342 lines
9.5 KiB
C#
342 lines
9.5 KiB
C#
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/* The MIT License
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*
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* Copyright (c) 2010 Intel Corporation.
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* All rights reserved.
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*
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* Based on the convexdecomposition library from
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* <http://codesuppository.googlecode.com> by John W. Ratcliff and Stan Melax.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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using System;
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using System.Collections.Generic;
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namespace OpenSim.Region.Physics.ConvexDecompositionDotNet
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{
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public class Wpoint
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{
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public float3 mPoint;
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public float mWeight;
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public Wpoint(float3 p, float w)
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{
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mPoint = p;
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mWeight = w;
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}
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}
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public class CTri
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{
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private const int WSCALE = 4;
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public float3 mP1;
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public float3 mP2;
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public float3 mP3;
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public float3 mNear1;
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public float3 mNear2;
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public float3 mNear3;
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public float3 mNormal;
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public float mPlaneD;
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public float mConcavity;
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public float mC1;
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public float mC2;
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public float mC3;
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public int mI1;
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public int mI2;
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public int mI3;
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public int mProcessed; // already been added...
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public CTri(float3 p1, float3 p2, float3 p3, int i1, int i2, int i3)
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{
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mProcessed = 0;
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mI1 = i1;
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mI2 = i2;
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mI3 = i3;
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mP1 = new float3(p1);
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mP2 = new float3(p2);
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mP3 = new float3(p3);
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mNear1 = new float3();
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mNear2 = new float3();
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mNear3 = new float3();
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mNormal = new float3();
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mPlaneD = mNormal.ComputePlane(mP1, mP2, mP3);
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}
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public float Facing(CTri t)
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{
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return float3.dot(mNormal, t.mNormal);
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}
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public bool clip(float3 start, ref float3 end)
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{
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float3 sect = new float3();
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bool hit = lineIntersectsTriangle(start, end, mP1, mP2, mP3, ref sect);
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if (hit)
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end = sect;
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return hit;
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}
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public bool Concave(float3 p, ref float distance, ref float3 n)
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{
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n.NearestPointInTriangle(p, mP1, mP2, mP3);
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distance = p.Distance(n);
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return true;
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}
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public void addTri(int[] indices, int i1, int i2, int i3, ref int tcount)
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{
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indices[tcount * 3 + 0] = i1;
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indices[tcount * 3 + 1] = i2;
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indices[tcount * 3 + 2] = i3;
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tcount++;
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}
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public float getVolume()
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{
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int[] indices = new int[8 * 3];
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int tcount = 0;
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addTri(indices, 0, 1, 2, ref tcount);
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addTri(indices, 3, 4, 5, ref tcount);
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addTri(indices, 0, 3, 4, ref tcount);
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addTri(indices, 0, 4, 1, ref tcount);
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addTri(indices, 1, 4, 5, ref tcount);
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addTri(indices, 1, 5, 2, ref tcount);
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addTri(indices, 0, 3, 5, ref tcount);
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addTri(indices, 0, 5, 2, ref tcount);
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List<float3> vertices = new List<float3> { mP1, mP2, mP3, mNear1, mNear2, mNear3 };
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List<int> indexList = new List<int>(indices);
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float v = Concavity.computeMeshVolume(vertices, indexList);
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return v;
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}
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public float raySect(float3 p, float3 dir, ref float3 sect)
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{
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float4 plane = new float4();
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plane.x = mNormal.x;
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plane.y = mNormal.y;
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plane.z = mNormal.z;
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plane.w = mPlaneD;
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float3 dest = p + dir * 100000f;
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intersect(p, dest, ref sect, plane);
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return sect.Distance(p); // return the intersection distance
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}
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public float planeDistance(float3 p)
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{
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float4 plane = new float4();
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plane.x = mNormal.x;
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plane.y = mNormal.y;
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plane.z = mNormal.z;
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plane.w = mPlaneD;
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return DistToPt(p, plane);
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}
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public bool samePlane(CTri t)
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{
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const float THRESH = 0.001f;
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float dd = Math.Abs(t.mPlaneD - mPlaneD);
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if (dd > THRESH)
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return false;
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dd = Math.Abs(t.mNormal.x - mNormal.x);
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if (dd > THRESH)
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return false;
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dd = Math.Abs(t.mNormal.y - mNormal.y);
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if (dd > THRESH)
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return false;
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dd = Math.Abs(t.mNormal.z - mNormal.z);
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if (dd > THRESH)
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return false;
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return true;
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}
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public bool hasIndex(int i)
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{
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if (i == mI1 || i == mI2 || i == mI3)
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return true;
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return false;
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}
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public bool sharesEdge(CTri t)
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{
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bool ret = false;
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uint count = 0;
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if (t.hasIndex(mI1))
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count++;
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if (t.hasIndex(mI2))
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count++;
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if (t.hasIndex(mI3))
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count++;
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if (count >= 2)
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ret = true;
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return ret;
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}
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public float area()
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{
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float a = mConcavity * mP1.Area(mP2, mP3);
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return a;
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}
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public void addWeighted(List<Wpoint> list)
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{
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Wpoint p1 = new Wpoint(mP1, mC1);
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Wpoint p2 = new Wpoint(mP2, mC2);
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Wpoint p3 = new Wpoint(mP3, mC3);
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float3 d1 = mNear1 - mP1;
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float3 d2 = mNear2 - mP2;
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float3 d3 = mNear3 - mP3;
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d1 *= WSCALE;
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d2 *= WSCALE;
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d3 *= WSCALE;
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d1 = d1 + mP1;
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d2 = d2 + mP2;
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d3 = d3 + mP3;
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Wpoint p4 = new Wpoint(d1, mC1);
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Wpoint p5 = new Wpoint(d2, mC2);
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Wpoint p6 = new Wpoint(d3, mC3);
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list.Add(p1);
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list.Add(p2);
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list.Add(p3);
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list.Add(p4);
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list.Add(p5);
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list.Add(p6);
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}
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private static float DistToPt(float3 p, float4 plane)
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{
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float x = p.x;
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float y = p.y;
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float z = p.z;
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float d = x*plane.x + y*plane.y + z*plane.z + plane.w;
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return d;
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}
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private static void intersect(float3 p1, float3 p2, ref float3 split, float4 plane)
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{
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float dp1 = DistToPt(p1, plane);
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float3 dir = new float3();
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dir.x = p2[0] - p1[0];
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dir.y = p2[1] - p1[1];
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dir.z = p2[2] - p1[2];
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float dot1 = dir[0] * plane[0] + dir[1] * plane[1] + dir[2] * plane[2];
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float dot2 = dp1 - plane[3];
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float t = -(plane[3] + dot2) / dot1;
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split.x = (dir[0] * t) + p1[0];
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split.y = (dir[1] * t) + p1[1];
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split.z = (dir[2] * t) + p1[2];
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}
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private static bool rayIntersectsTriangle(float3 p, float3 d, float3 v0, float3 v1, float3 v2, out float t)
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{
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t = 0f;
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float3 e1, e2, h, s, q;
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float a, f, u, v;
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e1 = v1 - v0;
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e2 = v2 - v0;
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h = float3.cross(d, e2);
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a = float3.dot(e1, h);
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if (a > -0.00001f && a < 0.00001f)
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return false;
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f = 1f / a;
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s = p - v0;
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u = f * float3.dot(s, h);
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if (u < 0.0f || u > 1.0f)
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return false;
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q = float3.cross(s, e1);
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v = f * float3.dot(d, q);
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if (v < 0.0f || u + v > 1.0f)
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return false;
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// at this stage we can compute t to find out where
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// the intersection point is on the line
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t = f * float3.dot(e2, q);
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if (t > 0f) // ray intersection
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return true;
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else // this means that there is a line intersection but not a ray intersection
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return false;
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}
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private static bool lineIntersectsTriangle(float3 rayStart, float3 rayEnd, float3 p1, float3 p2, float3 p3, ref float3 sect)
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{
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float3 dir = rayEnd - rayStart;
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float d = (float)Math.Sqrt(dir[0] * dir[0] + dir[1] * dir[1] + dir[2] * dir[2]);
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float r = 1.0f / d;
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dir *= r;
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float t;
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bool ret = rayIntersectsTriangle(rayStart, dir, p1, p2, p3, out t);
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if (ret)
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{
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if (t > d)
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{
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sect.x = rayStart.x + dir.x * t;
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sect.y = rayStart.y + dir.y * t;
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sect.z = rayStart.z + dir.z * t;
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}
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else
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{
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ret = false;
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}
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}
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return ret;
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}
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}
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}
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