t.e2().dobind();
t.e3().dobind();
}
+ System.out.println("rebound!");
}
public void transform(Matrix m) {
public boolean move(Matrix m, boolean ignoreProblems) {
boolean good = true;
- for(Vertex p : (Iterable<Vertex>)getBoundPeers())
- good &= p.transform(m.times(p.p), ignoreProblems);
+ // 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
+ for(Vertex v : (Iterable<Vertex>)getBoundPeers())
+ good &= v.transform(v.getBindingMatrix(this).times(m).times(this.p),
+ ignoreProblems);
- for(Vertex p : (Iterable<Vertex>)getBoundPeers())
- if (good || ignoreProblems) p.reComputeErrorAround();
- else p.transform(p.oldp, true);
+ for(Vertex v : (Iterable<Vertex>)getBoundPeers())
+ if (good || ignoreProblems) v.reComputeErrorAround();
+ else v.transform(v.oldp, true);
return good;
}
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);
e.prev.prev.bindEdge(eother.next.next);
}
}
-
+ */
}
public void dobind(E e) {
for(E ebound : set) {
e.p2.bindTo(Matrix.ONE, ebound.p1);
}
}
- public void shatter(BindingGroup bg1, BindingGroup bg2, boolean triangles) {
- for(E e : set) {
- e.shatter(e.midpoint(), bg1, bg2, triangles);
- }
- }
}
/** [UNIQUE] an edge */
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<E> newBindingGroup = (edu.berkeley.qfat.geom.BindingGroup<E>)newBindingGroup_;
+
+ edu.berkeley.qfat.geom.BindingGroup<E> newBindingGroup =
+ (edu.berkeley.qfat.geom.BindingGroup<E>)newBindingGroup_;
if (newBindingGroup==null) return;
if (this==newBindingGroup.getMaster()) return;
for(E eother : (Iterable<E>)newBindingGroup) {
- this.next.bindTo(newBindingGroup.getMatrix(eother), eother.next);
- this.prev.bindTo(newBindingGroup.getMatrix(eother), eother.prev);
+ 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);
}
+
}
public float stretchRatio() {
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) {
+ //bind_to.add(e);
- public Point shatter() { return shatter(true); }
- public Point shatter(boolean triangles) { return shatter(midpoint(), null, null, triangles); }
- public Point shatter(Point mid, BindingGroup bg1, BindingGroup bg2, boolean triangles) {
- return shatter(mid, bg1, bg2, triangles, false);
+ 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() {
+ //bind_to.dobind(this);
+ for(E e : (Iterable<E>)getBoundPeers()) {
+ if (e==this) continue;
+ p1.bindTo(getBindingMatrix(e), e.p1);
+ p2.bindTo(getBindingMatrix(e), e.p2);
+ }
}
- public Point shatter(Point mid, BindingGroup bg1, BindingGroup bg2, boolean triangles, boolean leader) {
- if (shattered || destroyed) return mid;
- 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, triangles);
- old_bind_to.shatter(bg2.other(), bg1.other(), triangles);
- if (!triangles) {
- next.shatter(false);
- prev.shatter(false);
+ public Point shatter() {
+ if (shattered || destroyed) return null;
+ shattered = true;
+ E first = null;
+ E firste = null;
+ E firstx = null;
+ E firstq = null;
+ for(E e : (Iterable<E>)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;
+ 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);
+ /*
+ */
}
- pair.shatter();
- destroy();
-
- if (triangles) {
- 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);
- if (leader) p1.getE(mid).shatter();
+ for(E e : (Iterable<E>)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);
+ //e.p1.getE(mid).pair.prev.bindTo(e.pair.getBindingMatrix(firstx), first.pair.prev);
}
- return mid;
+ return null;
}
public boolean destroyed = false;
public void reinsert() { triangles.remove(this); triangles.add(this); }
public boolean shouldBeDrawn() {
- if (e1().bind_to==null) return false;
- if (e2().bind_to==null) return false;
- if (e3().bind_to==null) return false;
- 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;
}