I have been working on JavaScript / JQuery code which allows arrow key movement between input boxes (yes, I am aware this breaks standard UI).

It works by by looping through each element and finding the closest in each direction (left, right, up and down).

## Example

P1:(0, 0), P2:(1, 0), P3:(0, 2)

P1 has one point to the right (P2) and one point up (P3).

P2 has one point to the left (P1) and one point up (P3).

*No picture*

P3 has two points down (P1 & P2) but P1 is closer.

Therefore the final movements are:

```
Up
1 -> 3
2 -> 3
Right
1 -> 2
Down
3 -> 1
Left
2 -> 1
```

For this example:

P1 has two incoming and two outgoing connections.

P2 has one incoming and two outgoing connections.

P3 has two incoming and one outgoing connections.

This made me think.

Is there a set of points such that one or more point is inaccessible (0 incoming connections), or can it be proven no such set exists?

Side note:

If you ignore the up / down component (only using left and right with a vertical split) then point P3 in inaccessible in P1: (0, 0), P2: (2, 0), P3: (1, 4).

Here is the JavaScript / JQuery code if it will help anyone.

```
function arrowKeyNavigation(elements) {
// Get the position of each element.
var elementOffsets = [];
elements.each(function(key, element) {
elementOffsets[key] = $(element).offset();
});
// Find the closest point in each direction and store the points in data('keyNav') for later use.
for (var i = 0; i < elementOffsets.length; i++) {
var closestPoints = [];
for (var j = 0; j < elementOffsets.length; j++) {
if (i != j) {
var distance = calcDistanceSquared(elementOffsets[i], elementOffsets[j]);
var quadrant = calcQuadrant(elementOffsets[i], elementOffsets[j]);
if (closestPoints[quadrant] == undefined || calcDistanceSquared(elementOffsets[i], elementOffsets[closestPoints[quadrant]]) > distance) {
closestPoints[quadrant] = j;
}
}
}
var closestElements = [];
for (var j = 0; j < closestPoints.length; j++) {
closestElements[j] = elements[closestPoints[j]];
}
$(elements[i]).data('keyNav', closestElements);
}
}
// Returns the distance between two points squared.
function calcDistanceSquared(offset1, offset2) {
...
}
// Returns 0, 1, 2 or 3 for left, up, right and down respectively.
// If a point is EXACTLY 45 degrees it will be classified as either left / right.
function calcQuadrant(offset1, offset2) {
...
}
```