- fundamentalQuadric = m.times(1/(float)count);
- applyQuadricToNeighbor();
- }
-
- public void unApplyQuadricToNeighbor() {
- if (nearest_in_other_mesh == null) return;
- if (fundamentalQuadric == null) return;
- nearest_in_other_mesh.unComputeError();
- nearest_in_other_mesh.quadric = nearest_in_other_mesh.quadric.minus(fundamentalQuadric);
- nearest_in_other_mesh.quadric_count--;
- if (nearest_in_other_mesh.quadric_count==0)
- nearest_in_other_mesh.quadric = Matrix.ZERO;
- nearest_in_other_mesh.computeError();
- nearest_in_other_mesh = null;
- }
-
- public void applyQuadricToNeighbor() {
- if (score_against == null) return;
-
- Vertex new_nearest = score_against.nearest(p);
- 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 (nearest_in_other_mesh.e == null || 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();
- }
- reComputeError();