X-Git-Url: http://git.megacz.com/?p=anneal.git;a=blobdiff_plain;f=src%2Fedu%2Fberkeley%2Fqfat%2FMesh.java;h=c50e34ccd2e9629cea45660a136c4122bd680946;hp=8a697dc1ec39f6c9d47d4b7bb6d8b57395c01fa1;hb=f42953f58e189d611803dcb4661bb840d785c30a;hpb=982c27e513b15799973ab26d5dc143aa4606800a diff --git a/src/edu/berkeley/qfat/Mesh.java b/src/edu/berkeley/qfat/Mesh.java index 8a697dc..c50e34c 100644 --- a/src/edu/berkeley/qfat/Mesh.java +++ b/src/edu/berkeley/qfat/Mesh.java @@ -14,42 +14,22 @@ public class Mesh implements Iterable { public static final float EPSILON = (float)0.0001; public static final Random random = new Random(); - private PointSet pointset = new PointSet(); - - public Iterable vertices() { return pointset; } - - public Iterable edges() { - return - new Iterable() { - public Iterator iterator() { - // HACK - HashSet hse = new HashSet(); - for(T t : Mesh.this) { - hse.add(t.e1()); - hse.add(t.e2()); - hse.add(t.e3()); - hse.add(t.e1().pair); - hse.add(t.e2().pair); - hse.add(t.e3().pair); - } - return hse.iterator(); - } }; - } - - public Iterator iterator() { - for(Vert v : pointset) - if (v.e != null && v.e.t != null) - return new FaceIterator(v); - return new FaceIterator(); - } + private RTree tris = new RTree(); + private PointSet vertices = new PointSet(); public Mesh score_against = null; public double score = 0; public float score() { return (float)score; } - public int numedges = 0; public float avgedge = 0; + public int size() { return vertices.size(); } + public Iterable vertices() { return vertices; } + + public Iterator iterator() { + return tris.iterator(); + } + public void rebindPoints() { // unbind all points for(Mesh.T t : this) { @@ -99,7 +79,7 @@ public class Mesh implements Iterable { public void transform(Matrix m) { ArrayList set = new ArrayList(); - for (Vert v : pointset) + for (Vert v : vertices) set.add(v); for(Vert v : set) v.transform(m); } @@ -116,12 +96,13 @@ public class Mesh implements Iterable { return (float)total; } - public void rebuildPointSet() { pointset.rebuild(); } - public Vec diagonal() { return pointset.diagonal(); } - public Point centroid() { return pointset.centroid(); } - public Vert nearest(Point p) { return pointset.nearest(p); } + public void rebuild() { /*vertices.rebuild();*/ } + public Vec diagonal() { return vertices.diagonal(); } + public Point centroid() { return vertices.centroid(); } + public Vert nearest(Point p) { return vertices.nearest(p); } public final class Vert extends HasPoint { + public String toString() { return p.toString(); } public Point p; E e; // some edge *leaving* this point @@ -133,7 +114,7 @@ public class Mesh implements Iterable { Matrix quadric = Matrix.ZERO; Vert bound_to = this; - Matrix binding = new Matrix(); + Matrix binding = Matrix.ONE; float oldscore = 0; boolean quadricStale = false; @@ -149,22 +130,29 @@ public class Mesh implements Iterable { private Vert(Point p) { this.p = p; - if (pointset.get(p) != null) throw new Error(); - pointset.add(this); + if (vertices.get(p) != null) throw new Error(); + vertices.add(this); + } + + private void glNormal(GL gl) { + Vec norm = norm(); + gl.glNormal3f(norm.x, norm.y, norm.z); } public void recomputeFundamentalQuadric() { - if (!quadricStale && fundamentalQuadric != null) return; + //if (!quadricStale && fundamentalQuadric != null) return; quadricStale = false; unApplyQuadricToNeighbor(); Matrix m = Matrix.ZERO; E e = this.e; + int count = 0; do { T t = e.t; m = m.plus(t.norm().fundamentalQuadric(t.centroid())); + count++; e = e.pair.next; } while(e != this.e); - fundamentalQuadric = m; + fundamentalQuadric = m.times(1/(float)count); applyQuadricToNeighbor(); } @@ -203,6 +191,15 @@ public class Mesh implements Iterable { reComputeError(); } + public void reComputeErrorAround() { + reComputeError(); + if (nearest_in_other_mesh != null) nearest_in_other_mesh.reComputeError(); + E e = this.e; + do { + e.p2.reComputeError(); + e = e.pair.next; + } while (e != this.e); + } public void reComputeError() { unComputeError(); computeError(); @@ -212,40 +209,150 @@ public class Mesh implements Iterable { oldscore = 0; } public void computeError() { - oldscore = quadric_count == 0 ? 0 : (quadric.preAndPostMultiply(p) / quadric_count); + if (quadric_count == 0) { + if (!tilemesh) { + } + else if (nearest_in_other_mesh == null) { + if (score_against != null) { + Vert ne = score_against.nearest(p); + oldscore = ne.fundamentalQuadric().preAndPostMultiply(p) * 100 * 10; + } else { + oldscore = 0; + } + } else { + oldscore = nearest_in_other_mesh.fundamentalQuadric().preAndPostMultiply(p) * 100 * 10; + } + } else { + oldscore = (quadric.preAndPostMultiply(p) * 100) / quadric_count; + } + + oldscore = oldscore; + + int numaspects = 0; + float aspects = 0; + E e = this.e; + do { + //double ang = Math.abs(e.crossAngle()); + double ang = Math.abs(e.crossAngle()); + if (ang > Math.PI) throw new Error(); + /* + if (e.t != null) { + numaspects++; + aspects += e.t.aspect()*e.t.aspect(); + } + */ + + float minangle = (float)(Math.PI * 0.8); + if (ang > minangle) + oldscore += (ang - minangle); + + e = e.pair.next; + } while (e != this.e); + if (numaspects > 0) oldscore += (aspects / numaspects); + + //System.out.println(oldscore); + //oldscore = oldscore*oldscore; score += oldscore; } + private void removeTrianglesFromRTree() { + E e = this.e; + do { + if (e.t != null) e.t.removeFromRTree(); + e = e.pair.next; + } while(e != this.e); + } + private void addTrianglesToRTree() { + E e = this.e; + do { + if (e.t != null) e.t.addToRTree(); + e = e.pair.next; + } while(e != this.e); + } + /** does NOT update bound pairs! */ public boolean transform(Matrix m) { unApplyQuadricToNeighbor(); + Point oldp = this.p; try { - if (pointset.get(this.p)==null) throw new Error(); - pointset.remove(this); + if (vertices.get(this.p)==null) throw new Error(); + vertices.remove(this); + removeTrianglesFromRTree(); float newx = m.a*p.x + m.b*p.y + m.c*p.z + m.d; float newy = m.e*p.x + m.f*p.y + m.g*p.z + m.h; float newz = m.i*p.x + m.j*p.y + m.k*p.z + m.l; this.p = new Point(newx, newy, newz); - pointset.add(this); + addTrianglesToRTree(); + vertices.add(this); } catch (Exception e) { throw new RuntimeException(e); } applyQuadricToNeighbor(); + // FIXME: intersection test needed? + good = true; + // should recompute fundamental quadrics of all vertices sharing a face, but we defer... E e = this.e; do { + /* + if (Math.abs(e.crossAngle()) > (Math.PI * 0.9) || + Math.abs(e.next.crossAngle()) > (Math.PI * 0.9)) { + good = false; + } + if (e.t.aspect() < 0.1) { + good = false; + } + */ e.p2.quadricStale = true; e = e.pair.next; } while(e != this.e); - // FIXME: intersection test needed? - return true; + if (!ignorecollision && good) { + + tris.range(new Segment(oldp, this.p), + new Visitor() { + public void visit(T t) { + if (!good) return; + E e = Vert.this.e; + do { + if (!t.has(e.p1) && !t.has(e.p2) && e.intersects(t)) { good = false; } + if (e.t != null) { + if (!e.t.has(t.e1().p1) && !e.t.has(t.e1().p2) && t.e1().intersects(e.t)) { good = false; } + if (!e.t.has(t.e2().p1) && !e.t.has(t.e2().p2) && t.e2().intersects(e.t)) { good = false; } + if (!e.t.has(t.e3().p1) && !e.t.has(t.e3().p2) && t.e3().intersects(e.t)) { good = false; } + } + e = e.pair.next; + } while(e != Vert.this.e); + } + }); + + /* + for(T t : Mesh.this) { + if (!good) break; + e = this.e; + do { + if (!t.has(e.p1) && !t.has(e.p2) && e.intersects(t)) { good = false; break; } + if (e.t != null) { + if (!e.t.has(t.e1().p1) && !e.t.has(t.e1().p2) && t.e1().intersects(e.t)) { good = false; break; } + if (!e.t.has(t.e2().p1) && !e.t.has(t.e2().p2) && t.e2().intersects(e.t)) { good = false; break; } + if (!e.t.has(t.e3().p1) && !e.t.has(t.e3().p2) && t.e3().intersects(e.t)) { good = false; break; } + } + e = e.pair.next; + } while(e != this.e); + } + */ + } + + + reComputeErrorAround(); + return good; } + private boolean good; public boolean move(Vec v) { - Matrix m = new Matrix(v); + Matrix m = Matrix.translate(v); Vert p = this; boolean good = true; do { @@ -259,7 +366,14 @@ public class Mesh implements Iterable { E ret = getFreeIncident(e, e); if (ret != null) return ret; ret = getFreeIncident(e.pair.next, e.pair.next); - if (ret == null) throw new Error("unable to find free incident to " + this); + if (ret == null) { + E ex = e; + do { + System.out.println(ex + " " + ex.t); + ex = ex.pair.next; + } while (ex != e); + throw new Error("unable to find free incident to " + this); + } return ret; } @@ -273,7 +387,7 @@ public class Mesh implements Iterable { } public E getE(Point p2) { - Vert v = pointset.get(p2); + Vert v = vertices.get(p2); if (v==null) return null; return getE(v); } @@ -305,8 +419,8 @@ public class Mesh implements Iterable { } while(px != p); return false; } - public void unbind() { bound_to = this; binding = new Matrix(); } - public void bind(Vert p) { bind(p, new Matrix()); } + public void unbind() { bound_to = this; binding = Matrix.ONE; } + public void bind(Vert p) { bind(p, Matrix.ONE); } public void bind(Vert p, Matrix binding) { if (isBoundTo(p)) return; Vert temp_bound_to = p.bound_to; @@ -319,52 +433,42 @@ public class Mesh implements Iterable { } public class BindingGroup { - private HashSet left = new HashSet(); - private HashSet right = new HashSet(); - public BindingGroup() { } - public BindingGroup(E e) { - left.add(e); - } - public void add(E e, boolean swap) { - if (e.bg != null) { - if (e.bg == this) return; - for(E ex : (!swap ? e.bg.left : e.bg.right)) { - ex.bg = this; - left.add(ex); + private HashSet set = new HashSet(); + public BindingGroup bind_others; + public BindingGroup other() { return bind_others; } + public BindingGroup(BindingGroup bind_others) { this.bind_others = bind_others; } + public BindingGroup() { this.bind_others = new BindingGroup(this); } + public BindingGroup(E e) { this(); set.add(e); } + public void add(E e) { + if (set.contains(e)) return; + set.add(e); + BindingGroup e_bind_peers = e.bind_peers; + BindingGroup e_bind_to = e.bind_to; + e.bind_peers = this; + e.bind_to = bind_others; + for (E epeer : e_bind_peers.set) add(epeer); + for (E eother : e_bind_to.set) bind_others.add(eother); + + for(E eother : bind_others.set) { + if (e.next.bind_to.set.contains(eother.prev)) { + e.next.next.bindEdge(eother.prev.prev); } - for(E ex : (!swap ? e.bg.right : e.bg.left)) { - ex.bg = this; - right.add(ex); + if (e.prev.bind_to.set.contains(eother.next)) { + e.prev.prev.bindEdge(eother.next.next); } - } else { - (!swap ? left : right).add(e); - e.bg = this; } + } public void dobind(E e) { - // assumes e is part of the "left" set - Vert v1 = null; - Vert v2 = null; - if (left.contains(e)) { v1 = e.p1; v2 = e.p2; } - if (right.contains(e)) { v1 = e.p2; v2 = e.p1; } - for(E ex : left) { - if (ex==e) continue; - v1.bind(ex.p1); - v2.bind(ex.p2); - } - for(E ex : right) { - if (ex==e) continue; - v1.bind(ex.p2); - v2.bind(ex.p1); + for(E ebound : set) { + e.p1.bind(ebound.p2); + e.p2.bind(ebound.p1); } } public void shatter(BindingGroup bg1, BindingGroup bg2) { - for(E e : left) { + for(E e : set) { e.shatter(e.midpoint(), bg1, bg2); } - for(E e : right) { - e.shatter(e.midpoint(), bg2, bg1); /* swap correct? */ - } } } @@ -376,35 +480,55 @@ public class Mesh implements Iterable { E prev; // previous half-edge E next; // next half-edge E pair; // partner half-edge - public BindingGroup bg = new BindingGroup(this); + public BindingGroup bind_peers = new BindingGroup(this); + public BindingGroup bind_to = bind_peers.other(); boolean shattered = false; - public int compareTo(E e) { return e.length() > length() ? 1 : -1; } - - public void bindEdge(E e) { - bg.add(e.pair, false); - } - public void dobind() { if (bg != null) bg.dobind(this); } + public float comparator() { + Vert nearest = score_against.nearest(midpoint()); + //if (t==null) return length(); + /* + double ang = Math.abs(crossAngle()); + float minangle = (float)(Math.PI * 0.9); + if (ang > minangle) + return 300; + */ + /* + if ((length() * length()) / t.area() > 10) + return (float)(length()*Math.sqrt(t.area())); + return length()*t.area(); + */ + return (float)Math.max(length(), midpoint().distance(nearest.p)); + //return length(); + } + public int compareTo(E e) { + return e.comparator() > comparator() ? 1 : -1; + } + public void bindEdge(E e) { bind_to.add(e); } + public void dobind() { bind_to.dobind(this); } public Point shatter() { return shatter(midpoint(), null, null); } public Point shatter(Point mid, BindingGroup bg1, BindingGroup bg2) { - if (shattered) return mid; + if (shattered || destroyed) return mid; shattered = true; Vert r = next.p2; E next = this.next; E prev = this.prev; + int old_colorclass = t==null ? 0 : t.colorclass; if (bg1==null) bg1 = new BindingGroup(); if (bg2==null) bg2 = new BindingGroup(); - bg.shatter(bg1, bg2); + BindingGroup old_bind_to = bind_to; + bind_peers.shatter(bg1, bg2); + old_bind_to.shatter(bg2.other(), bg1.other()); pair.shatter(); destroy(); - newT(r.p, p1.p, mid, null); - newT(r.p, mid, p2.p, null); - bg1.add(p1.getE(mid), false); - bg2.add(p2.getE(mid).pair, false); + newT(r.p, p1.p, mid, null, old_colorclass); + newT(r.p, mid, p2.p, null, old_colorclass); + bg1.add(p1.getE(mid)); + bg2.add(p2.getE(mid).pair); return mid; } @@ -413,14 +537,27 @@ public class Mesh implements Iterable { if (destroyed) return; destroyed = true; pair.destroyed = true; + + if (t != null) t.destroy(); + t = null; + + if (pair.t != null) pair.t.destroy(); + pair.t = null; + if (next.t != null) next.t.destroy(); if (prev.t != null) prev.t.destroy(); next.t = null; prev.t = null; + + if (pair.next.t != null) pair.next.t.destroy(); + if (pair.prev.t != null) pair.next.t.destroy(); pair.next.t = null; pair.prev.t = null; - this.bg = null; - pair.bg = null; + + this.bind_to = null; + pair.bind_to = null; + this.bind_peers = null; + pair.bind_peers = null; pair.prev.next = next; next.prev = pair.prev; prev.next = pair.next; @@ -437,6 +574,7 @@ public class Mesh implements Iterable { this.prev.next = this; this.next.prev = this; this.pair.pair = this; + bind_peers.add(this); if (this.next.p1 != p2) throw new Error(); if (this.prev.p2 != p1) throw new Error(); if (this.p1.e == null) this.p1.e = this; @@ -448,7 +586,13 @@ public class Mesh implements Iterable { } private boolean added = false; - public T makeT() { return t==null ? (t = new T(this)) : t; } + public T makeT(int colorclass) { return t==null ? (t = new T(this, colorclass)) : t; } + + public double crossAngle() { + Vec v1 = t.norm().times(-1); + Vec v2 = pair.t.norm().times(-1); + return Math.acos(v1.norm().dot(v2.norm())); + } /** angle between this half-edge and the next */ public double angle() { @@ -479,8 +623,8 @@ public class Mesh implements Iterable { /** creates an isolated edge out in the middle of space */ public E(Point p1, Point p2) { - if (pointset.get(p1) != null) throw new Error(); - if (pointset.get(p2) != null) throw new Error(); + if (vertices.get(p1) != null) throw new Error(); + if (vertices.get(p2) != null) throw new Error(); this.p1 = new Vert(p1); this.p2 = new Vert(p2); this.prev = this.next = this.pair = new E(this, this, this); @@ -492,7 +636,7 @@ public class Mesh implements Iterable { /** adds a new half-edge from prev.p2 to p2 */ public E(E prev, Point p) { Vert p2; - p2 = pointset.get(p); + p2 = vertices.get(p); if (p2 == null) p2 = new Vert(p); this.p1 = prev.p2; this.p2 = p2; @@ -598,8 +742,8 @@ public class Mesh implements Iterable { } public E makeE(Point p1, Point p2) { - Vert v1 = pointset.get(p1); - Vert v2 = pointset.get(p2); + Vert v1 = vertices.get(p1); + Vert v2 = vertices.get(p2); if (v1 != null && v2 != null) { E e = v1.getE(v2); if (e != null) return e; @@ -610,7 +754,7 @@ public class Mesh implements Iterable { if (v2 != null) return new E(v2.getFreeIncident(), p1).pair; return new E(p1, p2); } - public T newT(Point p1, Point p2, Point p3, Vec norm) { + public T newT(Point p1, Point p2, Point p3, Vec norm, int colorclass) { if (norm != null) { Vec norm2 = p3.minus(p1).cross(p2.minus(p1)); float dot = norm.dot(norm2); @@ -625,7 +769,7 @@ public class Mesh implements Iterable { e23.makeAdjacent(e31); e31.makeAdjacent(e12); } - T ret = e12.makeT(); + T ret = e12.makeT(colorclass); if (e12.t == null) throw new Error(); if (e23.t == null) throw new Error(); if (e31.t == null) throw new Error(); @@ -658,11 +802,14 @@ public class Mesh implements Iterable { public final class T extends Triangle { public final E e1; public final int color; + public final int colorclass; - public void destroy() { - } + public void removeFromRTree() { tris.remove(this); } + public void addToRTree() { tris.insert(this); } - T(E e1) { + public void destroy() { tris.remove(this); } + + T(E e1, int colorclass) { this.e1 = e1; E e2 = e1.next; E e3 = e2.next; @@ -684,6 +831,8 @@ public class Mesh implements Iterable { break; } this.color = color; + this.colorclass = colorclass; + tris.add(this); } public E e1() { return e1; } public E e2() { return e1.next; } @@ -696,6 +845,21 @@ public class Mesh implements Iterable { public Point p3() { return e1.next.p2.p; } public boolean hasE(E e) { return e1==e || e1.next==e || e1.prev==e; } public boolean has(Vert v) { return v1()==v || v2()==v || v3()==v; } - } + public void glVertices(GL gl) { + + /* + if (e1().bind_to.set.size() == 0) return; + if (e2().bind_to.set.size() == 0) return; + if (e3().bind_to.set.size() == 0) return; + */ + + norm().glNormal(gl); + p1().glVertex(gl); + p2().glVertex(gl); + p3().glVertex(gl); + } + } + public boolean tilemesh = false; + public boolean ignorecollision = false; }