/** checks the combinatorial validity of the triangulation. */
public boolean isValid() {
boolean result = true;
System.out.print("Checking combinatorial validity...");
for (TriangulationDSVertex_2<X> p : this.vertices) {
if (p == null) {
result = false;
System.out.println("\n vertex with null point");
}
if (p != null && p.getFace() == null) {
result = false;
System.out.println("\n vertex with null associated triangle");
}
if (p != null && !hasFace(p.getFace())) {
result = false;
System.out.println("\n vertex with non-existing associated triangle");
}
}
for (TriangulationDSFace_2<X> c : this.faces) {
if (c == null) {
result = false;
System.out.println("null face");
}
if (c != null && (c.vertex(0) == null || c.vertex(1) == null || c.vertex(2) == null)) {
result = false;
System.out.println("\n face with null vertex");
}
if (c != null
&& (!hasVertex(c.vertex(0)) || !hasVertex(c.vertex(1)) || !hasVertex(c.vertex(2)))) {
result = false;
System.out.println("\n face with non-existing vertex");
}
// check for the coherence of the 3 neighbors of a given face
if (c != null) {
for (int i = 0; i < 3; i++) {
TriangulationDSFace_2<X> adjacentFace = c.neighbor(i);
if (adjacentFace != null && adjacentFace.neighbors.contains(c) == false) {
System.out.println("\n adjacent face error");
result = false;
}
}
}
}
if (result == true) System.out.println(" ok");
else System.out.println("errors in combinatorial validity");
return result;
}
/**
* checks whether an edge is shared by two faces f1 and f2: the function check whether the
* corresponding vertices appear both in f1 and f2, in the correct order. LCA: a' tester
*/
public boolean areEqual(
TriangulationDSFace_2<X> face1, int i1, TriangulationDSFace_2<X> face2, int i2) {
HalfedgeHandle<X> edge1 = new HalfedgeHandle<X>(face1, i1);
HalfedgeHandle<X> edge2 = new HalfedgeHandle<X>(face2, i2);
TriangulationDSVertex_2<X> v1 = edge1.getVertex(0); // first vertex of edge1
TriangulationDSVertex_2<X> v2 = edge1.getVertex(1); // second vertex of edge1
boolean contained = edge2.hasVertex(v1);
if (contained == false) return false;
contained = edge2.hasVertex(v2);
if (contained == false) return false;
if (v1.equals(edge2.getVertex(0))) return false;
return true;
}
/** Inserts point p in face c. Face c is split into 3 triangles. */
public TriangulationDSVertex_2<X> insertInTriangle(X p, TriangulationDSFace_2<X> t) {
if (t == null) throw new Error("Trying to star a null cell");
TriangulationDSFace_2<X> f1 = t.neighbor(1);
TriangulationDSFace_2<X> f2 = t.neighbor(2);
TriangulationDSFace_2<X> f0 = t.neighbor(0);
TriangulationDSVertex_2<X> v0 = t.vertex(0);
TriangulationDSVertex_2<X> v1 = t.vertex(1);
TriangulationDSVertex_2<X> v2 = t.vertex(2);
// create new vertex
TriangulationDSVertex_2<X> v = new TriangulationDSVertex_2<X>(p);
vertices.add(v);
// create and set two new faces
TriangulationDSFace_2<X> newFace2 = createFace(v0, v1, v, t, null, f2);
TriangulationDSFace_2<X> newFace1 = createFace(v0, v, v2, t, f1, newFace2);
newFace2.setNeighbor(1, newFace1);
// set new vertex and neighbors of old triangle
t.setVertex(0, v);
t.setNeighbor(1, newFace1);
t.setNeighbor(2, newFace2);
// set the faces incident to v and v0
v.setFace(t);
v0.setFace(newFace1);
// restore the marks of the initial triangle edges
for (int i = 0; i < 3; i++) t.unmark(i);
if (t.neighbor(0) != null) {
HalfedgeHandle<X> e = new HalfedgeHandle<X>(t, 0);
e.setMark(e.getOpposite().isMarked());
}
if (newFace1.neighbor(1) != null) {
HalfedgeHandle<X> e = new HalfedgeHandle<X>(newFace1, 1);
e.setMark(e.getOpposite().isMarked());
}
if (newFace2.neighbor(2) != null) {
HalfedgeHandle<X> e = new HalfedgeHandle<X>(newFace2, 2);
e.setMark(e.getOpposite().isMarked());
}
// return the new vertex
return v;
}
/** creates a triangle with vertices p1, p2, p3. */
public TriangulationDSFace_2<X> makeTriangle(X p1, X p2, X p3) {
TriangulationDSVertex_2<X> v1 = new TriangulationDSVertex_2<X>(p1);
TriangulationDSVertex_2<X> v2 = new TriangulationDSVertex_2<X>(p2);
TriangulationDSVertex_2<X> v3 = new TriangulationDSVertex_2<X>(p3);
TriangulationDSFace_2<X> c = createFace(v1, v2, v3, null, null, null);
v1.setFace(c);
v2.setFace(c);
v3.setFace(c);
this.vertices.add(v1);
this.vertices.add(v2);
this.vertices.add(v3);
return c;
}
/**
* Create a new triangulation from the face-vertex incidence relations It takes linear space and
* linear time.
*/
public TriangulationDS_2(X[] points, int[][] neighbors) {
if (points == null || neighbors == null || points[0] == null)
throw new Error("error: null vertices or null faces");
System.out.print("Creating triangulated 3D mesh... ");
this.faces = new ArrayList<TriangulationDSFace_2<X>>();
this.vertices = new ArrayList<TriangulationDSVertex_2<X>>();
for (int i = 0; i < points.length; i++) {
if (points[i] == null) throw new Error("null vertex error");
TriangulationDSVertex_2<X> v = new TriangulationDSVertex_2<X>(points[i]);
this.vertices.add(v);
}
// first pair (the key) represents the edges of the triangulation
// second pair (the associated value) represents the two neighboring faces (sharing an edge)
HashMap<Pair<Integer>, Pair<Integer>> edges = new HashMap<Pair<Integer>, Pair<Integer>>();
for (int i = 0; i < neighbors.length; i++) {
int i0 = neighbors[i][0], i1 = neighbors[i][1], i2 = neighbors[i][2];
createFace(this.vertices.get(i0), vertices.get(i1), vertices.get(i2), null, null, null);
for (int j = 0; j < 3; j++) {
int index1 = neighbors[i][(j + 1) % 3];
int index2 = neighbors[i][(j + 2) % 3];
Pair<Integer> edge;
if (index1 <= index2) edge = new Pair<Integer>(index1, index2);
else edge = new Pair<Integer>(index2, index1);
if (edges.containsKey(edge) == false) {
Pair<Integer> face;
if (index1 <= index2) face = new Pair<Integer>(i, -1);
else face = new Pair<Integer>(-1, i);
edges.put(edge, face);
} else {
Pair<Integer> face = edges.get(edge);
if (face.getFirst() == -1) face.setFirst(i);
else face.setSecond(i);
}
}
}
// System.out.println("setting neighboring faces");
for (int i = 0; i < neighbors.length; i++) {
TriangulationDSFace_2<X> currentFace = this.faces.get(i);
for (int j = 0; j < 3; j++) {
// setting vertex adjacent face
TriangulationDSVertex_2<X> v = this.vertices.get(neighbors[i][j]);
v.setFace(this.faces.get(i));
int index1 = neighbors[i][(j + 1) % 3];
int index2 = neighbors[i][(j + 2) % 3];
Pair<Integer> edge;
if (index1 <= index2) edge = new Pair<Integer>(index1, index2);
else edge = new Pair<Integer>(index2, index1);
if (edges.containsKey(edge) == false) throw new Error("error: edge not found");
else {
Pair<Integer> face = edges.get(edge);
if (face.getFirst() == -1 && face.getSecond() == -1)
throw new Error("error: wrong adjacent faces");
if (face.getFirst() == -1 || face.getSecond() == -1) ; // boundary edge
else {
int neighborFace;
if (index1 <= index2) neighborFace = face.getSecond();
else neighborFace = face.getFirst();
if (neighborFace < 0 || neighborFace >= this.faces.size())
throw new Error("error neighbor face index");
currentFace.setNeighbor(j, this.faces.get(neighborFace));
}
}
}
}
System.out.println("done");
}
