X-Git-Url: http://git.megacz.com/?p=anneal.git;a=blobdiff_plain;f=src%2Fedu%2Fberkeley%2Fqfat%2FMesh.java;h=57eda26d738feffcd6ed84b123aa8c7dc2edd40a;hp=f95b33d58789138146bd3dcdf912510337f071f0;hb=30607e6bf4827d90fc055c8db1e7f363ef2693e6;hpb=5239d59bb876c25b263a24dbff11dc7a9082a431 diff --git a/src/edu/berkeley/qfat/Mesh.java b/src/edu/berkeley/qfat/Mesh.java index f95b33d..57eda26 100644 --- a/src/edu/berkeley/qfat/Mesh.java +++ b/src/edu/berkeley/qfat/Mesh.java @@ -6,6 +6,7 @@ import javax.swing.*; import javax.media.opengl.*; import javax.media.opengl.glu.*; import edu.berkeley.qfat.geom.*; +import edu.berkeley.qfat.geom.HasBindingGroup; import edu.wlu.cs.levy.CG.KDTree; import edu.berkeley.qfat.geom.Point; import com.infomatiq.jsi.IntProcedure; @@ -19,14 +20,13 @@ public class Mesh implements Iterable { private PointSet vertices = new PointSet(); public boolean immutableVertices; - public boolean ignorecollision = false; - public Mesh score_against = null; - public double score = 0; + public Mesh error_against = null; + public double error = 0; public Mesh(boolean immutableVertices) { this.immutableVertices = immutableVertices; } public void makeVerticesImmutable() { this.immutableVertices = true; } - public float score() { return (float)score; } + public float error() { return (float)error; } public int size() { return vertices.size(); } public Iterable vertices() { return vertices; } @@ -45,12 +45,14 @@ public class Mesh implements Iterable { t.e2().dobind(); t.e3().dobind(); } + System.out.println("rebound!"); } public void transform(Matrix m) { ArrayList set = new ArrayList(); for(Vertex v : vertices) set.add(v); - for(Vertex v : set) v.transform(m); + for(Vertex v : set) v.transform(m.times(v.p), true, null); + for(Vertex v : set) v.goodp = v.p; } public void rebuild() { /*vertices.rebuild();*/ } @@ -76,172 +78,209 @@ public class Mesh implements Iterable { /** a vertex in the mesh */ public final class Vertex extends HasQuadric implements Visitor { - public String toString() { return p.toString(); } - public Point p; + public Point p, goodp; + public Point oldp; E e; // some edge *leaving* this point - Matrix binding = Matrix.ONE; - Vertex bound_to = this; + private boolean illegal = false; public Point getPoint() { return p; } - public float score() { return oldscore; } + public float error() { return olderror; } private Vertex(Point p) { this.p = p; + this.goodp = p; + this.oldp = p; 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 reinsert() { + vertices.remove(this); + vertices.add(this); + for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) e.t.reinsert(); } - public void _recomputeFundamentalQuadric() { - Matrix m = Matrix.ZERO; + public float olderror = 0; + public void setError(float nerror) { + error -= olderror; + olderror = nerror; + error += olderror; + } + + public float averageTriangleArea() { int count = 0; + float ret = 0; for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) { - T t = e.t; - m = m.plus(t.norm().fundamentalQuadric(t.centroid())); + ret += e.t.area(); count++; } - quadricStale = false; - fundamentalQuadric = m.times(1/(float)count); + return ret/count; } - - public void applyQuadricToNeighbor() { - if (score_against == null) return; - - Vertex new_nearest = (Vertex)nearest(); - if (nearest_in_other_mesh != null && new_nearest == nearest_in_other_mesh) return; - - if (nearest_in_other_mesh != null) unApplyQuadricToNeighbor(); - if (nearest_in_other_mesh != null) throw new Error(); - - nearest_in_other_mesh = new_nearest; - - // don't attract to vertices that face the other way - if (((Vertex)nearest_in_other_mesh).e == null || ((Vertex)nearest_in_other_mesh).norm().dot(norm()) < 0) { - nearest_in_other_mesh = null; - } else { - nearest_in_other_mesh.unComputeError(); - nearest_in_other_mesh.quadric = nearest_in_other_mesh.quadric.plus(fundamentalQuadric()); - nearest_in_other_mesh.quadric_count++; - nearest_in_other_mesh.computeError(); + public float averageEdgeLength() { + int count = 0; + float ret = 0; + for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) { + ret += e.length(); + count++; } - - reComputeError(); + return ret/count; } - public void reComputeErrorAround() { - reComputeError(); - if (nearest_in_other_mesh != null) nearest_in_other_mesh.reComputeError(); - for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) - e.p2.reComputeError(); - } - public void reComputeError() { - unComputeError(); - computeError(); - } - public void unComputeError() { - score -= oldscore; - oldscore = 0; + public Matrix _recomputeFundamentalQuadric() { + Matrix m = Matrix.ZERO; + int count = 0; + for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) { + m = m.plus(e.t.norm().fundamentalQuadric(e.t.centroid())); + count++; + } + return m.times(1/(float)count); } - public HasQuadric nearest() { return score_against.vertices.nearest(p, this); } + + public HasQuadric nearest() { return error_against==null ? null : error_against.vertices.nearest(p, this); } public void computeError() { - oldscore = - quadric_count != 0 - ? (quadric.preAndPostMultiply(p) * 100) / quadric_count - : immutableVertices - ? oldscore - : nearest_in_other_mesh != null - ? nearest_in_other_mesh.fundamentalQuadric().preAndPostMultiply(p) * 100 * 10 - : score_against != null - ? nearest().fundamentalQuadric().preAndPostMultiply(p) * 100 * 10 - : 0; + if (error_against==null) return; + float nerror = + nearest_in_other_mesh != null + ? nearest_in_other_mesh.fundamentalQuadric().preAndPostMultiply(p) + : nearest().fundamentalQuadric().preAndPostMultiply(p); + if (quadric_count != 0) + nerror = (nerror + quadric.preAndPostMultiply(p))/(quadric_count+1); + + if (!immutableVertices && quadric_count == 0) + nerror *= 2; + //System.out.println(nerror); for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) { - double ang = Math.abs(e.crossAngle()); + double ang = e.dihedralAngle(); if (ang > Math.PI) throw new Error(); - float minangle = (float)(Math.PI * 0.8); - if (ang > minangle) - oldscore += (ang - minangle); + if (ang < -Math.PI) throw new Error(); + //float minangle = (float)(Math.PI * 0.8); + nerror += ((ang / Math.PI)*(ang/Math.PI)) * e.length() * 0.05; + //System.out.println(((ang / Math.PI)*(ang/Math.PI)) * 0.000001); + //if (ang > minangle) nerror += (ang - minangle); + /* + if (e.t.aspect() < 0.2) { + nerror += (0.2-e.t.aspect()) * 10; + } + */ } - score += oldscore; - } - private void removeTrianglesFromRTree() { - for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) - if (e.t != null) e.t.removeFromRTree(); + setError(nerror); } - private void addTrianglesToRTree() { - for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) - if (e.t != null) e.t.addToRTree(); + + public boolean move(Matrix m, boolean ignoreProblems) { + boolean good = true; + + // t1' = M * t1 + // t2' = t2.getMatrix(t1) * t1' + // t2' = t2.getMatrix(t1) * M * t1 + // t1 = t1.getMatrix(t2) * t2 + // M * t1 = M * t1.getMatrix(t2) * t2 + + if (bindingGroup!=null && this != bindingGroup.getMaster()) { + Matrix v = getBindingMatrix(bindingGroup.getMaster()); + return ((Vertex)bindingGroup.getMaster()).move(v.inverse().times(m).times(v), ignoreProblems); + } + + if (bindingGroup != null) { + Matrix m2 = null; + for(int i=0; i<20 && !m.equals(m2); i++) { + m2 = m.times(getConstraint()); + //System.out.println(m.minus(m2)); + } + if (!m.equals(m2)) return true; + } + + Point op = this.p; + Point pt = m.times(this.p); + for(Vertex v : (Iterable)getBoundPeers()) { + Point pt2 = v.getBindingMatrix(this).times(pt); + /* + if (Math.abs( v.p.minus(pt2).mag() / pt.minus(op).mag() ) > 5) + throw new Error(v.p+" "+pt2+"\n"+op+" "+pt+"\n"+v.getBindingMatrix(this)); + if (Math.abs( v.p.minus(pt2).mag() / pt.minus(op).mag() ) < 1/5) throw new Error(); + */ + good &= v.transform(pt2, ignoreProblems, v.getBindingMatrix(this)); + } + + if (!good && !ignoreProblems) { + for(Vertex v : (Iterable)getBoundPeers()) + v.transform(v.oldp, true, null); + } + + for(Vertex v : (Iterable)getBoundPeers()) + v.recomputeFundamentalQuadricIfNeighborChanged(); + for(Vertex v : (Iterable)getBoundPeers()) + v.reComputeErrorAround(); + return good; } /** does NOT update bound pairs! */ - public boolean transform(Matrix m) { + private boolean transform(Point newp, boolean ignoreProblems, Matrix yes) { + this.oldp = this.p; if (immutableVertices) throw new Error(); unApplyQuadricToNeighbor(); - Point oldp = this.p; - 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); - addTrianglesToRTree(); - vertices.add(this); + boolean illegalbefore = illegal; + illegal = false; + /* + if (this.p.minus(newp).mag() > 0.1 && !ignoreProblems) { + try { + throw new Exception(""+this.p.minus(newp).mag()+" "+ignoreProblems+" "+yes); + } catch(Exception e) { + e.printStackTrace(); + } + illegal = true; + } + */ + + this.p = newp; + reinsert(); applyQuadricToNeighbor(); - good = true; + if (!ignoreProblems) { + checkLegality(); + } + for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) + e.p2.quadricStale = true; + return !illegal || (illegalbefore && illegal); + } + public void checkLegality() { + /* for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) { - 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; + if (Math.abs(e.dihedralAngle()) > (Math.PI * 0.9) || + Math.abs(e.next.dihedralAngle()) > (Math.PI * 0.9)) illegal = true; + if (e.t.aspect() < 0.2) illegal = true; } + */ + if (!illegal) triangles.range(oldp, this.p, (Visitor)this); + } - if (!ignorecollision && good) triangles.range(oldp, this.p, (Visitor)this); - - reComputeErrorAround(); - return good; + public void reComputeErrorAround() { + reComputeError(); + if (nearest_in_other_mesh != null) + nearest_in_other_mesh.reComputeError(); + for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) + e.p2.reComputeError(); } public boolean visit(Object o) { - if (o instanceof T) { - T t = (T)o; - if (!good) return false; - for(E e = Vertex.this.e; e!=null; e=e.pair.next==Vertex.this.e?null:e.pair.next) { - 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; } - } + if (o instanceof Vertex) + return ((Vertex)o).e != null && ((Vertex)o).norm().dot(Vertex.this.norm()) >= 0; + T t = (T)o; + if (illegal) return false; + for(E e = Vertex.this.e; e!=null; e=e.pair.next==Vertex.this.e?null:e.pair.next) { + if (!t.has(e.p1) && !t.has(e.p2) && e.intersects(t)) { illegal = true; } + if (e.t != null) { + if (!e.t.has(t.e1().p1) && !e.t.has(t.e1().p2) && t.e1().intersects(e.t)) { illegal = true; } + if (!e.t.has(t.e2().p1) && !e.t.has(t.e2().p2) && t.e2().intersects(e.t)) { illegal = true; } + if (!e.t.has(t.e3().p1) && !e.t.has(t.e3().p2) && t.e3().intersects(e.t)) { illegal = true; } } - return good; - } else { - Vertex v = (Vertex)o; - if (v.e==null || v.norm().dot(Vertex.this.norm()) < 0) - return false; - return true; } - } - private boolean good; - - public boolean move(Vec v) { - Matrix m = Matrix.translate(v); - Vertex p = this; - boolean good = true; - do { - good &= p.transform(m); - p = p.bound_to; - } while (p != this); - return good; + return !illegal; } public E getFreeIncident() { @@ -270,6 +309,10 @@ public class Mesh implements Iterable { return null; } + private void glNormal(GL gl) { + Vec norm = norm(); + gl.glNormal3f(norm.x, norm.y, norm.z); + } public Vec norm() { Vec norm = new Vec(0, 0, 0); for(E e = this.e; e!=null; e=e.pair.next==this.e?null:e.pair.next) @@ -278,112 +321,144 @@ public class Mesh implements Iterable { return norm.norm(); } - public boolean isBoundTo(Vertex p) { - for(Vertex px = p; px!=null; px=(px.bound_to==p?null:px.bound_to)) - if (px==this) - return true; - return false; - } - - public void unbind() { bound_to = this; binding = Matrix.ONE; } - public void bind(Vertex p) { bind(p, Matrix.ONE); } - public void bind(Vertex p, Matrix binding) { - if (isBoundTo(p)) return; - Vertex temp_bound_to = p.bound_to; - Matrix temp_binding = p.binding; - p.bound_to = this.bound_to; - p.binding = binding.times(this.binding); // FIXME: may have order wrong here - this.bound_to = temp_bound_to; - this.binding = temp_binding.times(temp_binding); // FIXME: may have order wrong here - } + public void bindTo(Vertex p) { bindTo(Matrix.ONE, p); } } - public class BindingGroup { - 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); - } - if (e.prev.bind_to.set.contains(eother.next)) { - e.prev.prev.bindEdge(eother.next.next); - } - } - - } - public void dobind(E e) { - for(E ebound : set) { - e.p1.bind(ebound.p2); - e.p2.bind(ebound.p1); - } - } - public void shatter(BindingGroup bg1, BindingGroup bg2) { - for(E e : set) { - e.shatter(e.midpoint(), bg1, bg2); - } - } - } /** [UNIQUE] an edge */ - public final class E implements Comparable { + public final class E extends HasBindingGroup implements Comparable { public final Vertex p1, p2; T t; // triangle to our "left" E prev; // previous half-edge E next; // next half-edge E pair; // partner half-edge - public BindingGroup bind_peers = new BindingGroup(this); - public BindingGroup bind_to = bind_peers.other(); boolean shattered = false; public boolean intersects(T t) { return t.intersects(p1.p, p2.p); } + + public void bindingGroupChanged(edu.berkeley.qfat.geom.BindingGroup newBindingGroup_) { + + edu.berkeley.qfat.geom.BindingGroup newBindingGroup = + (edu.berkeley.qfat.geom.BindingGroup)newBindingGroup_; + if (newBindingGroup==null) return; + if (this==newBindingGroup.getMaster()) return; + HashSet nbg = new HashSet(); + for(E eother : (Iterable)newBindingGroup) nbg.add(eother); + for(E eother : nbg) { + if (next==null || prev==null) continue; + if (eother.next==null || eother.prev==null) continue; + + if (next.isBoundTo(eother.pair.prev.pair) && !prev.isBoundTo(eother.pair.next.pair)) + prev.bindTo(next.getBindingMatrix(eother.pair.prev.pair), eother.pair.next.pair); + if (!next.isBoundTo(eother.pair.prev.pair) && prev.isBoundTo(eother.pair.next.pair)) + next.bindTo(prev.getBindingMatrix(eother.pair.next.pair), eother.pair.prev.pair); + + if (next.isBoundTo(eother.next) && !prev.isBoundTo(eother.prev)) + prev.bindTo(next.getBindingMatrix(eother.next), eother.prev); + if (!next.isBoundTo(eother.next) && prev.isBoundTo(eother.prev)) + next.bindTo(prev.getBindingMatrix(eother.prev), eother.next); + } + + } + + public float stretchRatio() { + Vertex nearest = error_against.nearest(midpoint()); + float nearest_distance = midpoint().distance(nearest.p); + float other_distance = + (p1.p.distance(error_against.nearest(p1.p).p)+ + p2.p.distance(error_against.nearest(p2.p).p))/2; + return nearest_distance/other_distance; + } public float comparator() { - Vertex nearest = score_against.nearest(midpoint()); - return (float)Math.max(length(), midpoint().distance(nearest.p)); + return length(); + //return t==null?0:(1/t.aspect()); } 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 void bindEdge(E e, Matrix m) { + _bindEdge(e, m); + pair._bindEdge(e.pair, m); + } + public void _bindEdge(E e, Matrix m) { + e = e.pair; + /* + //assumes edges are identical length at binding time + Vec reflectionPlaneNormal = e.p2.p.minus(e.p1.p).norm(); + float a = reflectionPlaneNormal.x; + float b = reflectionPlaneNormal.y; + float c = reflectionPlaneNormal.z; + Matrix reflectionMatrix = + new Matrix( 1-2*a*a, -2*a*b, -2*a*c, 0, + -2*a*b, 1-2*b*b, -2*b*c, 0, + -2*a*c, -2*b*c, 1-2*c*c, 0, + 0, 0, 0, 1); + m = m.times(Matrix.translate(e.midpoint().minus(Point.ORIGIN)) + .times(reflectionMatrix) + .times(Matrix.translate(Point.ORIGIN.minus(e.midpoint())))); + System.out.println(reflectionPlaneNormal); + System.out.println(" " + p1.p + " " + m.times(e.p1.p)); + System.out.println(" " + p2.p + " " + m.times(e.p2.p)); + */ + if (m.times(e.p1.p).minus(p1.p).mag() > EPSILON) throw new Error(); + if (m.times(e.p2.p).minus(p2.p).mag() > EPSILON) throw new Error(); + this.bindTo(m, e); + } + + public void dobind() { + for(E e : (Iterable)getBoundPeers()) { + if (e==this) continue; + p1.bindTo(getBindingMatrix(e), e.p1); + p2.bindTo(getBindingMatrix(e), e.p2); + e.p1.setConstraint(getConstraint()); + e.p2.setConstraint(getConstraint()); + } + } - public Point shatter() { return shatter(midpoint(), null, null); } - public Point shatter(Point mid, BindingGroup bg1, BindingGroup bg2) { - if (shattered || destroyed) return mid; + public Point shatter() { + if (shattered || destroyed) return null; shattered = true; - - Vertex 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(); - 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, old_colorclass); - newT(r.p, mid, p2.p, null, old_colorclass); - bg1.add(p1.getE(mid)); - bg2.add(p2.getE(mid).pair); - return mid; + E first = null; + E firste = null; + E firstx = null; + E firstq = null; + for(E e : (Iterable)getBoundPeers()) { + E enext = e.next; + E eprev = e.prev; + E pnext = e.pair.next; + E pprev = e.pair.prev; + Point mid = e.midpoint(); + Vertex r = e.next.p2; + Vertex l = e.pair.next.p2; + if (!e.destroyed) { + e.destroy(); + e.pair.destroy(); + newT(r.p, e.p1.p, mid, null, 0); + newT(r.p, mid, e.p2.p, null, 0); + newT(l.p, mid, e.p1.p, null, 0); + newT(l.p, e.p2.p, mid, null, 0); + } + } + for(E e : (Iterable)getBoundPeers()) { + Point mid = e.midpoint(); + if (first==null) { + first = e.p1.getE(mid); + firste = e; + firstx = e.pair; + firstq = e.p2.getE(mid).pair; + continue; + } + e.p1.getE(mid). bindTo(e.getBindingMatrix(firste), first); + e.p1.getE(mid).pair. bindTo(e.getBindingMatrix(firste), first.pair); + e.p2.getE(mid).pair. bindTo(e.getBindingMatrix(firste), firstq); + e.p2.getE(mid).pair.pair.bindTo(e.getBindingMatrix(firste), firstq.pair); + } + /* + first.setConstraint(firste.getConstraint()); + firstq.setConstraint(firste.getConstraint()); + */ + return null; } public boolean destroyed = false; @@ -408,10 +483,6 @@ public class Mesh implements Iterable { pair.next.t = null; pair.prev.t = 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; @@ -424,7 +495,6 @@ 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; @@ -434,10 +504,15 @@ public class Mesh implements Iterable { public T makeT(int colorclass) { return t==null ? (t = new T(this, colorclass)) : t; } - public double crossAngle() { + public double dihedralAngle() { Vec v1 = t.norm().times(-1); Vec v2 = pair.t.norm().times(-1); - return Math.acos(v1.norm().dot(v2.norm())); + double prod = v1.norm().dot(v2.norm()); + prod = Math.min(1,prod); + prod = Math.max(-1,prod); + double ret = Math.acos(prod); + if (Double.isNaN(ret)) throw new Error("nan! " + prod); + return ret; } /** angle between this half-edge and the next */ @@ -450,7 +525,7 @@ public class Mesh implements Iterable { public void makeAdjacent(E e) { if (this.next == e) return; if (p2 != e.p1) throw new Error("cannot make adjacent -- no shared vertex"); - if (t != null || e.t != null) throw new Error("cannot make adjacent -- edges not both free"); + if (t != null || e.t != null) throw new Error("cannot make adjacent -- edges not both free "); E freeIncident = p2.getFreeIncident(e, this); @@ -531,7 +606,22 @@ public class Mesh implements Iterable { if (v2 != null) return new E(v2.getFreeIncident(), p1).pair; return new E(p1, p2); } + public boolean coalesce = false; + private static float round(float f) { + return Math.round(f*1000)/1000f; + } public T newT(Point p1, Point p2, Point p3, Vec norm, int colorclass) { + if (coalesce) { + + for(Vertex v : vertices) { if (p1.distance(v.p) < EPSILON) { p1 = v.p; break; } } + for(Vertex v : vertices) { if (p2.distance(v.p) < EPSILON) { p2 = v.p; break; } } + for(Vertex v : vertices) { if (p3.distance(v.p) < EPSILON) { p3 = v.p; break; } } + /* + p1 = new Point(round(p1.x), round(p1.y), round(p1.z)); + p2 = new Point(round(p2.x), round(p2.y), round(p2.z)); + p3 = new Point(round(p3.x), round(p3.y), round(p3.z)); + */ + } if (norm != null) { Vec norm2 = p3.minus(p1).cross(p2.minus(p1)); float dot = norm.dot(norm2); @@ -553,18 +643,12 @@ public class Mesh implements Iterable { return ret; } - /** [UNIQUE] a triangle (face) */ public final class T extends Triangle { public final E e1; public final int color; public final int colorclass; - public void removeFromRTree() { triangles.remove(this); } - public void addToRTree() { triangles.insert(this); } - - public void destroy() { triangles.remove(this); } - T(E e1, int colorclass) { this.e1 = e1; E e2 = e1.next; @@ -602,12 +686,31 @@ public class Mesh implements Iterable { public boolean hasE(E e) { return e1==e || e1.next==e || e1.prev==e; } public boolean has(Vertex v) { return v1()==v || v2()==v || v3()==v; } + public void removeFromRTree() { triangles.remove(this); } + public void addToRTree() { triangles.insert(this); } + public void destroy() { triangles.remove(this); } + public void reinsert() { triangles.remove(this); triangles.add(this); } + public boolean shouldBeDrawn() { - if (e1().bind_to.set.size() == 0) return false; - if (e2().bind_to.set.size() == 0) return false; - if (e3().bind_to.set.size() == 0) return false; + + if (e1().bindingGroupSize() <= 1) return false; + if (e2().bindingGroupSize() <= 1) return false; + if (e3().bindingGroupSize() <= 1) return false; + return true; } + /** issue gl.glVertex() for each of the triangle's points */ + public void glVertices(GL gl) { + if (!shouldBeDrawn()) return; + norm().glNormal(gl); + Point p1 = v1().goodp; + Point p2 = v2().goodp; + Point p3 = v3().goodp; + p1.glVertex(gl); + p2.glVertex(gl); + p3.glVertex(gl); + } + } }