.m_obbXmax;
	170	result.m_bdata.m_obbYmin = m_bdata.m_obbYmin;
	171	result.m_bdata.m_obbYmax = m_bdata.m_obbYmax;
	172	result.m_bdata.m_obbZmin = m_bdata.m_obbZmin;
	173	result.m_bdata.m_obbZmax = m_bdata.m_obbZmax;
	174	}
	175	result.m_obb = m_obb;
	176	result.m_obboffset = m_obboffset;
	177	return result;
	178	}
	179
	180	public void addVertexLStats(Vertex v)
	181	{
	182	float x = v.X;
	183	float y = v.Y;
	184	float z = v.Z;
	185
	186	m_bdata.m_centroid.X += x;
	187	m_bdata.m_centroid.Y += y;
	188	m_bdata.m_centroid.Z += z;
	189	m_bdata.m_centroidDiv++;
	190
	191	if (x > m_bdata.m_obbXmax)
	192	m_bdata.m_obbXmax = x;
	193	else if (x < m_bdata.m_obbXmin)
	194	m_bdata.m_obbXmin = x;
	195
	196	if (y > m_bdata.m_obbYmax)
	197	m_bdata.m_obbYmax = y;
	198	else if (y < m_bdata.m_obbYmin)
	199	m_bdata.m_obbYmin = y;
	200
	201	if (z > m_bdata.m_obbZmax)
	202	m_bdata.m_obbZmax = z;
	203	else if (z < m_bdata.m_obbZmin)
	204	m_bdata.m_obbZmin = z;
	205
	206	}
	207
	208	public void Add(Triangle triangle)
	209	{
	210	if (m_indicesPtr != IntPtr.Zero \|\| m_verticesPtr != IntPtr.Zero)
	211	throw new NotSupportedException("Attempt to Add to a pinned Mesh");
	212
	213
	214	triangle.v1.X = (float)Math.Round(triangle.v1.X, 6);
	215	triangle.v1.Y = (float)Math.Round(triangle.v1.Y, 6);
	216	triangle.v1.Z = (float)Math.Round(triangle.v1.Z, 6);
	217	triangle.v2.X = (float)Math.Round(triangle.v2.X, 6);
	218	triangle.v2.Y = (float)Math.Round(triangle.v2.Y, 6);
	219	triangle.v2.Z = (float)Math.Round(triangle.v2.Z, 6);
	220	triangle.v3.X = (float)Math.Round(triangle.v3.X, 6);
	221	triangle.v3.Y = (float)Math.Round(triangle.v3.Y, 6);
	222	triangle.v3.Z = (float)Math.Round(triangle.v3.Z, 6);
	223
	224	if ((triangle.v1.X == triangle.v2.X && triangle.v1.Y == triangle.v2.Y && triangle.v1.Z == triangle.v2.Z)
	225	\|\| (triangle.v1.X == triangle.v3.X && triangle.v1.Y == triangle.v3.Y && triangle.v1.Z == triangle.v3.Z)
	226	\|\| (triangle.v2.X == triangle.v3.X && triangle.v2.Y == triangle.v3.Y && triangle.v2.Z == triangle.v3.Z)
	227	)
	228	{
	229	return;
	230	}
	231
	232	if (m_bdata.m_vertices.Count == 0)
	233	{
	234	m_bdata.m_centroidDiv = 0;
	235	m_bdata.m_centroid = Vector3.Zero;
	236	}
	237
	238	if (!m_bdata.m_vertices.ContainsKey(triangle.v1))
	239	{
	240	m_bdata.m_vertices[triangle.v1] = m_bdata.m_vertices.Count;
	241	addVertexLStats(triangle.v1);
	242	}
	243	if (!m_bdata.m_vertices.ContainsKey(triangle.v2))
	244	{
	245	m_bdata.m_vertices[triangle.v2] = m_bdata.m_vertices.Count;
	246	addVertexLStats(triangle.v2);
	247	}
	248	if (!m_bdata.m_vertices.ContainsKey(triangle.v3))
	249	{
	250	m_bdata.m_vertices[triangle.v3] = m_bdata.m_vertices.Count;
	251	addVertexLStats(triangle.v3);
	252	}
	253	m_bdata.m_triangles.Add(triangle);
	254	}
	255
	256	public Vector3 GetCentroid()
	257	{
	258	return m_obboffset;
	259
	260	}
	261
	262	public Vector3 GetOBB()
	263	{
	264	return m_obb;
	265	float x, y, z;
	266	if (m_bdata.m_centroidDiv > 0)
	267	{
	268	x = (m_bdata.m_obbXmax - m_bdata.m_obbXmin) * 0.5f;
	269	y = (m_bdata.m_obbYmax - m_bdata.m_obbYmin) * 0.5f;
	270	z = (m_bdata.m_obbZmax - m_bdata.m_obbZmin) * 0.5f;
	271	}
	272	else // ??
	273	{
	274	x = 0.5f;
	275	y = 0.5f;
	276	z = 0.5f;
	277	}
	278	return new Vector3(x, y, z);
	279	}
	280
	281	public List<Vector3> getVertexList()
	282	{
	283	List<Vector3> result = new List<Vector3>();
	284	foreach (Vertex v in m_bdata.m_vertices.Keys)
	285	{
	286	result.Add(new Vector3(v.X, v.Y, v.Z));
	287	}
	288	return result;
	289	}
	290
	291	public float[] getVertexListAsFloat()
	292	{
	293	if (m_bdata.m_vertices == null)
	294	throw new NotSupportedException();
	295	float[] result = new float[m_bdata.m_vertices.Count * 3];
	296	foreach (KeyValuePair<Vertex, int> kvp in m_bdata.m_vertices)
	297	{
	298	Vertex v = kvp.Key;
	299	int i = kvp.Value;
	300	result[3 * i + 0] = v.X;
	301	result[3 * i + 1] = v.Y;
	302	result[3 * i + 2] = v.Z;
	303	}
	304	return result;
	305	}
	306
	307	public float[] getVertexListAsFloatLocked()
	308	{
	309	return null;
	310	}
	311
	312	public void getVertexListAsPtrToFloatArray(out IntPtr _vertices, out int vertexStride, out int vertexCount)
	313	{
	314	// A vertex is 3 floats
	315	vertexStride = 3 * sizeof(float);
	316
	317	// If there isn't an unmanaged array allocated yet, do it now
	318	if (m_verticesPtr == IntPtr.Zero && m_bdata != null)
	319	{
	320	vertices = getVertexListAsFloat();
	321	// Each vertex is 3 elements (floats)
	322	m_vertexCount = vertices.Length / 3;
	323	vhandler = GCHandle.Alloc(vertices, GCHandleType.Pinned);
	324	m_verticesPtr = vhandler.AddrOfPinnedObject();
	325	GC.AddMemoryPressure(Buffer.ByteLength(vertices));
	326	}
	327	_vertices = m_verticesPtr;
	328	vertexCount = m_vertexCount;
	329	}
	330
	331	public int[] getIndexListAsInt()
	332	{
	333	if (m_bdata.m_triangles == null)
	334	throw new NotSupportedException();
	335	int[] result = new int[m_bdata.m_triangles.Count * 3];
	336	for (int i = 0; i < m_bdata.m_triangles.Count; i++)
	337	{
	338	Triangle t = m_bdata.m_triangles[i];
	339	result[3 * i + 0] = m_bdata.m_vertices[t.v1];
	340	result[3 * i + 1] = m_bdata.m_vertices[t.v2];
	341	result[3 * i + 2] = m_bdata.m_vertices[t.v3];
	342	}
	343	return result;
	344	}
	345
	346	/// <summary>
	347	/// creates a list of index values that defines triangle faces. THIS METHOD FREES ALL NON-PINNED MESH DATA
	348	/// </summary>
	349	/// <returns></returns>
	350	public int[] getIndexListAsIntLocked()
	351	{
	352	return null;
	353	}
	354
	355	public void getIndexListAsPtrToIntArray(out IntPtr indices, out int triStride, out int indexCount)
	356	{
	357	// If there isn't an unmanaged array allocated yet, do it now
	358	if (m_indicesPtr == IntPtr.Zero && m_bdata != null)
	359	{
	360	indexes = getIndexListAsInt();
	361	m_indexCount = indexes.Length;
	362	ihandler = GCHandle.Alloc(indexes, GCHandleType.Pinned);
	363	m_indicesPtr = ihandler.AddrOfPinnedObject();
	364	GC.AddMemoryPressure(Buffer.ByteLength(indexes));
	365	}
	366	// A triangle is 3 ints (indices)
	367	triStride = 3 * sizeof(int);
	368	indices = m_indicesPtr;
	369	indexCount = m_indexCount;
	370	}
	371
	372	public void releasePinned()
	373	{
	374	if (m_verticesPtr != IntPtr.Zero)
	375	{
	376	vhandler.Free();
	377	vertices = null;
	378	m_verticesPtr = IntPtr.Zero;
	379	}
	380	if (m_indicesPtr != IntPtr.Zero)
	381	{
	382	ihandler.Free();
	383	indexes = null;
	384	m_indicesPtr = IntPtr.Zero;
	385	}
	386	}
	387
	388	/// <summary>
	389	/// frees up the source mesh data to minimize memory - call this method after calling get*Locked() functions
	390	/// </summary>
	391	public void releaseSourceMeshData()
	392	{
	393	if (m_bdata != null)
	394	{
	395	m_bdata.m_triangles = null;
	396	m_bdata.m_vertices = null;
	397	}
	398	}
	399
	400	public void releaseBuildingMeshData()
	401	{
	402	if (m_bdata != null)
	403	{
	404	m_bdata.m_triangles = null;
	405	m_bdata.m_vertices = null;
	406	m_bdata = null;
	407	}
	408	}
	409
	410	public void Append(IMesh newMesh)
	411	{
	412	if (m_indicesPtr != IntPtr.Zero \|\| m_verticesPtr != IntPtr.Zero)
	413	throw new NotSupportedException("Attempt to Append to a pinned Mesh");
	414
	415	if (!(newMesh is Mesh))
	416	return;
	417
	418	foreach (Triangle t in ((Mesh)newMesh).m_bdata.m_triangles)
	419	Add(t);
	420	}
	421
	422	// Do a linear transformation of mesh.
	423	public void TransformLinear(float[,] matrix, float[] offset)
	424	{
	425	if (m_indicesPtr != IntPtr.Zero \|\| m_verticesPtr != IntPtr.Zero)
	426	throw new NotSupportedException("Attempt to TransformLinear a pinned Mesh");
	427
	428	foreach (Vertex v in m_bdata.m_vertices.Keys)
	429	{
	430	if (v == null)
	431	continue;
	432	float x, y, z;
	433	x = v.Xmatrix[0, 0] + v.Ymatrix[1, 0] + v.Z*matrix[2, 0];
	434	y = v.Xmatrix[0, 1] + v.Ymatrix[1, 1] + v.Z*matrix[2, 1];
	435	z = v.Xmatrix[0, 2] + v.Ymatrix[1, 2] + v.Z*matrix[2, 2];
	436	v.X = x + offset[0];
	437	v.Y = y + offset[1];
	438	v.Z = z + offset[2];
	439	}
	440	}
	441
	442	public void DumpRaw(String path, String name, String title)
	443	{
	444	if (path == null)
	445	return;
	446	if (m_bdata == null)
	447	return;
	448	String fileName = name + "_" + title + ".raw";
	449	String completePath = System.IO.Path.Combine(path, fileName);
	450	StreamWriter sw = new StreamWriter(completePath);
	451	foreach (Triangle t in m_bdata.m_triangles)
	452	{
	453	String s = t.ToStringRaw();
	454	sw.WriteLine(s);
	455	}
	456	sw.Close();
	457	}
	458
	459	public void TrimExcess()
	460	{
	461	m_bdata.m_triangles.TrimExcess();
	462	}
	463
	464	public void pinMemory()
	465	{
	466	m_vertexCount = vertices.Length / 3;
	467	vhandler = GCHandle.Alloc(vertices, GCHandleType.Pinned);
	468	m_verticesPtr = vhandler.AddrOfPinnedObject();
	469	GC.AddMemoryPressure(Buffer.ByteLength(vertices));
	470
	471	m_indexCount = indexes.Length;
	472	ihandler = GCHandle.Alloc(indexes, GCHandleType.Pinned);
	473	m_indicesPtr = ihandler.AddrOfPinnedObject();
	474	GC.AddMemoryPressure(Buffer.ByteLength(indexes));
	475	}
	476
	477	public void PrepForOde()
	478	{
	479	// If there isn't an unmanaged array allocated yet, do it now
	480	if (m_verticesPtr == IntPtr.Zero)
	481	vertices = getVertexListAsFloat();
	482
	483	// If there isn't an unmanaged array allocated yet, do it now
	484	if (m_indicesPtr == IntPtr.Zero)
	485	indexes = getIndexListAsInt();
	486
	487	pinMemory();
	488
	489	float x, y, z;
	490
	491	if (m_bdata.m_centroidDiv > 0)
	492	{
	493	m_obboffset = new Vector3(m_bdata.m_centroid.X / m_bdata.m_centroidDiv, m_bdata.m_centroid.Y / m_bdata.m_centroidDiv, m_bdata.m_centroid.Z / m_bdata.m_centroidDiv);
	494	x = (m_bdata.m_obbXmax - m_bdata.m_obbXmin) * 0.5f;
	495	y = (m_bdata.m_obbYmax - m_bdata.m_obbYmin) * 0.5f;
	496	z = (m_bdata.m_obbZmax - m_bdata.m_obbZmin) * 0.5f;
	497	}
	498
	499	else
	500	{
	501	m_obboffset = Vector3.Zero;
	502	x = 0.5f;
	503	y = 0.5f;
	504	z = 0.5f;
	505	}
	506	m_obb = new Vector3(x, y, z);
	507
	508	releaseBuildingMeshData();
	509	}
	510	public bool ToStream(Stream st)
	511	{
	512	if (m_indicesPtr == IntPtr.Zero \|\| m_verticesPtr == IntPtr.Zero)
	513	return false;
	514
	515	BinaryWriter bw = new BinaryWriter(st);
	516	bool ok = true;
	517
	518	try
	519	{
	520
	521	bw.Write(m_vertexCount);
	522	bw.Write(m_indexCount);
	523
	524	for (int i = 0; i < 3 * m_vertexCount; i++)
	525	bw.Write(vertices[i]);
	526	for (int i = 0; i < m_indexCount; i++)
	527	bw.Write(indexes[i]);
	528	bw.Write(m_obb.X);
	529	bw.Write(m_obb.Y);
	530	bw.Write(m_obb.Z);
	531	bw.Write(m_obboffset.X);
	532	bw.Write(m_obboffset.Y);
	533	bw.Write(m_obboffset.Z);
	534	}
	535	catch
	536	{
	537	ok = false;
	538	}
	539
	540	if (bw != null)
	541	{
	542	bw.Flush();
	543	bw.Close();
	544	}
	545
	546	return ok;
	547	}
	548
	549	public static Mesh FromStream(Stream st, AMeshKey key)
	550	{
	551	Mesh mesh = new Mesh();
	552	mesh.releaseBuildingMeshData();
	553
	554	BinaryReader br = new BinaryReader(st);
	555
	556	bool ok = true;
	557	try
	558	{
	559	mesh.m_vertexCount = br.ReadInt32();
	560	mesh.m_indexCount = br.ReadInt32();
	561
	562	int n = 3 * mesh.m_vertexCount;
	563	mesh.vertices = new float[n];
	564	for (int i = 0; i < n; i++)
	565	mesh.vertices[i] = br.ReadSingle();
	566
	567	mesh.indexes = new int[mesh.m_indexCount];
	568	for (int i = 0; i < mesh.m_indexCount; i++)
	569	mesh.indexes[i] = br.ReadInt32();
	570
	571	mesh.m_obb.X = br.ReadSingle();
	572	mesh.m_obb.Y = br.ReadSingle();
	573	mesh.m_obb.Z = br.ReadSingle();
	574
	575	mesh.m_obboffset.X = br.ReadSingle();
	576	mesh.m_obboffset.Y = br.ReadSingle();
	577	mesh.m_obboffset.Z = br.ReadSingle();
	578	}
	579	catch
	580	{
	581	ok = false;
	582	}
	583
	584	br.Close();
	585
	586	if (ok)
	587	{
	588	mesh.pinMemory();
	589
	590	mesh.Key = key;
	591	mesh.RefCount = 1;
	592
	593	return mesh;
	594	}
	595
	596	mesh.vertices = null;
	597	mesh.indexes = null;
	598	return null;
	599	}
	600	}
	601	}