Here's some context: I'm working on an assignment to collapse an edge in a mesh that is stored half-edge data structure. This is the immediately relevant code.

```
System.out.println("Initial Size: " +heds.faces.size());
if (! heds.faces.remove(currentHE.twin.leftFace));
{
System.out.println("We have a twin problem");
//this will always print
}
// Yet this will always be 1 less than the initial
System.out.println("After twin removal: " +heds.faces.size());
if ( !heds.faces.remove(currentHE.leftFace))
{
System.out.println("We have a problem");
}
System.out.println("Third: " +heds.faces.size());
```

So the problem is that "We have a twin problem" always prints, and it should not, yet, "After twin removal" will always be one less than the initial size.

Here's the rest of the info if you feel you need it. heds is defined in a class "HEDS" (half edge data structure):

```
public HEDS( PolygonSoup soup ) {
HalfEdge potentialTwin;
HalfEdge[] currHalfEdges;
Vertex curr, next;
for (int[] face : soup.faceList)
{
currHalfEdges = new HalfEdge[face.length];
for (int i = 0; i < face.length; i++)
{
HalfEdge he = new HalfEdge();
curr = soup.vertexList.get(face[i]);
next = soup.vertexList.get(face[(i+1)%face.length]);
he.tail = curr;
he.head = next;
currHalfEdges[i] = he;
halfEdges.put(face[i]+","+face[(i+1)%face.length], he);
potentialTwin = halfEdges.get(face[(i+1)%face.length]+","+face[i]);
if (potentialTwin != null)
{
he.twin = potentialTwin;
potentialTwin.twin = he;
}
}
for (int i = 0; i < currHalfEdges.length; i++)
{
currHalfEdges[i].next = currHalfEdges[(i+1)%currHalfEdges.length];
}
faces.add(new Face(currHalfEdges[0]));
}
// Checking if every half-edge's face was propery defined
Iterator<Entry<String, HalfEdge>> it = halfEdges.entrySet().iterator();
while (it.hasNext())
{
Map.Entry<String, HalfEdge> pairs = (Map.Entry<String, HalfEdge>)it.next();
if (!faces.contains(pairs.getValue().twin.leftFace))
{
System.out.println("DAMN IT!!!!!");
// This is never reached
}
}
```

Also it does not seem to matter if I remove the twin's face first or not. Also it can be assumed that the mesh is manifold at this point.

Half Edge:

```
public class HalfEdge {
public HalfEdge twin;
public HalfEdge next;
public Vertex head;
public Vertex tail;
public Face leftFace;
/**
* while perhaps wasting space, it may be convenient to
* have a common edge object for each pair of half edges to
* store information about the error metric, optimal vertex
* location on collapse, and the error
*/
public Edge e;
/** @return the previous half edge (could just be stored) */
public HalfEdge prev() {
HalfEdge prev = this;
while ( prev.next != this ) prev = prev.next;
return prev;
}
/**
* Computes the valence by walking around the vertex at head.
* @return valence of the vertex at the head of this half edge
*/
public int valence() {
HalfEdge loop = this;
int v = 0;
do {
v++;
loop = loop.next.twin;
} while ( loop != this );
return v;
}
```

Face code:

```
public class Face {
/** sure, why not keep a normal for flat shading? */
public Vector3d n = new Vector3d();
/** Plane equation */
Vector4d p = new Vector4d();
/** Quadratic function for the plane equation */
public Matrix4d K = new Matrix4d();
/** Some half edge on the face */
HalfEdge he;
/**
* Constructs a face from a half edge, and computes the flat normal
* @param he
*/
public Face( HalfEdge he ) {
this.he = he;
HalfEdge loop = he;
do {
loop.leftFace = this;
loop = loop.next;
} while ( loop != he );
recomputeNormal();
}
public Face(List<Vertex> vertexList, int[] faceVertices)
{
}
public void recomputeNormal() {
Point3d p0 = he.head.p;
Point3d p1 = he.next.head.p;
Point3d p2 = he.next.next.head.p;
Vector3d v1 = new Vector3d();
Vector3d v2 = new Vector3d();
v1.sub(p1,p0);
v2.sub(p2,p1);
n.cross( v1,v2 );
// TODO: compute the plane and matrix K for the quadric error metric
}
```

}

Sorry about the last question, I was in a bit of a rush, and was hoping there was a simple solution. Java ArrayList.remove(o) returns false, but still decrements size of ArrayList