I have a the above model represented in a Face Table List where the `F1, F2,...F_n`

are the faces of the model and their face number is the index of the list array. Each list element is another array of 3 vertices. And each vertex is an array of 3 integers representing its `x,y,z`

coordinates.

I want to find out all the neighbouring faces of the vertex with coordinates `(x2, y2, z2)`

. I came out with this code that I believe would do the task:

```
List faceList; //say the faceList is the table in the picture above.
int[] targetVertex = {x2, y2, z2}; //say this is the vertex I want to find with coordinates (x2, y2, z2)
List faceIndexFoundList; //This is the result, which is a list of index of the neighbouring faces of the targetVertex
for(int i=0; i<faceList.length; i++) {
bool vertexMatched = true;
for(int j=0; j<faceList[i].length; j++) {
if(faceList[i][j][0] != targetVertex[0] && faceList[i][j][1] != targetVertex[1] && faceList[i][j][2] != targetVertex[2]) {
vertexMatched = false;
break;
}
}
if(vertexMatched == true) {
faceIndexFoundList.add(i);
}
}
```

I was told that the complexity to do the task is O(N^2). But with the code that I have, it looks like only O(N). The length of `targetVertex`

is 3 since there is only 3 vertices per polygon. So, the second inner loop is merely a constant. Then, I left only with the outer `for`

loop, which is then O(N) only.

What is the complexity of the code that I have above? What could I have done wrong?