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- /* The MIT License
- *
- * Copyright (c) 2010 Intel Corporation.
- * All rights reserved.
- *
- * Based on the convexdecomposition library from
- * <http://codesuppository.googlecode.com> by John W. Ratcliff and Stan Melax.
- *
- * Permission is hereby granted, free of charge, to any person obtaining a copy
- * of this software and associated documentation files (the "Software"), to deal
- * in the Software without restriction, including without limitation the rights
- * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
- * copies of the Software, and to permit persons to whom the Software is
- * furnished to do so, subject to the following conditions:
- *
- * The above copyright notice and this permission notice shall be included in
- * all copies or substantial portions of the Software.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
- * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
- * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
- * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
- * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
- * THE SOFTWARE.
- */
- using System;
- using System.Collections.Generic;
- using System.Diagnostics;
- namespace OpenSim.Region.PhysicsModule.ConvexDecompositionDotNet
- {
- public static class HullUtils
- {
- public static int argmin(float[] a, int n)
- {
- int r = 0;
- for (int i = 1; i < n; i++)
- {
- if (a[i] < a[r])
- {
- r = i;
- }
- }
- return r;
- }
- public static float clampf(float a)
- {
- return Math.Min(1.0f, Math.Max(0.0f, a));
- }
- public static float Round(float a, float precision)
- {
- return (float)Math.Floor(0.5f + a / precision) * precision;
- }
- public static float Interpolate(float f0, float f1, float alpha)
- {
- return f0 * (1 - alpha) + f1 * alpha;
- }
- public static void Swap<T>(ref T a, ref T b)
- {
- T tmp = a;
- a = b;
- b = tmp;
- }
- public static bool above(List<float3> vertices, int3 t, float3 p, float epsilon)
- {
- float3 vtx = vertices[t.x];
- float3 n = TriNormal(vtx, vertices[t.y], vertices[t.z]);
- return (float3.dot(n, p - vtx) > epsilon); // EPSILON???
- }
- public static int hasedge(int3 t, int a, int b)
- {
- for (int i = 0; i < 3; i++)
- {
- int i1 = (i + 1) % 3;
- if (t[i] == a && t[i1] == b)
- return 1;
- }
- return 0;
- }
- public static bool hasvert(int3 t, int v)
- {
- return (t[0] == v || t[1] == v || t[2] == v);
- }
- public static int shareedge(int3 a, int3 b)
- {
- int i;
- for (i = 0; i < 3; i++)
- {
- int i1 = (i + 1) % 3;
- if (hasedge(a, b[i1], b[i]) != 0)
- return 1;
- }
- return 0;
- }
- public static void b2bfix(HullTriangle s, HullTriangle t, List<HullTriangle> tris)
- {
- int i;
- for (i = 0; i < 3; i++)
- {
- int i1 = (i + 1) % 3;
- int i2 = (i + 2) % 3;
- int a = (s)[i1];
- int b = (s)[i2];
- Debug.Assert(tris[s.neib(a, b)].neib(b, a) == s.id);
- Debug.Assert(tris[t.neib(a, b)].neib(b, a) == t.id);
- tris[s.neib(a, b)].setneib(b, a, t.neib(b, a));
- tris[t.neib(b, a)].setneib(a, b, s.neib(a, b));
- }
- }
- public static void removeb2b(HullTriangle s, HullTriangle t, List<HullTriangle> tris)
- {
- b2bfix(s, t, tris);
- s.Dispose();
- t.Dispose();
- }
- public static void checkit(HullTriangle t, List<HullTriangle> tris)
- {
- int i;
- Debug.Assert(tris[t.id] == t);
- for (i = 0; i < 3; i++)
- {
- int i1 = (i + 1) % 3;
- int i2 = (i + 2) % 3;
- int a = (t)[i1];
- int b = (t)[i2];
- Debug.Assert(a != b);
- Debug.Assert(tris[t.n[i]].neib(b, a) == t.id);
- }
- }
- public static void extrude(HullTriangle t0, int v, List<HullTriangle> tris)
- {
- int3 t = t0;
- int n = tris.Count;
- HullTriangle ta = new HullTriangle(v, t[1], t[2], tris);
- ta.n = new int3(t0.n[0], n + 1, n + 2);
- tris[t0.n[0]].setneib(t[1], t[2], n + 0);
- HullTriangle tb = new HullTriangle(v, t[2], t[0], tris);
- tb.n = new int3(t0.n[1], n + 2, n + 0);
- tris[t0.n[1]].setneib(t[2], t[0], n + 1);
- HullTriangle tc = new HullTriangle(v, t[0], t[1], tris);
- tc.n = new int3(t0.n[2], n + 0, n + 1);
- tris[t0.n[2]].setneib(t[0], t[1], n + 2);
- checkit(ta, tris);
- checkit(tb, tris);
- checkit(tc, tris);
- if (hasvert(tris[ta.n[0]], v))
- removeb2b(ta, tris[ta.n[0]], tris);
- if (hasvert(tris[tb.n[0]], v))
- removeb2b(tb, tris[tb.n[0]], tris);
- if (hasvert(tris[tc.n[0]], v))
- removeb2b(tc, tris[tc.n[0]], tris);
- t0.Dispose();
- }
- public static HullTriangle extrudable(float epsilon, List<HullTriangle> tris)
- {
- int i;
- HullTriangle t = null;
- for (i = 0; i < tris.Count; i++)
- {
- if (t == null || (tris.Count > i && (object)tris[i] != null && t.rise < tris[i].rise))
- {
- t = tris[i];
- }
- }
- return (t.rise > epsilon) ? t : null;
- }
- public static Quaternion RotationArc(float3 v0, float3 v1)
- {
- Quaternion q = new Quaternion();
- v0 = float3.normalize(v0); // Comment these two lines out if you know its not needed.
- v1 = float3.normalize(v1); // If vector is already unit length then why do it again?
- float3 c = float3.cross(v0, v1);
- float d = float3.dot(v0, v1);
- if (d <= -1.0f) // 180 about x axis
- {
- return new Quaternion(1f, 0f, 0f, 0f);
- }
- float s = (float)Math.Sqrt((1 + d) * 2f);
- q.x = c.x / s;
- q.y = c.y / s;
- q.z = c.z / s;
- q.w = s / 2.0f;
- return q;
- }
- public static float3 PlaneLineIntersection(Plane plane, float3 p0, float3 p1)
- {
- // returns the point where the line p0-p1 intersects the plane n&d
- float3 dif = p1 - p0;
- float dn = float3.dot(plane.normal, dif);
- float t = -(plane.dist + float3.dot(plane.normal, p0)) / dn;
- return p0 + (dif * t);
- }
- public static float3 LineProject(float3 p0, float3 p1, float3 a)
- {
- float3 w = new float3();
- w = p1 - p0;
- float t = float3.dot(w, (a - p0)) / (w.x * w.x + w.y * w.y + w.z * w.z);
- return p0 + w * t;
- }
- public static float3 PlaneProject(Plane plane, float3 point)
- {
- return point - plane.normal * (float3.dot(point, plane.normal) + plane.dist);
- }
- public static float LineProjectTime(float3 p0, float3 p1, float3 a)
- {
- float3 w = new float3();
- w = p1 - p0;
- float t = float3.dot(w, (a - p0)) / (w.x * w.x + w.y * w.y + w.z * w.z);
- return t;
- }
- public static float3 ThreePlaneIntersection(Plane p0, Plane p1, Plane p2)
- {
- float3x3 mp = float3x3.Transpose(new float3x3(p0.normal, p1.normal, p2.normal));
- float3x3 mi = float3x3.Inverse(mp);
- float3 b = new float3(p0.dist, p1.dist, p2.dist);
- return -b * mi;
- }
- public static bool PolyHit(List<float3> vert, float3 v0, float3 v1)
- {
- float3 impact = new float3();
- float3 normal = new float3();
- return PolyHit(vert, v0, v1, out impact, out normal);
- }
- public static bool PolyHit(List<float3> vert, float3 v0, float3 v1, out float3 impact)
- {
- float3 normal = new float3();
- return PolyHit(vert, v0, v1, out impact, out normal);
- }
- public static bool PolyHit(List<float3> vert, float3 v0, float3 v1, out float3 impact, out float3 normal)
- {
- float3 the_point = new float3();
- impact = null;
- normal = null;
- int i;
- float3 nrml = new float3(0, 0, 0);
- for (i = 0; i < vert.Count; i++)
- {
- int i1 = (i + 1) % vert.Count;
- int i2 = (i + 2) % vert.Count;
- nrml = nrml + float3.cross(vert[i1] - vert[i], vert[i2] - vert[i1]);
- }
- float m = float3.magnitude(nrml);
- if (m == 0.0)
- {
- return false;
- }
- nrml = nrml * (1.0f / m);
- float dist = -float3.dot(nrml, vert[0]);
- float d0;
- float d1;
- if ((d0 = float3.dot(v0, nrml) + dist) < 0 || (d1 = float3.dot(v1, nrml) + dist) > 0)
- {
- return false;
- }
- // By using the cached plane distances d0 and d1
- // we can optimize the following:
- // the_point = planelineintersection(nrml,dist,v0,v1);
- float a = d0 / (d0 - d1);
- the_point = v0 * (1 - a) + v1 * a;
- bool inside = true;
- for (int j = 0; inside && j < vert.Count; j++)
- {
- // let inside = 0 if outside
- float3 pp1 = new float3();
- float3 pp2 = new float3();
- float3 side = new float3();
- pp1 = vert[j];
- pp2 = vert[(j + 1) % vert.Count];
- side = float3.cross((pp2 - pp1), (the_point - pp1));
- inside = (float3.dot(nrml, side) >= 0.0);
- }
- if (inside)
- {
- if (normal != null)
- {
- normal = nrml;
- }
- if (impact != null)
- {
- impact = the_point;
- }
- }
- return inside;
- }
- public static bool BoxInside(float3 p, float3 bmin, float3 bmax)
- {
- return (p.x >= bmin.x && p.x <= bmax.x && p.y >= bmin.y && p.y <= bmax.y && p.z >= bmin.z && p.z <= bmax.z);
- }
- public static bool BoxIntersect(float3 v0, float3 v1, float3 bmin, float3 bmax, float3 impact)
- {
- if (BoxInside(v0, bmin, bmax))
- {
- impact = v0;
- return true;
- }
- if (v0.x <= bmin.x && v1.x >= bmin.x)
- {
- float a = (bmin.x - v0.x) / (v1.x - v0.x);
- //v.x = bmin.x;
- float vy = (1 - a) * v0.y + a * v1.y;
- float vz = (1 - a) * v0.z + a * v1.z;
- if (vy >= bmin.y && vy <= bmax.y && vz >= bmin.z && vz <= bmax.z)
- {
- impact.x = bmin.x;
- impact.y = vy;
- impact.z = vz;
- return true;
- }
- }
- else if (v0.x >= bmax.x && v1.x <= bmax.x)
- {
- float a = (bmax.x - v0.x) / (v1.x - v0.x);
- //v.x = bmax.x;
- float vy = (1 - a) * v0.y + a * v1.y;
- float vz = (1 - a) * v0.z + a * v1.z;
- if (vy >= bmin.y && vy <= bmax.y && vz >= bmin.z && vz <= bmax.z)
- {
- impact.x = bmax.x;
- impact.y = vy;
- impact.z = vz;
- return true;
- }
- }
- if (v0.y <= bmin.y && v1.y >= bmin.y)
- {
- float a = (bmin.y - v0.y) / (v1.y - v0.y);
- float vx = (1 - a) * v0.x + a * v1.x;
- //v.y = bmin.y;
- float vz = (1 - a) * v0.z + a * v1.z;
- if (vx >= bmin.x && vx <= bmax.x && vz >= bmin.z && vz <= bmax.z)
- {
- impact.x = vx;
- impact.y = bmin.y;
- impact.z = vz;
- return true;
- }
- }
- else if (v0.y >= bmax.y && v1.y <= bmax.y)
- {
- float a = (bmax.y - v0.y) / (v1.y - v0.y);
- float vx = (1 - a) * v0.x + a * v1.x;
- // vy = bmax.y;
- float vz = (1 - a) * v0.z + a * v1.z;
- if (vx >= bmin.x && vx <= bmax.x && vz >= bmin.z && vz <= bmax.z)
- {
- impact.x = vx;
- impact.y = bmax.y;
- impact.z = vz;
- return true;
- }
- }
- if (v0.z <= bmin.z && v1.z >= bmin.z)
- {
- float a = (bmin.z - v0.z) / (v1.z - v0.z);
- float vx = (1 - a) * v0.x + a * v1.x;
- float vy = (1 - a) * v0.y + a * v1.y;
- // v.z = bmin.z;
- if (vy >= bmin.y && vy <= bmax.y && vx >= bmin.x && vx <= bmax.x)
- {
- impact.x = vx;
- impact.y = vy;
- impact.z = bmin.z;
- return true;
- }
- }
- else if (v0.z >= bmax.z && v1.z <= bmax.z)
- {
- float a = (bmax.z - v0.z) / (v1.z - v0.z);
- float vx = (1 - a) * v0.x + a * v1.x;
- float vy = (1 - a) * v0.y + a * v1.y;
- // v.z = bmax.z;
- if (vy >= bmin.y && vy <= bmax.y && vx >= bmin.x && vx <= bmax.x)
- {
- impact.x = vx;
- impact.y = vy;
- impact.z = bmax.z;
- return true;
- }
- }
- return false;
- }
- public static float DistanceBetweenLines(float3 ustart, float3 udir, float3 vstart, float3 vdir, float3 upoint)
- {
- return DistanceBetweenLines(ustart, udir, vstart, vdir, upoint, null);
- }
- public static float DistanceBetweenLines(float3 ustart, float3 udir, float3 vstart, float3 vdir)
- {
- return DistanceBetweenLines(ustart, udir, vstart, vdir, null, null);
- }
- public static float DistanceBetweenLines(float3 ustart, float3 udir, float3 vstart, float3 vdir, float3 upoint, float3 vpoint)
- {
- float3 cp = float3.normalize(float3.cross(udir, vdir));
- float distu = -float3.dot(cp, ustart);
- float distv = -float3.dot(cp, vstart);
- float dist = (float)Math.Abs(distu - distv);
- if (upoint != null)
- {
- Plane plane = new Plane();
- plane.normal = float3.normalize(float3.cross(vdir, cp));
- plane.dist = -float3.dot(plane.normal, vstart);
- upoint = PlaneLineIntersection(plane, ustart, ustart + udir);
- }
- if (vpoint != null)
- {
- Plane plane = new Plane();
- plane.normal = float3.normalize(float3.cross(udir, cp));
- plane.dist = -float3.dot(plane.normal, ustart);
- vpoint = PlaneLineIntersection(plane, vstart, vstart + vdir);
- }
- return dist;
- }
- public static float3 TriNormal(float3 v0, float3 v1, float3 v2)
- {
- // return the normal of the triangle
- // inscribed by v0, v1, and v2
- float3 cp = float3.cross(v1 - v0, v2 - v1);
- float m = float3.magnitude(cp);
- if (m == 0)
- return new float3(1, 0, 0);
- return cp * (1.0f / m);
- }
- public static int PlaneTest(Plane p, float3 v, float planetestepsilon)
- {
- float a = float3.dot(v, p.normal) + p.dist;
- int flag = (a > planetestepsilon) ? (2) : ((a < -planetestepsilon) ? (1) : (0));
- return flag;
- }
- public static int SplitTest(ref ConvexH convex, Plane plane, float planetestepsilon)
- {
- int flag = 0;
- for (int i = 0; i < convex.vertices.Count; i++)
- {
- flag |= PlaneTest(plane, convex.vertices[i], planetestepsilon);
- }
- return flag;
- }
- public static Quaternion VirtualTrackBall(float3 cop, float3 cor, float3 dir1, float3 dir2)
- {
- // routine taken from game programming gems.
- // Implement track ball functionality to spin stuf on the screen
- // cop center of projection
- // cor center of rotation
- // dir1 old mouse direction
- // dir2 new mouse direction
- // pretend there is a sphere around cor. Then find the points
- // where dir1 and dir2 intersect that sphere. Find the
- // rotation that takes the first point to the second.
- float m;
- // compute plane
- float3 nrml = cor - cop;
- float fudgefactor = 1.0f / (float3.magnitude(nrml) * 0.25f); // since trackball proportional to distance from cop
- nrml = float3.normalize(nrml);
- float dist = -float3.dot(nrml, cor);
- float3 u = PlaneLineIntersection(new Plane(nrml, dist), cop, cop + dir1);
- u = u - cor;
- u = u * fudgefactor;
- m = float3.magnitude(u);
- if (m > 1)
- {
- u /= m;
- }
- else
- {
- u = u - (nrml * (float)Math.Sqrt(1 - m * m));
- }
- float3 v = PlaneLineIntersection(new Plane(nrml, dist), cop, cop + dir2);
- v = v - cor;
- v = v * fudgefactor;
- m = float3.magnitude(v);
- if (m > 1)
- {
- v /= m;
- }
- else
- {
- v = v - (nrml * (float)Math.Sqrt(1 - m * m));
- }
- return RotationArc(u, v);
- }
- public static bool AssertIntact(ConvexH convex, float planetestepsilon)
- {
- int i;
- int estart = 0;
- for (i = 0; i < convex.edges.Count; i++)
- {
- if (convex.edges[estart].p != convex.edges[i].p)
- {
- estart = i;
- }
- int inext = i + 1;
- if (inext >= convex.edges.Count || convex.edges[inext].p != convex.edges[i].p)
- {
- inext = estart;
- }
- Debug.Assert(convex.edges[inext].p == convex.edges[i].p);
- int nb = convex.edges[i].ea;
- Debug.Assert(nb != 255);
- if (nb == 255 || nb == -1)
- return false;
- Debug.Assert(nb != -1);
- Debug.Assert(i == convex.edges[nb].ea);
- }
- for (i = 0; i < convex.edges.Count; i++)
- {
- Debug.Assert((0) == PlaneTest(convex.facets[convex.edges[i].p], convex.vertices[convex.edges[i].v], planetestepsilon));
- if ((0) != PlaneTest(convex.facets[convex.edges[i].p], convex.vertices[convex.edges[i].v], planetestepsilon))
- return false;
- if (convex.edges[estart].p != convex.edges[i].p)
- {
- estart = i;
- }
- int i1 = i + 1;
- if (i1 >= convex.edges.Count || convex.edges[i1].p != convex.edges[i].p)
- {
- i1 = estart;
- }
- int i2 = i1 + 1;
- if (i2 >= convex.edges.Count || convex.edges[i2].p != convex.edges[i].p)
- {
- i2 = estart;
- }
- if (i == i2) // i sliced tangent to an edge and created 2 meaningless edges
- continue;
- float3 localnormal = TriNormal(convex.vertices[convex.edges[i].v], convex.vertices[convex.edges[i1].v], convex.vertices[convex.edges[i2].v]);
- Debug.Assert(float3.dot(localnormal, convex.facets[convex.edges[i].p].normal) > 0);
- if (float3.dot(localnormal, convex.facets[convex.edges[i].p].normal) <= 0)
- return false;
- }
- return true;
- }
- public static ConvexH test_btbq(float planetestepsilon)
- {
- // back to back quads
- ConvexH convex = new ConvexH(4, 8, 2);
- convex.vertices[0] = new float3(0, 0, 0);
- convex.vertices[1] = new float3(1, 0, 0);
- convex.vertices[2] = new float3(1, 1, 0);
- convex.vertices[3] = new float3(0, 1, 0);
- convex.facets[0] = new Plane(new float3(0, 0, 1), 0);
- convex.facets[1] = new Plane(new float3(0, 0, -1), 0);
- convex.edges[0] = new ConvexH.HalfEdge(7, 0, 0);
- convex.edges[1] = new ConvexH.HalfEdge(6, 1, 0);
- convex.edges[2] = new ConvexH.HalfEdge(5, 2, 0);
- convex.edges[3] = new ConvexH.HalfEdge(4, 3, 0);
- convex.edges[4] = new ConvexH.HalfEdge(3, 0, 1);
- convex.edges[5] = new ConvexH.HalfEdge(2, 3, 1);
- convex.edges[6] = new ConvexH.HalfEdge(1, 2, 1);
- convex.edges[7] = new ConvexH.HalfEdge(0, 1, 1);
- AssertIntact(convex, planetestepsilon);
- return convex;
- }
- public static ConvexH test_cube()
- {
- ConvexH convex = new ConvexH(8, 24, 6);
- convex.vertices[0] = new float3(0, 0, 0);
- convex.vertices[1] = new float3(0, 0, 1);
- convex.vertices[2] = new float3(0, 1, 0);
- convex.vertices[3] = new float3(0, 1, 1);
- convex.vertices[4] = new float3(1, 0, 0);
- convex.vertices[5] = new float3(1, 0, 1);
- convex.vertices[6] = new float3(1, 1, 0);
- convex.vertices[7] = new float3(1, 1, 1);
- convex.facets[0] = new Plane(new float3(-1, 0, 0), 0);
- convex.facets[1] = new Plane(new float3(1, 0, 0), -1);
- convex.facets[2] = new Plane(new float3(0, -1, 0), 0);
- convex.facets[3] = new Plane(new float3(0, 1, 0), -1);
- convex.facets[4] = new Plane(new float3(0, 0, -1), 0);
- convex.facets[5] = new Plane(new float3(0, 0, 1), -1);
- convex.edges[0] = new ConvexH.HalfEdge(11, 0, 0);
- convex.edges[1] = new ConvexH.HalfEdge(23, 1, 0);
- convex.edges[2] = new ConvexH.HalfEdge(15, 3, 0);
- convex.edges[3] = new ConvexH.HalfEdge(16, 2, 0);
- convex.edges[4] = new ConvexH.HalfEdge(13, 6, 1);
- convex.edges[5] = new ConvexH.HalfEdge(21, 7, 1);
- convex.edges[6] = new ConvexH.HalfEdge(9, 5, 1);
- convex.edges[7] = new ConvexH.HalfEdge(18, 4, 1);
- convex.edges[8] = new ConvexH.HalfEdge(19, 0, 2);
- convex.edges[9] = new ConvexH.HalfEdge(6, 4, 2);
- convex.edges[10] = new ConvexH.HalfEdge(20, 5, 2);
- convex.edges[11] = new ConvexH.HalfEdge(0, 1, 2);
- convex.edges[12] = new ConvexH.HalfEdge(22, 3, 3);
- convex.edges[13] = new ConvexH.HalfEdge(4, 7, 3);
- convex.edges[14] = new ConvexH.HalfEdge(17, 6, 3);
- convex.edges[15] = new ConvexH.HalfEdge(2, 2, 3);
- convex.edges[16] = new ConvexH.HalfEdge(3, 0, 4);
- convex.edges[17] = new ConvexH.HalfEdge(14, 2, 4);
- convex.edges[18] = new ConvexH.HalfEdge(7, 6, 4);
- convex.edges[19] = new ConvexH.HalfEdge(8, 4, 4);
- convex.edges[20] = new ConvexH.HalfEdge(10, 1, 5);
- convex.edges[21] = new ConvexH.HalfEdge(5, 5, 5);
- convex.edges[22] = new ConvexH.HalfEdge(12, 7, 5);
- convex.edges[23] = new ConvexH.HalfEdge(1, 3, 5);
- return convex;
- }
- public static ConvexH ConvexHMakeCube(float3 bmin, float3 bmax)
- {
- ConvexH convex = test_cube();
- convex.vertices[0] = new float3(bmin.x, bmin.y, bmin.z);
- convex.vertices[1] = new float3(bmin.x, bmin.y, bmax.z);
- convex.vertices[2] = new float3(bmin.x, bmax.y, bmin.z);
- convex.vertices[3] = new float3(bmin.x, bmax.y, bmax.z);
- convex.vertices[4] = new float3(bmax.x, bmin.y, bmin.z);
- convex.vertices[5] = new float3(bmax.x, bmin.y, bmax.z);
- convex.vertices[6] = new float3(bmax.x, bmax.y, bmin.z);
- convex.vertices[7] = new float3(bmax.x, bmax.y, bmax.z);
- convex.facets[0] = new Plane(new float3(-1, 0, 0), bmin.x);
- convex.facets[1] = new Plane(new float3(1, 0, 0), -bmax.x);
- convex.facets[2] = new Plane(new float3(0, -1, 0), bmin.y);
- convex.facets[3] = new Plane(new float3(0, 1, 0), -bmax.y);
- convex.facets[4] = new Plane(new float3(0, 0, -1), bmin.z);
- convex.facets[5] = new Plane(new float3(0, 0, 1), -bmax.z);
- return convex;
- }
- public static ConvexH ConvexHCrop(ref ConvexH convex, Plane slice, float planetestepsilon)
- {
- int i;
- int vertcountunder = 0;
- int vertcountover = 0;
- List<int> vertscoplanar = new List<int>(); // existing vertex members of convex that are coplanar
- List<int> edgesplit = new List<int>(); // existing edges that members of convex that cross the splitplane
- Debug.Assert(convex.edges.Count < 480);
- EdgeFlag[] edgeflag = new EdgeFlag[512];
- VertFlag[] vertflag = new VertFlag[256];
- PlaneFlag[] planeflag = new PlaneFlag[128];
- ConvexH.HalfEdge[] tmpunderedges = new ConvexH.HalfEdge[512];
- Plane[] tmpunderplanes = new Plane[128];
- Coplanar[] coplanaredges = new Coplanar[512];
- int coplanaredges_num = 0;
- List<float3> createdverts = new List<float3>();
- // do the side-of-plane tests
- for (i = 0; i < convex.vertices.Count; i++)
- {
- vertflag[i].planetest = (byte)PlaneTest(slice, convex.vertices[i], planetestepsilon);
- if (vertflag[i].planetest == (0))
- {
- // ? vertscoplanar.Add(i);
- vertflag[i].undermap = (byte)vertcountunder++;
- vertflag[i].overmap = (byte)vertcountover++;
- }
- else if (vertflag[i].planetest == (1))
- {
- vertflag[i].undermap = (byte)vertcountunder++;
- }
- else
- {
- Debug.Assert(vertflag[i].planetest == (2));
- vertflag[i].overmap = (byte)vertcountover++;
- vertflag[i].undermap = 255; // for debugging purposes
- }
- }
- int vertcountunderold = vertcountunder; // for debugging only
- int under_edge_count = 0;
- int underplanescount = 0;
- int e0 = 0;
- for (int currentplane = 0; currentplane < convex.facets.Count; currentplane++)
- {
- int estart = e0;
- int enextface = 0;
- int planeside = 0;
- int e1 = e0 + 1;
- int vout = -1;
- int vin = -1;
- int coplanaredge = -1;
- do
- {
- if (e1 >= convex.edges.Count || convex.edges[e1].p != currentplane)
- {
- enextface = e1;
- e1 = estart;
- }
- ConvexH.HalfEdge edge0 = convex.edges[e0];
- ConvexH.HalfEdge edge1 = convex.edges[e1];
- ConvexH.HalfEdge edgea = convex.edges[edge0.ea];
- planeside |= vertflag[edge0.v].planetest;
- //if((vertflag[edge0.v].planetest & vertflag[edge1.v].planetest) == COPLANAR) {
- // assert(ecop==-1);
- // ecop=e;
- //}
- if (vertflag[edge0.v].planetest == (2) && vertflag[edge1.v].planetest == (2))
- {
- // both endpoints over plane
- edgeflag[e0].undermap = -1;
- }
- else if ((vertflag[edge0.v].planetest | vertflag[edge1.v].planetest) == (1))
- {
- // at least one endpoint under, the other coplanar or under
- edgeflag[e0].undermap = (short)under_edge_count;
- tmpunderedges[under_edge_count].v = vertflag[edge0.v].undermap;
- tmpunderedges[under_edge_count].p = (byte)underplanescount;
- if (edge0.ea < e0)
- {
- // connect the neighbors
- Debug.Assert(edgeflag[edge0.ea].undermap != -1);
- tmpunderedges[under_edge_count].ea = edgeflag[edge0.ea].undermap;
- tmpunderedges[edgeflag[edge0.ea].undermap].ea = (short)under_edge_count;
- }
- under_edge_count++;
- }
- else if ((vertflag[edge0.v].planetest | vertflag[edge1.v].planetest) == (0))
- {
- // both endpoints coplanar
- // must check a 3rd point to see if UNDER
- int e2 = e1 + 1;
- if (e2 >= convex.edges.Count || convex.edges[e2].p != currentplane)
- {
- e2 = estart;
- }
- Debug.Assert(convex.edges[e2].p == currentplane);
- ConvexH.HalfEdge edge2 = convex.edges[e2];
- if (vertflag[edge2.v].planetest == (1))
- {
- edgeflag[e0].undermap = (short)under_edge_count;
- tmpunderedges[under_edge_count].v = vertflag[edge0.v].undermap;
- tmpunderedges[under_edge_count].p = (byte)underplanescount;
- tmpunderedges[under_edge_count].ea = -1;
- // make sure this edge is added to the "coplanar" list
- coplanaredge = under_edge_count;
- vout = vertflag[edge0.v].undermap;
- vin = vertflag[edge1.v].undermap;
- under_edge_count++;
- }
- else
- {
- edgeflag[e0].undermap = -1;
- }
- }
- else if (vertflag[edge0.v].planetest == (1) && vertflag[edge1.v].planetest == (2))
- {
- // first is under 2nd is over
- edgeflag[e0].undermap = (short)under_edge_count;
- tmpunderedges[under_edge_count].v = vertflag[edge0.v].undermap;
- tmpunderedges[under_edge_count].p = (byte)underplanescount;
- if (edge0.ea < e0)
- {
- Debug.Assert(edgeflag[edge0.ea].undermap != -1);
- // connect the neighbors
- tmpunderedges[under_edge_count].ea = edgeflag[edge0.ea].undermap;
- tmpunderedges[edgeflag[edge0.ea].undermap].ea = (short)under_edge_count;
- vout = tmpunderedges[edgeflag[edge0.ea].undermap].v;
- }
- else
- {
- Plane p0 = convex.facets[edge0.p];
- Plane pa = convex.facets[edgea.p];
- createdverts.Add(ThreePlaneIntersection(p0, pa, slice));
- //createdverts.Add(PlaneProject(slice,PlaneLineIntersection(slice,convex.vertices[edge0.v],convex.vertices[edgea.v])));
- //createdverts.Add(PlaneLineIntersection(slice,convex.vertices[edge0.v],convex.vertices[edgea.v]));
- vout = vertcountunder++;
- }
- under_edge_count++;
- /// hmmm something to think about: i might be able to output this edge regarless of
- // wheter or not we know v-in yet. ok i;ll try this now:
- tmpunderedges[under_edge_count].v = (byte)vout;
- tmpunderedges[under_edge_count].p = (byte)underplanescount;
- tmpunderedges[under_edge_count].ea = -1;
- coplanaredge = under_edge_count;
- under_edge_count++;
- if (vin != -1)
- {
- // we previously processed an edge where we came under
- // now we know about vout as well
- // ADD THIS EDGE TO THE LIST OF EDGES THAT NEED NEIGHBOR ON PARTITION PLANE!!
- }
- }
- else if (vertflag[edge0.v].planetest == (0) && vertflag[edge1.v].planetest == (2))
- {
- // first is coplanar 2nd is over
- edgeflag[e0].undermap = -1;
- vout = vertflag[edge0.v].undermap;
- // I hate this but i have to make sure part of this face is UNDER before ouputting this vert
- int k = estart;
- Debug.Assert(edge0.p == currentplane);
- while (!((planeside & 1) != 0) && k < convex.edges.Count && convex.edges[k].p == edge0.p)
- {
- planeside |= vertflag[convex.edges[k].v].planetest;
- k++;
- }
- if ((planeside & 1) != 0)
- {
- tmpunderedges[under_edge_count].v = (byte)vout;
- tmpunderedges[under_edge_count].p = (byte)underplanescount;
- tmpunderedges[under_edge_count].ea = -1;
- coplanaredge = under_edge_count; // hmmm should make a note of the edge # for later on
- under_edge_count++;
- }
- }
- else if (vertflag[edge0.v].planetest == (2) && vertflag[edge1.v].planetest == (1))
- {
- // first is over next is under
- // new vertex!!!
- Debug.Assert(vin == -1);
- if (e0 < edge0.ea)
- {
- Plane p0 = convex.facets[edge0.p];
- Plane pa = convex.facets[edgea.p];
- createdverts.Add(ThreePlaneIntersection(p0, pa, slice));
- //createdverts.Add(PlaneLineIntersection(slice,convex.vertices[edge0.v],convex.vertices[edgea.v]));
- //createdverts.Add(PlaneProject(slice,PlaneLineIntersection(slice,convex.vertices[edge0.v],convex.vertices[edgea.v])));
- vin = vertcountunder++;
- }
- else
- {
- // find the new vertex that was created by edge[edge0.ea]
- int nea = edgeflag[edge0.ea].undermap;
- Debug.Assert(tmpunderedges[nea].p == tmpunderedges[nea + 1].p);
- vin = tmpunderedges[nea + 1].v;
- Debug.Assert(vin < vertcountunder);
- Debug.Assert(vin >= vertcountunderold); // for debugging only
- }
- if (vout != -1)
- {
- // we previously processed an edge where we went over
- // now we know vin too
- // ADD THIS EDGE TO THE LIST OF EDGES THAT NEED NEIGHBOR ON PARTITION PLANE!!
- }
- // output edge
- tmpunderedges[under_edge_count].v = (byte)vin;
- tmpunderedges[under_edge_count].p = (byte)underplanescount;
- edgeflag[e0].undermap = (short)under_edge_count;
- if (e0 > edge0.ea)
- {
- Debug.Assert(edgeflag[edge0.ea].undermap != -1);
- // connect the neighbors
- tmpunderedges[under_edge_count].ea = edgeflag[edge0.ea].undermap;
- tmpunderedges[edgeflag[edge0.ea].undermap].ea = (short)under_edge_count;
- }
- Debug.Assert(edgeflag[e0].undermap == under_edge_count);
- under_edge_count++;
- }
- else if (vertflag[edge0.v].planetest == (2) && vertflag[edge1.v].planetest == (0))
- {
- // first is over next is coplanar
- edgeflag[e0].undermap = -1;
- vin = vertflag[edge1.v].undermap;
- Debug.Assert(vin != -1);
- if (vout != -1)
- {
- // we previously processed an edge where we came under
- // now we know both endpoints
- // ADD THIS EDGE TO THE LIST OF EDGES THAT NEED NEIGHBOR ON PARTITION PLANE!!
- }
- }
- else
- {
- Debug.Assert(false);
- }
- e0 = e1;
- e1++; // do the modulo at the beginning of the loop
- } while (e0 != estart);
- e0 = enextface;
- if ((planeside & 1) != 0)
- {
- planeflag[currentplane].undermap = (byte)underplanescount;
- tmpunderplanes[underplanescount] = convex.facets[currentplane];
- underplanescount++;
- }
- else
- {
- planeflag[currentplane].undermap = 0;
- }
- if (vout >= 0 && (planeside & 1) != 0)
- {
- Debug.Assert(vin >= 0);
- Debug.Assert(coplanaredge >= 0);
- Debug.Assert(coplanaredge != 511);
- coplanaredges[coplanaredges_num].ea = (ushort)coplanaredge;
- coplanaredges[coplanaredges_num].v0 = (byte)vin;
- coplanaredges[coplanaredges_num].v1 = (byte)vout;
- coplanaredges_num++;
- }
- }
- // add the new plane to the mix:
- if (coplanaredges_num > 0)
- {
- tmpunderplanes[underplanescount++] = slice;
- }
- for (i = 0; i < coplanaredges_num - 1; i++)
- {
- if (coplanaredges[i].v1 != coplanaredges[i + 1].v0)
- {
- int j = 0;
- for (j = i + 2; j < coplanaredges_num; j++)
- {
- if (coplanaredges[i].v1 == coplanaredges[j].v0)
- {
- Coplanar tmp = coplanaredges[i + 1];
- coplanaredges[i + 1] = coplanaredges[j];
- coplanaredges[j] = tmp;
- break;
- }
- }
- if (j >= coplanaredges_num)
- {
- Debug.Assert(j < coplanaredges_num);
- return null;
- }
- }
- }
- ConvexH punder = new ConvexH(vertcountunder, under_edge_count + coplanaredges_num, underplanescount);
- ConvexH under = punder;
- {
- int k = 0;
- for (i = 0; i < convex.vertices.Count; i++)
- {
- if (vertflag[i].planetest != (2))
- {
- under.vertices[k++] = convex.vertices[i];
- }
- }
- i = 0;
- while (k < vertcountunder)
- {
- under.vertices[k++] = createdverts[i++];
- }
- Debug.Assert(i == createdverts.Count);
- }
- for (i = 0; i < coplanaredges_num; i++)
- {
- ConvexH.HalfEdge edge = under.edges[under_edge_count + i];
- edge.p = (byte)(underplanescount - 1);
- edge.ea = (short)coplanaredges[i].ea;
- edge.v = (byte)coplanaredges[i].v0;
- under.edges[under_edge_count + i] = edge;
- tmpunderedges[coplanaredges[i].ea].ea = (short)(under_edge_count + i);
- }
- under.edges = new List<ConvexH.HalfEdge>(tmpunderedges);
- under.facets = new List<Plane>(tmpunderplanes);
- return punder;
- }
- public static ConvexH ConvexHDup(ConvexH src)
- {
- ConvexH dst = new ConvexH(src.vertices.Count, src.edges.Count, src.facets.Count);
- dst.vertices = new List<float3>(src.vertices.Count);
- foreach (float3 f in src.vertices)
- dst.vertices.Add(new float3(f));
- dst.edges = new List<ConvexH.HalfEdge>(src.edges.Count);
- foreach (ConvexH.HalfEdge e in src.edges)
- dst.edges.Add(new ConvexH.HalfEdge(e));
- dst.facets = new List<Plane>(src.facets.Count);
- foreach (Plane p in src.facets)
- dst.facets.Add(new Plane(p));
- return dst;
- }
- public static int candidateplane(List<Plane> planes, int planes_count, ConvexH convex, float epsilon)
- {
- int p = 0;
- float md = 0;
- int i;
- for (i = 0; i < planes_count; i++)
- {
- float d = 0;
- for (int j = 0; j < convex.vertices.Count; j++)
- {
- d = Math.Max(d, float3.dot(convex.vertices[j], planes[i].normal) + planes[i].dist);
- }
- if (i == 0 || d > md)
- {
- p = i;
- md = d;
- }
- }
- return (md > epsilon) ? p : -1;
- }
- public static float3 orth(float3 v)
- {
- float3 a = float3.cross(v, new float3(0f, 0f, 1f));
- float3 b = float3.cross(v, new float3(0f, 1f, 0f));
- return float3.normalize((float3.magnitude(a) > float3.magnitude(b)) ? a : b);
- }
- public static int maxdir(List<float3> p, int count, float3 dir)
- {
- Debug.Assert(count != 0);
- int m = 0;
- float currDotm = float3.dot(p[0], dir);
- for (int i = 1; i < count; i++)
- {
- float currDoti = float3.dot(p[i], dir);
- if (currDoti > currDotm)
- {
- currDotm = currDoti;
- m = i;
- }
- }
- return m;
- }
- public static int maxdirfiltered(List<float3> p, int count, float3 dir, byte[] allow)
- {
- //Debug.Assert(count != 0);
- int m = 0;
- float currDotm = float3.dot(p[0], dir);
- float currDoti;
- while (allow[m] == 0)
- m++;
- for (int i = 1; i < count; i++)
- {
- if (allow[i] != 0)
- {
- currDoti = float3.dot(p[i], dir);
- if (currDoti > currDotm)
- {
- currDotm = currDoti;
- m = i;
- }
- }
- }
- //Debug.Assert(m != -1);
- return m;
- }
- public static int maxdirsterid(List<float3> p, int count, float3 dir, byte[] allow)
- {
- int m = -1;
- while (m == -1)
- {
- m = maxdirfiltered(p, count, dir, allow);
- if (allow[m] == 3)
- return m;
- float3 u = orth(dir);
- float3 v = float3.cross(u, dir);
- int ma = -1;
- for (float x = 0.0f; x <= 360.0f; x += 45.0f)
- {
- int mb;
- {
- float s = (float)Math.Sin((3.14159264f / 180.0f) * (x));
- float c = (float)Math.Cos((3.14159264f / 180.0f) * (x));
- mb = maxdirfiltered(p, count, dir + (u * s + v * c) * 0.025f, allow);
- }
- if (ma == m && mb == m)
- {
- allow[m] = 3;
- return m;
- }
- if (ma != -1 && ma != mb) // Yuck - this is really ugly
- {
- int mc = ma;
- for (float xx = x - 40.0f; xx <= x; xx += 5.0f)
- {
- float s = (float)Math.Sin((3.14159264f / 180.0f) * (xx));
- float c = (float)Math.Cos((3.14159264f / 180.0f) * (xx));
- int md = maxdirfiltered(p, count, dir + (u * s + v * c) * 0.025f, allow);
- if (mc == m && md == m)
- {
- allow[m] = 3;
- return m;
- }
- mc = md;
- }
- }
- ma = mb;
- }
- allow[m] = 0;
- m = -1;
- }
- Debug.Assert(false);
- return m;
- }
- public static int4 FindSimplex(List<float3> verts, byte[] allow)
- {
- float3[] basis = new float3[3];
- basis[0] = new float3(0.01f, 0.02f, 1.0f);
- int p0 = maxdirsterid(verts, verts.Count, basis[0], allow);
- int p1 = maxdirsterid(verts, verts.Count, -basis[0], allow);
- basis[0] = verts[p0] - verts[p1];
- if (p0 == p1 || basis[0] == new float3(0, 0, 0))
- return new int4(-1, -1, -1, -1);
- basis[1] = float3.cross(new float3(1, 0.02f, 0), basis[0]);
- basis[2] = float3.cross(new float3(-0.02f, 1, 0), basis[0]);
- basis[1] = float3.normalize((float3.magnitude(basis[1]) > float3.magnitude(basis[2])) ? basis[1] : basis[2]);
- int p2 = maxdirsterid(verts, verts.Count, basis[1], allow);
- if (p2 == p0 || p2 == p1)
- {
- p2 = maxdirsterid(verts, verts.Count, -basis[1], allow);
- }
- if (p2 == p0 || p2 == p1)
- return new int4(-1, -1, -1, -1);
- basis[1] = verts[p2] - verts[p0];
- basis[2] = float3.normalize(float3.cross(basis[1], basis[0]));
- int p3 = maxdirsterid(verts, verts.Count, basis[2], allow);
- if (p3 == p0 || p3 == p1 || p3 == p2)
- p3 = maxdirsterid(verts, verts.Count, -basis[2], allow);
- if (p3 == p0 || p3 == p1 || p3 == p2)
- return new int4(-1, -1, -1, -1);
- Debug.Assert(!(p0 == p1 || p0 == p2 || p0 == p3 || p1 == p2 || p1 == p3 || p2 == p3));
- if (float3.dot(verts[p3] - verts[p0], float3.cross(verts[p1] - verts[p0], verts[p2] - verts[p0])) < 0)
- {
- Swap(ref p2, ref p3);
- }
- return new int4(p0, p1, p2, p3);
- }
- public static float GetDist(float px, float py, float pz, float3 p2)
- {
- float dx = px - p2.x;
- float dy = py - p2.y;
- float dz = pz - p2.z;
- return dx * dx + dy * dy + dz * dz;
- }
- public static void ReleaseHull(PHullResult result)
- {
- if (result.Indices != null)
- result.Indices = null;
- if (result.Vertices != null)
- result.Vertices = null;
- }
- public static int calchullgen(List<float3> verts, int vlimit, List<HullTriangle> tris)
- {
- if (verts.Count < 4)
- return 0;
- if (vlimit == 0)
- vlimit = 1000000000;
- int j;
- float3 bmin = new float3(verts[0]);
- float3 bmax = new float3(verts[0]);
- List<int> isextreme = new List<int>(verts.Count);
- byte[] allow = new byte[verts.Count];
- for (j = 0; j < verts.Count; j++)
- {
- allow[j] = 1;
- isextreme.Add(0);
- bmin = float3.VectorMin(bmin, verts[j]);
- bmax = float3.VectorMax(bmax, verts[j]);
- }
- float epsilon = float3.magnitude(bmax - bmin) * 0.001f;
- int4 p = FindSimplex(verts, allow);
- if (p.x == -1) // simplex failed
- return 0;
- float3 center = (verts[p[0]] + verts[p[1]] + verts[p[2]] + verts[p[3]]) / 4.0f; // a valid interior point
- HullTriangle t0 = new HullTriangle(p[2], p[3], p[1], tris);
- t0.n = new int3(2, 3, 1);
- HullTriangle t1 = new HullTriangle(p[3], p[2], p[0], tris);
- t1.n = new int3(3, 2, 0);
- HullTriangle t2 = new HullTriangle(p[0], p[1], p[3], tris);
- t2.n = new int3(0, 1, 3);
- HullTriangle t3 = new HullTriangle(p[1], p[0], p[2], tris);
- t3.n = new int3(1, 0, 2);
- isextreme[p[0]] = isextreme[p[1]] = isextreme[p[2]] = isextreme[p[3]] = 1;
- checkit(t0, tris);
- checkit(t1, tris);
- checkit(t2, tris);
- checkit(t3, tris);
- for (j = 0; j < tris.Count; j++)
- {
- HullTriangle t = tris[j];
- Debug.Assert((object)t != null);
- Debug.Assert(t.vmax < 0);
- float3 n = TriNormal(verts[(t)[0]], verts[(t)[1]], verts[(t)[2]]);
- t.vmax = maxdirsterid(verts, verts.Count, n, allow);
- t.rise = float3.dot(n, verts[t.vmax] - verts[(t)[0]]);
- }
- HullTriangle te;
- vlimit -= 4;
- while (vlimit > 0 && (te = extrudable(epsilon, tris)) != null)
- {
- int3 ti = te;
- int v = te.vmax;
- Debug.Assert(isextreme[v] == 0); // wtf we've already done this vertex
- isextreme[v] = 1;
- //if(v==p0 || v==p1 || v==p2 || v==p3) continue; // done these already
- j = tris.Count;
- while (j-- != 0)
- {
- if (tris.Count <= j || (object)tris[j] == null)
- continue;
- int3 t = tris[j];
- if (above(verts, t, verts[v], 0.01f * epsilon))
- {
- extrude(tris[j], v, tris);
- }
- }
- // now check for those degenerate cases where we have a flipped triangle or a really skinny triangle
- j = tris.Count;
- while (j-- != 0)
- {
- if (tris.Count <= j || (object)tris[j] == null)
- continue;
- if (!hasvert(tris[j], v))
- break;
- int3 nt = tris[j];
- if (above(verts, nt, center, 0.01f * epsilon) || float3.magnitude(float3.cross(verts[nt[1]] - verts[nt[0]], verts[nt[2]] - verts[nt[1]])) < epsilon * epsilon * 0.1f)
- {
- HullTriangle nb = tris[tris[j].n[0]];
- Debug.Assert(nb != null);
- Debug.Assert(!hasvert(nb, v));
- Debug.Assert(nb.id < j);
- extrude(nb, v, tris);
- j = tris.Count;
- }
- }
- j = tris.Count;
- while (j-- != 0)
- {
- HullTriangle t = tris[j];
- if (t == null)
- continue;
- if (t.vmax >= 0)
- break;
- float3 n = TriNormal(verts[(t)[0]], verts[(t)[1]], verts[(t)[2]]);
- t.vmax = maxdirsterid(verts, verts.Count, n, allow);
- if (isextreme[t.vmax] != 0)
- {
- t.vmax = -1; // already done that vertex - algorithm needs to be able to terminate.
- }
- else
- {
- t.rise = float3.dot(n, verts[t.vmax] - verts[(t)[0]]);
- }
- }
- vlimit--;
- }
- return 1;
- }
- public static bool calchull(List<float3> verts, out List<int> tris_out, int vlimit, List<HullTriangle> tris)
- {
- tris_out = null;
- int rc = calchullgen(verts, vlimit, tris);
- if (rc == 0)
- return false;
- List<int> ts = new List<int>();
- for (int i = 0; i < tris.Count; i++)
- {
- if ((object)tris[i] != null)
- {
- for (int j = 0; j < 3; j++)
- ts.Add((tris[i])[j]);
- tris[i] = null;
- }
- }
- tris_out = ts;
- tris.Clear();
- return true;
- }
- public static int calchullpbev(List<float3> verts, int vlimit, out List<Plane> planes, float bevangle, List<HullTriangle> tris)
- {
- int i;
- int j;
- planes = new List<Plane>();
- int rc = calchullgen(verts, vlimit, tris);
- if (rc == 0)
- return 0;
- for (i = 0; i < tris.Count; i++)
- {
- if (tris[i] != null)
- {
- Plane p = new Plane();
- HullTriangle t = tris[i];
- p.normal = TriNormal(verts[(t)[0]], verts[(t)[1]], verts[(t)[2]]);
- p.dist = -float3.dot(p.normal, verts[(t)[0]]);
- planes.Add(p);
- for (j = 0; j < 3; j++)
- {
- if (t.n[j] < t.id)
- continue;
- HullTriangle s = tris[t.n[j]];
- float3 snormal = TriNormal(verts[(s)[0]], verts[(s)[1]], verts[(s)[2]]);
- if (float3.dot(snormal, p.normal) >= Math.Cos(bevangle * (3.14159264f / 180.0f)))
- continue;
- float3 n = float3.normalize(snormal + p.normal);
- planes.Add(new Plane(n, -float3.dot(n, verts[maxdir(verts, verts.Count, n)])));
- }
- }
- }
- tris.Clear();
- return 1;
- }
- public static int overhull(List<Plane> planes, List<float3> verts, int maxplanes, out List<float3> verts_out, out List<int> faces_out, float inflate)
- {
- verts_out = null;
- faces_out = null;
- int i;
- int j;
- if (verts.Count < 4)
- return 0;
- maxplanes = Math.Min(maxplanes, planes.Count);
- float3 bmin = new float3(verts[0]);
- float3 bmax = new float3(verts[0]);
- for (i = 0; i < verts.Count; i++)
- {
- bmin = float3.VectorMin(bmin, verts[i]);
- bmax = float3.VectorMax(bmax, verts[i]);
- }
- // float diameter = magnitude(bmax-bmin);
- // inflate *=diameter; // RELATIVE INFLATION
- bmin -= new float3(inflate, inflate, inflate);
- bmax += new float3(inflate, inflate, inflate);
- for (i = 0; i < planes.Count; i++)
- {
- planes[i].dist -= inflate;
- }
- float3 emin = new float3(bmin);
- float3 emax = new float3(bmax);
- float epsilon = float3.magnitude(emax - emin) * 0.025f;
- float planetestepsilon = float3.magnitude(emax - emin) * (0.001f);
- // todo: add bounding cube planes to force bevel. or try instead not adding the diameter expansion ??? must think.
- // ConvexH *convex = ConvexHMakeCube(bmin - float3(diameter,diameter,diameter),bmax+float3(diameter,diameter,diameter));
- ConvexH c = ConvexHMakeCube(new float3(bmin), new float3(bmax));
- int k;
- while (maxplanes-- != 0 && (k = candidateplane(planes, planes.Count, c, epsilon)) >= 0)
- {
- ConvexH tmp = c;
- c = ConvexHCrop(ref tmp, planes[k], planetestepsilon);
- if (c == null) // might want to debug this case better!!!
- {
- c = tmp;
- break;
- }
- if (AssertIntact(c, planetestepsilon) == false) // might want to debug this case better too!!!
- {
- c = tmp;
- break;
- }
- tmp.edges = null;
- tmp.facets = null;
- tmp.vertices = null;
- }
- Debug.Assert(AssertIntact(c, planetestepsilon));
- //return c;
- //C++ TO C# CONVERTER TODO TASK: The memory management function 'malloc' has no equivalent in C#:
- faces_out = new List<int>(); //(int)malloc(sizeof(int) * (1 + c.facets.Count + c.edges.Count)); // new int[1+c->facets.count+c->edges.count];
- int faces_count_out = 0;
- i = 0;
- faces_out[faces_count_out++] = -1;
- k = 0;
- while (i < c.edges.Count)
- {
- j = 1;
- while (j + i < c.edges.Count && c.edges[i].p == c.edges[i + j].p)
- {
- j++;
- }
- faces_out[faces_count_out++] = j;
- while (j-- != 0)
- {
- faces_out[faces_count_out++] = c.edges[i].v;
- i++;
- }
- k++;
- }
- faces_out[0] = k; // number of faces.
- Debug.Assert(k == c.facets.Count);
- Debug.Assert(faces_count_out == 1 + c.facets.Count + c.edges.Count);
- verts_out = c.vertices; // new float3[c->vertices.count];
- int verts_count_out = c.vertices.Count;
- for (i = 0; i < c.vertices.Count; i++)
- {
- verts_out[i] = new float3(c.vertices[i]);
- }
- c.edges = null;
- c.facets = null;
- c.vertices = null;
- return 1;
- }
- public static int overhullv(List<float3> verts, int maxplanes, out List<float3> verts_out, out List<int> faces_out, float inflate, float bevangle, int vlimit, List<HullTriangle> tris)
- {
- verts_out = null;
- faces_out = null;
- if (verts.Count == 0)
- return 0;
- List<Plane> planes = new List<Plane>();
- int rc = calchullpbev(verts, vlimit, out planes, bevangle, tris);
- if (rc == 0)
- return 0;
- return overhull(planes, verts, maxplanes, out verts_out, out faces_out, inflate);
- }
- public static void addPoint(ref uint vcount, List<float3> p, float x, float y, float z)
- {
- p.Add(new float3(x, y, z));
- vcount++;
- }
- public static bool ComputeHull(List<float3> vertices, ref PHullResult result, int vlimit, float inflate)
- {
- List<HullTriangle> tris = new List<HullTriangle>();
- List<int> faces;
- List<float3> verts_out;
- if (inflate == 0.0f)
- {
- List<int> tris_out;
- bool ret = calchull(vertices, out tris_out, vlimit, tris);
- if (ret == false)
- return false;
- result.Indices = tris_out;
- result.Vertices = vertices;
- return true;
- }
- else
- {
- int ret = overhullv(vertices, 35, out verts_out, out faces, inflate, 120.0f, vlimit, tris);
- if (ret == 0)
- return false;
- List<int3> tris2 = new List<int3>();
- int n = faces[0];
- int k = 1;
- for (int i = 0; i < n; i++)
- {
- int pn = faces[k++];
- for (int j = 2; j < pn; j++)
- tris2.Add(new int3(faces[k], faces[k + j - 1], faces[k + j]));
- k += pn;
- }
- Debug.Assert(tris2.Count == faces.Count - 1 - (n * 3));
- result.Indices = new List<int>(tris2.Count * 3);
- for (int i = 0; i < tris2.Count; i++)
- {
- result.Indices.Add(tris2[i].x);
- result.Indices.Add(tris2[i].y);
- result.Indices.Add(tris2[i].z);
- }
- result.Vertices = verts_out;
- return true;
- }
- }
- private static bool CleanupVertices(List<float3> svertices, out List<float3> vertices, float normalepsilon, out float3 scale)
- {
- const float EPSILON = 0.000001f;
- vertices = new List<float3>();
- scale = new float3(1f, 1f, 1f);
- if (svertices.Count == 0)
- return false;
- uint vcount = 0;
- float[] recip = new float[3];
- float[] bmin = { Single.MaxValue, Single.MaxValue, Single.MaxValue };
- float[] bmax = { Single.MinValue, Single.MinValue, Single.MinValue };
- for (int i = 0; i < svertices.Count; i++)
- {
- float3 p = svertices[i];
- for (int j = 0; j < 3; j++)
- {
- if (p[j] < bmin[j])
- bmin[j] = p[j];
- if (p[j] > bmax[j])
- bmax[j] = p[j];
- }
- }
- float dx = bmax[0] - bmin[0];
- float dy = bmax[1] - bmin[1];
- float dz = bmax[2] - bmin[2];
- float3 center = new float3();
- center.x = dx * 0.5f + bmin[0];
- center.y = dy * 0.5f + bmin[1];
- center.z = dz * 0.5f + bmin[2];
- if (dx < EPSILON || dy < EPSILON || dz < EPSILON || svertices.Count < 3)
- {
- float len = Single.MaxValue;
- if (dx > EPSILON && dx < len)
- len = dx;
- if (dy > EPSILON && dy < len)
- len = dy;
- if (dz > EPSILON && dz < len)
- len = dz;
- if (len == Single.MaxValue)
- {
- dx = dy = dz = 0.01f; // one centimeter
- }
- else
- {
- if (dx < EPSILON) // 1/5th the shortest non-zero edge.
- dx = len * 0.05f;
- if (dy < EPSILON)
- dy = len * 0.05f;
- if (dz < EPSILON)
- dz = len * 0.05f;
- }
- float x1 = center[0] - dx;
- float x2 = center[0] + dx;
- float y1 = center[1] - dy;
- float y2 = center[1] + dy;
- float z1 = center[2] - dz;
- float z2 = center[2] + dz;
- addPoint(ref vcount, vertices, x1, y1, z1);
- addPoint(ref vcount, vertices, x2, y1, z1);
- addPoint(ref vcount, vertices, x2, y2, z1);
- addPoint(ref vcount, vertices, x1, y2, z1);
- addPoint(ref vcount, vertices, x1, y1, z2);
- addPoint(ref vcount, vertices, x2, y1, z2);
- addPoint(ref vcount, vertices, x2, y2, z2);
- addPoint(ref vcount, vertices, x1, y2, z2);
- return true; // return cube
- }
- else
- {
- scale.x = dx;
- scale.y = dy;
- scale.z = dz;
- recip[0] = 1f / dx;
- recip[1] = 1f / dy;
- recip[2] = 1f / dz;
- center.x *= recip[0];
- center.y *= recip[1];
- center.z *= recip[2];
- }
- for (int i = 0; i < svertices.Count; i++)
- {
- float3 p = svertices[i];
- float px = p[0];
- float py = p[1];
- float pz = p[2];
- px = px * recip[0]; // normalize
- py = py * recip[1]; // normalize
- pz = pz * recip[2]; // normalize
- if (true)
- {
- int j;
- for (j = 0; j < vcount; j++)
- {
- float3 v = vertices[j];
- float x = v[0];
- float y = v[1];
- float z = v[2];
- float dx1 = Math.Abs(x - px);
- float dy1 = Math.Abs(y - py);
- float dz1 = Math.Abs(z - pz);
- if (dx1 < normalepsilon && dy1 < normalepsilon && dz1 < normalepsilon)
- {
- // ok, it is close enough to the old one
- // now let us see if it is further from the center of the point cloud than the one we already recorded.
- // in which case we keep this one instead.
- float dist1 = GetDist(px, py, pz, center);
- float dist2 = GetDist(v[0], v[1], v[2], center);
- if (dist1 > dist2)
- {
- v.x = px;
- v.y = py;
- v.z = pz;
- }
- break;
- }
- }
- if (j == vcount)
- {
- float3 dest = new float3(px, py, pz);
- vertices.Add(dest);
- vcount++;
- }
- }
- }
- // ok..now make sure we didn't prune so many vertices it is now invalid.
- if (true)
- {
- float[] bmin2 = { Single.MaxValue, Single.MaxValue, Single.MaxValue };
- float[] bmax2 = { Single.MinValue, Single.MinValue, Single.MinValue };
- for (int i = 0; i < vcount; i++)
- {
- float3 p = vertices[i];
- for (int j = 0; j < 3; j++)
- {
- if (p[j] < bmin2[j])
- bmin2[j] = p[j];
- if (p[j] > bmax2[j])
- bmax2[j] = p[j];
- }
- }
- float dx2 = bmax2[0] - bmin2[0];
- float dy2 = bmax2[1] - bmin2[1];
- float dz2 = bmax2[2] - bmin2[2];
- if (dx2 < EPSILON || dy2 < EPSILON || dz2 < EPSILON || vcount < 3)
- {
- float cx = dx2 * 0.5f + bmin2[0];
- float cy = dy2 * 0.5f + bmin2[1];
- float cz = dz2 * 0.5f + bmin2[2];
- float len = Single.MaxValue;
- if (dx2 >= EPSILON && dx2 < len)
- len = dx2;
- if (dy2 >= EPSILON && dy2 < len)
- len = dy2;
- if (dz2 >= EPSILON && dz2 < len)
- len = dz2;
- if (len == Single.MaxValue)
- {
- dx2 = dy2 = dz2 = 0.01f; // one centimeter
- }
- else
- {
- if (dx2 < EPSILON) // 1/5th the shortest non-zero edge.
- dx2 = len * 0.05f;
- if (dy2 < EPSILON)
- dy2 = len * 0.05f;
- if (dz2 < EPSILON)
- dz2 = len * 0.05f;
- }
- float x1 = cx - dx2;
- float x2 = cx + dx2;
- float y1 = cy - dy2;
- float y2 = cy + dy2;
- float z1 = cz - dz2;
- float z2 = cz + dz2;
- vcount = 0; // add box
- addPoint(ref vcount, vertices, x1, y1, z1);
- addPoint(ref vcount, vertices, x2, y1, z1);
- addPoint(ref vcount, vertices, x2, y2, z1);
- addPoint(ref vcount, vertices, x1, y2, z1);
- addPoint(ref vcount, vertices, x1, y1, z2);
- addPoint(ref vcount, vertices, x2, y1, z2);
- addPoint(ref vcount, vertices, x2, y2, z2);
- addPoint(ref vcount, vertices, x1, y2, z2);
- return true;
- }
- }
- return true;
- }
- private static void BringOutYourDead(List<float3> verts, out List<float3> overts, List<int> indices)
- {
- int[] used = new int[verts.Count];
- int ocount = 0;
- overts = new List<float3>();
- for (int i = 0; i < indices.Count; i++)
- {
- int v = indices[i]; // original array index
- Debug.Assert(v >= 0 && v < verts.Count);
- if (used[v] != 0) // if already remapped
- {
- indices[i] = used[v] - 1; // index to new array
- }
- else
- {
- indices[i] = ocount; // new index mapping
- overts.Add(verts[v]); // copy old vert to new vert array
- ocount++; // increment output vert count
- Debug.Assert(ocount >= 0 && ocount <= verts.Count);
- used[v] = ocount; // assign new index remapping
- }
- }
- }
- public static HullError CreateConvexHull(HullDesc desc, ref HullResult result)
- {
- HullError ret = HullError.QE_FAIL;
- PHullResult hr = new PHullResult();
- uint vcount = (uint)desc.Vertices.Count;
- if (vcount < 8)
- vcount = 8;
- List<float3> vsource;
- float3 scale = new float3();
- bool ok = CleanupVertices(desc.Vertices, out vsource, desc.NormalEpsilon, out scale); // normalize point cloud, remove duplicates!
- if (ok)
- {
- if (true) // scale vertices back to their original size.
- {
- for (int i = 0; i < vsource.Count; i++)
- {
- float3 v = vsource[i];
- v.x *= scale[0];
- v.y *= scale[1];
- v.z *= scale[2];
- }
- }
- float skinwidth = 0;
- if (desc.HasHullFlag(HullFlag.QF_SKIN_WIDTH))
- skinwidth = desc.SkinWidth;
- ok = ComputeHull(vsource, ref hr, (int)desc.MaxVertices, skinwidth);
- if (ok)
- {
- List<float3> vscratch;
- BringOutYourDead(hr.Vertices, out vscratch, hr.Indices);
- ret = HullError.QE_OK;
- if (desc.HasHullFlag(HullFlag.QF_TRIANGLES)) // if he wants the results as triangle!
- {
- result.Polygons = false;
- result.Indices = hr.Indices;
- result.OutputVertices = vscratch;
- }
- else
- {
- result.Polygons = true;
- result.OutputVertices = vscratch;
- if (true)
- {
- List<int> source = hr.Indices;
- List<int> dest = new List<int>();
- for (int i = 0; i < hr.Indices.Count / 3; i++)
- {
- dest.Add(3);
- dest.Add(source[i * 3 + 0]);
- dest.Add(source[i * 3 + 1]);
- dest.Add(source[i * 3 + 2]);
- }
- result.Indices = dest;
- }
- }
- }
- }
- return ret;
- }
- }
- }
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