3 files changed, 39 insertions, 282 deletions
diff --git a/OpenSim/Region/Physics/Meshing/Extruder.cs b/OpenSim/Region/Physics/Meshing/Extruder.cs
index 77bd9a4..b14deeb 100644
--- a/OpenSim/Region/Physics/Meshing/Extruder.cs
+++ b/OpenSim/Region/Physics/Meshing/Extruder.cs
@@ -64,193 +64,6 @@ namespace OpenSim.Region.Physics.Meshing
        public float pathTaperY = 0.0f;
        /// <summary>
-        /// (deprecated) creates a 3 layer extruded mesh of a profile hull
-        /// </summary>
-        /// <param name="m"></param>
-        /// <returns></returns>
-        public Mesh Extrude(Mesh m)
-        {
-            startParameter = float.MinValue;
-            stopParameter = float.MaxValue;
-            // Currently only works for iSteps=1;
-            Mesh result = new Mesh();
-            Mesh workingPlus = m.Clone();
-            Mesh workingMiddle = m.Clone();
-            Mesh workingMinus = m.Clone();
-            Quaternion tt = new Quaternion();
-            Vertex v2 = new Vertex(0, 0, 0);
-            foreach (Vertex v in workingPlus.vertices)
-            {
-                if (v == null)
-                    continue;
-                // This is the top
-                // Set the Z + .5 to match the rest of the scale of the mesh
-                // Scale it by Size, and Taper the scaling
-                v.Z = +.5f;
-                v.X *= (size.X * taperTopFactorX);
-                v.Y *= (size.Y * taperTopFactorY);
-                v.Z *= size.Z;
-                //Push the top of the object over by the Top Shear amount
-                v.X += pushX * size.X;
-                v.Y += pushY * size.Y;
-                if (twistTop != 0)
-                {
-                    // twist and shout
-                    tt = new Quaternion(new Vertex(0, 0, 1), twistTop);
-                    v2 = v * tt;
-                    v.X = v2.X;
-                    v.Y = v2.Y;
-                    v.Z = v2.Z;
-                }
-            }
-            foreach (Vertex v in workingMiddle.vertices)
-            {
-                if (v == null)
-                    continue;
-                // This is the top
-                // Set the Z + .5 to match the rest of the scale of the mesh
-                // Scale it by Size, and Taper the scaling
-                v.Z *= size.Z;
-                v.X *= (size.X * ((taperTopFactorX + taperBotFactorX) /2));
-                v.Y *= (size.Y * ((taperTopFactorY + taperBotFactorY) / 2));
-                v.X += (pushX / 2) * size.X;
-                v.Y += (pushY / 2) * size.Y;
-                //Push the top of the object over by the Top Shear amount
-                if (twistMid != 0)
-                {
-                    // twist and shout
-                    tt = new Quaternion(new Vertex(0, 0, 1), twistMid);
-                    v2 = v * tt;
-                    v.X = v2.X;
-                    v.Y = v2.Y;
-                    v.Z = v2.Z;
-                }
-            }
-            foreach (Vertex v in workingMinus.vertices)
-            {
-                if (v == null)
-                    continue;
-                // This is the bottom
-                v.Z = -.5f;
-                v.X *= (size.X * taperBotFactorX);
-                v.Y *= (size.Y * taperBotFactorY);
-                v.Z *= size.Z;
-                if (twistBot != 0)
-                {
-                    // twist and shout
-                    tt = new Quaternion(new Vertex(0, 0, 1), twistBot);
-                    v2 = v * tt;
-                    v.X = v2.X;
-                    v.Y = v2.Y;
-                    v.Z = v2.Z;
-                }
-            }
-            foreach (Triangle t in workingMinus.triangles)
-            {
-                t.invertNormal();
-            }
-            result.Append(workingMinus);
-            result.Append(workingMiddle);
-            int iLastNull = 0;
-            for (int i = 0; i < workingMiddle.vertices.Count; i++)
-            {
-                int iNext = i + 1;
-                if (workingMiddle.vertices[i] == null) // Can't make a simplex here
-                {
-                    iLastNull = i + 1;
-                    continue;
-                }
-                if (i == workingMiddle.vertices.Count - 1) // End of list
-                {
-                    iNext = iLastNull;
-                }
-                if (workingMiddle.vertices[iNext] == null) // Null means wrap to begin of last segment
-                {
-                    iNext = iLastNull;
-                }
-                Triangle tSide;
-                tSide = new Triangle(workingMiddle.vertices[i], workingMinus.vertices[i], workingMiddle.vertices[iNext]);
-                result.Add(tSide);
-                tSide =
-                    new Triangle(workingMiddle.vertices[iNext], workingMinus.vertices[i], workingMinus.vertices[iNext]);
-                result.Add(tSide);
-            }
-            //foreach (Triangle t in workingPlus.triangles)
-            //{
-                //t.invertNormal();
-           // }
-            result.Append(workingPlus);
-            iLastNull = 0;
-            for (int i = 0; i < workingPlus.vertices.Count; i++)
-            {
-                int iNext = i + 1;
-                if (workingPlus.vertices[i] == null) // Can't make a simplex here
-                {
-                    iLastNull = i + 1;
-                    continue;
-                }
-                if (i == workingPlus.vertices.Count - 1) // End of list
-                {
-                    iNext = iLastNull;
-                }
-                if (workingPlus.vertices[iNext] == null) // Null means wrap to begin of last segment
-                {
-                    iNext = iLastNull;
-                }
-                Triangle tSide;
-                tSide = new Triangle(workingPlus.vertices[i], workingMiddle.vertices[i], workingPlus.vertices[iNext]);
-                result.Add(tSide);
-                tSide =
-                    new Triangle(workingPlus.vertices[iNext], workingMiddle.vertices[i], workingMiddle.vertices[iNext]);
-                result.Add(tSide);
-            }
-            if (twistMid != 0)
-            {
-                foreach (Vertex v in result.vertices)
-                {
-                    // twist and shout
-                    if (v != null)
-                    {
-                        tt = new Quaternion(new Vertex(0, 0, -1), twistMid*2);
-                        v2 = v * tt;
-                        v.X = v2.X;
-                        v.Y = v2.Y;
-                        v.Z = v2.Z;
-                    }
-                }
-            }
-            return result;
-        }
-        /// <summary>
        /// Creates an extrusion of a profile along a linear path. Used to create prim types box, cylinder, and prism.
        /// </summary>
        /// <param name="m"></param>
@@ -350,7 +163,7 @@ namespace OpenSim.Region.Physics.Meshing
                // apply twist rotation to the profile layer and position the layer in the prim
-                Quaternion profileRot = new Quaternion(new Vertex(0.0f, 0.0f, -1.0f), twist);
+                Quaternion profileRot = new Quaternion(new Vertex(0.0f, 0.0f, 1.0f), twist);
                foreach (Vertex v in newLayer.vertices)
                {
                    if (v != null)
@@ -566,7 +379,7 @@ namespace OpenSim.Region.Physics.Meshing
                    // next apply twist rotation to the profile layer
                    if (twistTotal != 0.0f || twistBot != 0.0f)
                    {
-                        Quaternion profileRot = new Quaternion(new Vertex(0.0f, 0.0f, -1.0f), twist);
+                        Quaternion profileRot = new Quaternion(new Vertex(0.0f, 0.0f, 1.0f), twist);
                        foreach (Vertex v in newLayer.vertices)
                        {
                            if (v != null)
@@ -581,7 +394,7 @@ namespace OpenSim.Region.Physics.Meshing
                // now orient the rotation of the profile layer relative to it's position on the path
                // adding pushY to the angle used to generate the quat appears to approximate the viewer
-                Quaternion layerRot = new Quaternion(new Vertex(-1.0f, 0.0f, 0.0f), (float)angle + pushY * 0.9f);
+                Quaternion layerRot = new Quaternion(new Vertex(1.0f, 0.0f, 0.0f), (float)angle + pushY * 0.9f);
                foreach (Vertex v in newLayer.vertices)
                {
                    if (v != null)
diff --git a/OpenSim/Region/Physics/Meshing/HelperTypes.cs b/OpenSim/Region/Physics/Meshing/HelperTypes.cs
index 418baf5..816b6bb 100644
--- a/OpenSim/Region/Physics/Meshing/HelperTypes.cs
+++ b/OpenSim/Region/Physics/Meshing/HelperTypes.cs
@@ -70,11 +70,6 @@ public class Quaternion
        return c;
    }
-    public Matrix4 computeMatrix()
-    {
-        return new Matrix4(this);
-    }
    public void normalize()
    {
        //float mag = length();
@@ -95,77 +90,8 @@ public class Quaternion
        return (float)Math.Sqrt(w * w + x * x + y * y + z * z);
    }
 }
-public class Matrix4
-{
-    public float m00 = 0;
-    public float m01 = 0;
-    public float m02 = 0;
-    public float m03 = 0;
-    public float m10 = 0;
-    public float m11 = 0;
-    public float m12 = 0;
-    public float m13 = 0;
-    public float m20 = 0;
-    public float m21 = 0;
-    public float m22 = 0;
-    public float m23 = 0;
-    public float m30 = 0;
-    public float m31 = 0;
-    public float m32 = 0;
-    public float m33 = 1;
-    public Matrix4(float m001, float m011, float m021, float m031, float m101, float m111, float m121, float m131, float m201, float m211, float m221, float m231, float m301, float m311, float m321, float m331)
-    {
-        m00 = m001;
-        m01 = m011;
-        m02 = m021;
-        m03 = m031;
-        m10 = m101;
-        m11 = m111;
-        m12 = m121;
-        m13 = m131;
-        m20 = m201;
-        m21 = m211;
-        m22 = m221;
-        m23 = m231;
-        m30 = m301;
-        m31 = m311;
-        m32 = m321;
-        m33 = m331;
-    }
-    public Matrix4()
-    {
-    }
-    public Matrix4(Quaternion r)
-    {
-        m00 = 1 - (2 * (r.y * r.y)) - (2 * (r.z * r.z));
-        m01 = (r.x * r.y * 2) - (r.w * r.z * 2);
-        m02 = (r.x * r.z * 2) + (r.w * r.y * 2);
-        m03 = 0f;
-        m10 = (r.x * r.y * 2) + (r.w * r.z * 2);
-        m11 = 1 - (2 * (r.x * r.x)) - (2 * (r.z * r.z));
-        m12 = (r.y * r.z * 2) - (r.w * r.x * 2);
-        m13 = 0f;
-        m20 = (r.x * r.z * 2) - (r.w * r.y * 2);
-        m21 = (r.y * r.z * 2) - (r.w * r.x * 2);
-        m22 = 1 - (2 * (r.x * r.x)) - (2 * (r.y * r.y));
-        m23 = 0f;
-        m30 = 0f;
-        m31 = 0f;
-        m32 = 0f;
-        m33 = 1f;
-    }
-    public Vertex transform(Vertex o)
-    {
-        Vertex r = new Vertex(0,0,0);
-        // w value implicitly 1 therefore the last + m3x actually represents (m3x * o.W) = m3x
-        // in calculating the dot product.
-        r.X = (m00 * o.X) + (m10 * o.Y) + (m20 * o.Z) + m30;
-        r.Y = (m01 * o.X) + (m11 * o.Y) + (m21 * o.Z) + m31;
-        r.Z = (m02 * o.X) + (m12 * o.Y) + (m22 * o.Z) + m32;
-        return r;
-    }
-}
 public class Vertex : PhysicsVector, IComparable<Vertex>
 {
@@ -199,8 +125,40 @@ public class Vertex : PhysicsVector, IComparable<Vertex>
 #pragma warning disable 0108
    public static Vertex operator *(Vertex v, Quaternion q)
    {
-        Matrix4 tm = q.computeMatrix();
+        // From http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/transforms/
-        return tm.transform(v);
+        Vertex v2 = new Vertex(0f, 0f, 0f);
+        v2.X =   q.w * q.w * v.X +
+            2f * q.y * q.w * v.Z -
+            2f * q.z * q.w * v.Y +
+                 q.x * q.x * v.X +
+            2f * q.y * q.x * v.Y +
+            2f * q.z * q.x * v.Z -
+                 q.z * q.z * v.X -
+                 q.y * q.y * v.X;
+        v2.Y =
+            2f * q.x * q.y * v.X +
+                 q.y * q.y * v.Y +
+            2f * q.z * q.y * v.Z +
+            2f * q.w * q.z * v.X -
+                 q.z * q.z * v.Y +
+                 q.w * q.w * v.Y -
+            2f * q.x * q.w * v.Z -
+                 q.x * q.x * v.Y;
+        v2.Z =
+            2f * q.x * q.z * v.X +
+            2f * q.y * q.z * v.Y +
+                 q.z * q.z * v.Z -
+            2f * q.w * q.y * v.X -
+                 q.y * q.y * v.Z +
+            2f * q.w * q.x * v.Y -
+                 q.x * q.x * v.Z +
+                 q.w * q.w * v.Z;
+        return v2;
    }
    public static Vertex operator +(Vertex v1, Vertex v2)
diff --git a/OpenSim/Region/Physics/Meshing/Meshmerizer.cs b/OpenSim/Region/Physics/Meshing/Meshmerizer.cs
index 984114b..58da667 100644
--- a/OpenSim/Region/Physics/Meshing/Meshmerizer.cs
+++ b/OpenSim/Region/Physics/Meshing/Meshmerizer.cs
@@ -1556,20 +1556,6 @@ namespace OpenSim.Region.Physics.Meshing
                // m_log.DebugFormat("Starting cutting of the hollow shape from the prim {1}", 0, primName);
                SimpleHull cuttedHull = SimpleHull.SubtractHull(outerHull, cutHull);
-                if ((primShape.ProfileCurve & 0x07) == (byte)ProfileShape.Circle)
-                {
-                    Quaternion zFlip = new Quaternion(new Vertex(0.0f, 0.0f, 1.0f), (float)Math.PI);
-                    Vertex vTmp = new Vertex(0.0f, 0.0f, 0.0f);
-                    foreach (Vertex v in cuttedHull.getVertices())
-                        if (v != null)
-                        {
-                            vTmp = v * zFlip;
-                            v.X = vTmp.X;
-                            v.Y = vTmp.Y;
-                            v.Z = vTmp.Z;
-                        }
-                }
                outerHull = cuttedHull;
            }

diff --git a/OpenSim/Region/Physics/Meshing/Extruder.cs b/OpenSim/Region/Physics/Meshing/Extruder.cs index 77bd9a4..b14deeb 100644 --- a/OpenSim/Region/Physics/Meshing/Extruder.cs +++ b/OpenSim/Region/Physics/Meshing/Extruder.cs
@@ -64,193 +64,6 @@ namespace OpenSim.Region.Physics.Meshing
64	public float pathTaperY = 0.0f;	64	public float pathTaperY = 0.0f;
65		65
66	/// <summary>	66	/// <summary>
67	/// (deprecated) creates a 3 layer extruded mesh of a profile hull
68	/// </summary>
69	/// <param name="m"></param>
70	/// <returns></returns>
71	public Mesh Extrude(Mesh m)
72	{
73	startParameter = float.MinValue;
74	stopParameter = float.MaxValue;
75	// Currently only works for iSteps=1;
76	Mesh result = new Mesh();
77
78	Mesh workingPlus = m.Clone();
79	Mesh workingMiddle = m.Clone();
80	Mesh workingMinus = m.Clone();
81
82	Quaternion tt = new Quaternion();
83	Vertex v2 = new Vertex(0, 0, 0);
84
85	foreach (Vertex v in workingPlus.vertices)
86	{
87	if (v == null)
88	continue;
89
90	// This is the top
91	// Set the Z + .5 to match the rest of the scale of the mesh
92	// Scale it by Size, and Taper the scaling
93	v.Z = +.5f;
94	v.X = (size.X taperTopFactorX);
95	v.Y = (size.Y taperTopFactorY);
96	v.Z *= size.Z;
97
98	//Push the top of the object over by the Top Shear amount
99	v.X += pushX * size.X;
100	v.Y += pushY * size.Y;
101
102	if (twistTop != 0)
103	{
104	// twist and shout
105	tt = new Quaternion(new Vertex(0, 0, 1), twistTop);
106	v2 = v * tt;
107	v.X = v2.X;
108	v.Y = v2.Y;
109	v.Z = v2.Z;
110	}
111	}
112
113	foreach (Vertex v in workingMiddle.vertices)
114	{
115	if (v == null)
116	continue;
117
118	// This is the top
119	// Set the Z + .5 to match the rest of the scale of the mesh
120	// Scale it by Size, and Taper the scaling
121	v.Z *= size.Z;
122	v.X = (size.X ((taperTopFactorX + taperBotFactorX) /2));
123	v.Y = (size.Y ((taperTopFactorY + taperBotFactorY) / 2));
124
125	v.X += (pushX / 2) * size.X;
126	v.Y += (pushY / 2) * size.Y;
127	//Push the top of the object over by the Top Shear amount
128	if (twistMid != 0)
129	{
130	// twist and shout
131	tt = new Quaternion(new Vertex(0, 0, 1), twistMid);
132	v2 = v * tt;
133	v.X = v2.X;
134	v.Y = v2.Y;
135	v.Z = v2.Z;
136	}
137	}
138
139	foreach (Vertex v in workingMinus.vertices)
140	{
141	if (v == null)
142	continue;
143
144	// This is the bottom
145	v.Z = -.5f;
146	v.X = (size.X taperBotFactorX);
147	v.Y = (size.Y taperBotFactorY);
148	v.Z *= size.Z;
149
150	if (twistBot != 0)
151	{
152	// twist and shout
153	tt = new Quaternion(new Vertex(0, 0, 1), twistBot);
154	v2 = v * tt;
155	v.X = v2.X;
156	v.Y = v2.Y;
157	v.Z = v2.Z;
158	}
159	}
160
161	foreach (Triangle t in workingMinus.triangles)
162	{
163	t.invertNormal();
164	}
165
166	result.Append(workingMinus);
167	result.Append(workingMiddle);
168
169	int iLastNull = 0;
170
171	for (int i = 0; i < workingMiddle.vertices.Count; i++)
172	{
173	int iNext = i + 1;
174
175	if (workingMiddle.vertices[i] == null) // Can't make a simplex here
176	{
177	iLastNull = i + 1;
178	continue;
179	}
180
181	if (i == workingMiddle.vertices.Count - 1) // End of list
182	{
183	iNext = iLastNull;
184	}
185
186	if (workingMiddle.vertices[iNext] == null) // Null means wrap to begin of last segment
187	{
188	iNext = iLastNull;
189	}
190
191	Triangle tSide;
192	tSide = new Triangle(workingMiddle.vertices[i], workingMinus.vertices[i], workingMiddle.vertices[iNext]);
193	result.Add(tSide);
194
195	tSide =
196	new Triangle(workingMiddle.vertices[iNext], workingMinus.vertices[i], workingMinus.vertices[iNext]);
197	result.Add(tSide);
198	}
199	//foreach (Triangle t in workingPlus.triangles)
200	//{
201	//t.invertNormal();
202	// }
203	result.Append(workingPlus);
204
205	iLastNull = 0;
206	for (int i = 0; i < workingPlus.vertices.Count; i++)
207	{
208	int iNext = i + 1;
209
210	if (workingPlus.vertices[i] == null) // Can't make a simplex here
211	{
212	iLastNull = i + 1;
213	continue;
214	}
215
216	if (i == workingPlus.vertices.Count - 1) // End of list
217	{
218	iNext = iLastNull;
219	}
220
221	if (workingPlus.vertices[iNext] == null) // Null means wrap to begin of last segment
222	{
223	iNext = iLastNull;
224	}
225
226	Triangle tSide;
227	tSide = new Triangle(workingPlus.vertices[i], workingMiddle.vertices[i], workingPlus.vertices[iNext]);
228	result.Add(tSide);
229
230	tSide =
231	new Triangle(workingPlus.vertices[iNext], workingMiddle.vertices[i], workingMiddle.vertices[iNext]);
232	result.Add(tSide);
233	}
234
235	if (twistMid != 0)
236	{
237	foreach (Vertex v in result.vertices)
238	{
239	// twist and shout
240	if (v != null)
241	{
242	tt = new Quaternion(new Vertex(0, 0, -1), twistMid*2);
243	v2 = v * tt;
244	v.X = v2.X;
245	v.Y = v2.Y;
246	v.Z = v2.Z;
247	}
248	}
249	}
250	return result;
251	}
252
253	/// <summary>
254	/// Creates an extrusion of a profile along a linear path. Used to create prim types box, cylinder, and prism.	67	/// Creates an extrusion of a profile along a linear path. Used to create prim types box, cylinder, and prism.
255	/// </summary>	68	/// </summary>
256	/// <param name="m"></param>	69	/// <param name="m"></param>
@@ -350,7 +163,7 @@ namespace OpenSim.Region.Physics.Meshing
350		163
351	// apply twist rotation to the profile layer and position the layer in the prim	164	// apply twist rotation to the profile layer and position the layer in the prim
352		165
353	Quaternion profileRot = new Quaternion(new Vertex(0.0f, 0.0f, -1.0f), twist);	166	Quaternion profileRot = new Quaternion(new Vertex(0.0f, 0.0f, 1.0f), twist);
354	foreach (Vertex v in newLayer.vertices)	167	foreach (Vertex v in newLayer.vertices)
355	{	168	{
356	if (v != null)	169	if (v != null)
@@ -566,7 +379,7 @@ namespace OpenSim.Region.Physics.Meshing
566	// next apply twist rotation to the profile layer	379	// next apply twist rotation to the profile layer
567	if (twistTotal != 0.0f \|\| twistBot != 0.0f)	380	if (twistTotal != 0.0f \|\| twistBot != 0.0f)
568	{	381	{
569	Quaternion profileRot = new Quaternion(new Vertex(0.0f, 0.0f, -1.0f), twist);	382	Quaternion profileRot = new Quaternion(new Vertex(0.0f, 0.0f, 1.0f), twist);
570	foreach (Vertex v in newLayer.vertices)	383	foreach (Vertex v in newLayer.vertices)
571	{	384	{
572	if (v != null)	385	if (v != null)
@@ -581,7 +394,7 @@ namespace OpenSim.Region.Physics.Meshing
581		394
582	// now orient the rotation of the profile layer relative to it's position on the path	395	// now orient the rotation of the profile layer relative to it's position on the path
583	// adding pushY to the angle used to generate the quat appears to approximate the viewer	396	// adding pushY to the angle used to generate the quat appears to approximate the viewer
584	Quaternion layerRot = new Quaternion(new Vertex(-1.0f, 0.0f, 0.0f), (float)angle + pushY * 0.9f);	397	Quaternion layerRot = new Quaternion(new Vertex(1.0f, 0.0f, 0.0f), (float)angle + pushY * 0.9f);
585	foreach (Vertex v in newLayer.vertices)	398	foreach (Vertex v in newLayer.vertices)
586	{	399	{
587	if (v != null)	400	if (v != null)


diff --git a/OpenSim/Region/Physics/Meshing/HelperTypes.cs b/OpenSim/Region/Physics/Meshing/HelperTypes.cs index 418baf5..816b6bb 100644 --- a/OpenSim/Region/Physics/Meshing/HelperTypes.cs +++ b/OpenSim/Region/Physics/Meshing/HelperTypes.cs
@@ -70,11 +70,6 @@ public class Quaternion
70	return c;	70	return c;
71	}	71	}
72		72
73
74	public Matrix4 computeMatrix()
75	{
76	return new Matrix4(this);
77	}
78	public void normalize()	73	public void normalize()
79	{	74	{
80	//float mag = length();	75	//float mag = length();
@@ -95,77 +90,8 @@ public class Quaternion
95	return (float)Math.Sqrt(w * w + x * x + y * y + z * z);	90	return (float)Math.Sqrt(w * w + x * x + y * y + z * z);
96	}	91	}
97	}	92	}
98	public class Matrix4	93
99	{	94
100	public float m00 = 0;
101	public float m01 = 0;
102	public float m02 = 0;
103	public float m03 = 0;
104	public float m10 = 0;
105	public float m11 = 0;
106	public float m12 = 0;
107	public float m13 = 0;
108	public float m20 = 0;
109	public float m21 = 0;
110	public float m22 = 0;
111	public float m23 = 0;
112	public float m30 = 0;
113	public float m31 = 0;
114	public float m32 = 0;
115	public float m33 = 1;
116
117	public Matrix4(float m001, float m011, float m021, float m031, float m101, float m111, float m121, float m131, float m201, float m211, float m221, float m231, float m301, float m311, float m321, float m331)
118	{
119	m00 = m001;
120	m01 = m011;
121	m02 = m021;
122	m03 = m031;
123	m10 = m101;
124	m11 = m111;
125	m12 = m121;
126	m13 = m131;
127	m20 = m201;
128	m21 = m211;
129	m22 = m221;
130	m23 = m231;
131	m30 = m301;
132	m31 = m311;
133	m32 = m321;
134	m33 = m331;
135	}
136	public Matrix4()
137	{
138	}
139	public Matrix4(Quaternion r)
140	{
141	m00 = 1 - (2 * (r.y * r.y)) - (2 * (r.z * r.z));
142	m01 = (r.x * r.y * 2) - (r.w * r.z * 2);
143	m02 = (r.x * r.z * 2) + (r.w * r.y * 2);
144	m03 = 0f;
145	m10 = (r.x * r.y * 2) + (r.w * r.z * 2);
146	m11 = 1 - (2 * (r.x * r.x)) - (2 * (r.z * r.z));
147	m12 = (r.y * r.z * 2) - (r.w * r.x * 2);
148	m13 = 0f;
149	m20 = (r.x * r.z * 2) - (r.w * r.y * 2);
150	m21 = (r.y * r.z * 2) - (r.w * r.x * 2);
151	m22 = 1 - (2 * (r.x * r.x)) - (2 * (r.y * r.y));
152	m23 = 0f;
153	m30 = 0f;
154	m31 = 0f;
155	m32 = 0f;
156	m33 = 1f;
157	}
158	public Vertex transform(Vertex o)
159	{
160	Vertex r = new Vertex(0,0,0);
161	// w value implicitly 1 therefore the last + m3x actually represents (m3x * o.W) = m3x
162	// in calculating the dot product.
163	r.X = (m00 * o.X) + (m10 * o.Y) + (m20 * o.Z) + m30;
164	r.Y = (m01 * o.X) + (m11 * o.Y) + (m21 * o.Z) + m31;
165	r.Z = (m02 * o.X) + (m12 * o.Y) + (m22 * o.Z) + m32;
166	return r;
167	}
168	}
169		95
170	public class Vertex : PhysicsVector, IComparable<Vertex>	96	public class Vertex : PhysicsVector, IComparable<Vertex>
171	{	97	{
@@ -199,8 +125,40 @@ public class Vertex : PhysicsVector, IComparable<Vertex>
199	#pragma warning disable 0108	125	#pragma warning disable 0108
200	public static Vertex operator *(Vertex v, Quaternion q)	126	public static Vertex operator *(Vertex v, Quaternion q)
201	{	127	{
202	Matrix4 tm = q.computeMatrix();	128	// From http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/transforms/
203	return tm.transform(v);	129
		130	Vertex v2 = new Vertex(0f, 0f, 0f);
		131
		132	v2.X = q.w * q.w * v.X +
		133	2f * q.y * q.w * v.Z -
		134	2f * q.z * q.w * v.Y +
		135	q.x * q.x * v.X +
		136	2f * q.y * q.x * v.Y +
		137	2f * q.z * q.x * v.Z -
		138	q.z * q.z * v.X -
		139	q.y * q.y * v.X;
		140
		141	v2.Y =
		142	2f * q.x * q.y * v.X +
		143	q.y * q.y * v.Y +
		144	2f * q.z * q.y * v.Z +
		145	2f * q.w * q.z * v.X -
		146	q.z * q.z * v.Y +
		147	q.w * q.w * v.Y -
		148	2f * q.x * q.w * v.Z -
		149	q.x * q.x * v.Y;
		150
		151	v2.Z =
		152	2f * q.x * q.z * v.X +
		153	2f * q.y * q.z * v.Y +
		154	q.z * q.z * v.Z -
		155	2f * q.w * q.y * v.X -
		156	q.y * q.y * v.Z +
		157	2f * q.w * q.x * v.Y -
		158	q.x * q.x * v.Z +
		159	q.w * q.w * v.Z;
		160
		161	return v2;
204	}	162	}
205		163
206	public static Vertex operator +(Vertex v1, Vertex v2)	164	public static Vertex operator +(Vertex v1, Vertex v2)


diff --git a/OpenSim/Region/Physics/Meshing/Meshmerizer.cs b/OpenSim/Region/Physics/Meshing/Meshmerizer.cs index 984114b..58da667 100644 --- a/OpenSim/Region/Physics/Meshing/Meshmerizer.cs +++ b/OpenSim/Region/Physics/Meshing/Meshmerizer.cs
@@ -1556,20 +1556,6 @@ namespace OpenSim.Region.Physics.Meshing
1556	// m_log.DebugFormat("Starting cutting of the hollow shape from the prim {1}", 0, primName);	1556	// m_log.DebugFormat("Starting cutting of the hollow shape from the prim {1}", 0, primName);
1557	SimpleHull cuttedHull = SimpleHull.SubtractHull(outerHull, cutHull);	1557	SimpleHull cuttedHull = SimpleHull.SubtractHull(outerHull, cutHull);
1558		1558
1559	if ((primShape.ProfileCurve & 0x07) == (byte)ProfileShape.Circle)
1560	{
1561	Quaternion zFlip = new Quaternion(new Vertex(0.0f, 0.0f, 1.0f), (float)Math.PI);
1562	Vertex vTmp = new Vertex(0.0f, 0.0f, 0.0f);
1563	foreach (Vertex v in cuttedHull.getVertices())
1564	if (v != null)
1565	{
1566	vTmp = v * zFlip;
1567	v.X = vTmp.X;
1568	v.Y = vTmp.Y;
1569	v.Z = vTmp.Z;
1570	}
1571	}
1572
1573	outerHull = cuttedHull;	1559	outerHull = cuttedHull;
1574	}	1560	}
1575		1561