# Calculating distance in a 2D array, Non diagonal

I have the following implemented in Java:

``````  [1,1][1,2][1,3][1,4]
[2,1][2,2][ B ][2,4]
[ A ][3,2][3,3][3,4]
``````

I want to be able to calculate the Minimum distance between [ A ] and [ B ], without moving diagonally, i have searched online, but I'm not really sure how to word what I'm looking for. so far i have been able to calculate the diagonal distance using:

``````dMin = Math.min(dMin, Math.abs((xDistance - yDistance)));
``````

Could some one please give me an algorithm i could look for online? any help is appreciated. thanks for you time :)

Expected output is:

``````Distance = 3 //Not Distance = 2 (as it would be diagonally).
``````
• For the record, that's also not how you calculate the diagonal. What you need for that is the Pythagorean theorem: `Distance = SquareRoot(xDistance*xDistance + yDistance*yDistance)` - in this case, approximately 2.23. – Ross Patterson Mar 21 '14 at 11:02

It's called Manhattan Distance and can easily be computed by:

``````distance = abs(ydistance) + abs(xdistance)
``````

That is, the number of cells you must travel vertically, plus the number of cells you must travel horizontally, much like a taxi driving through a grid of city streets.

• Perfect, exactly what i was looking for. thanks for the help... – smurfMT Mar 20 '14 at 20:49

You want the absolute difference between the x values of the points, plus the absolute difference between the y values of the points.

ie:

``````dMin = Math.abs(A.x - B.x) + Math.abs(A.y - B.y)
``````

This is known as Manhattan Distance

You want the difference along the `X` axis plus the difference along the `Y` axis. Something like this:

``````int minDistance = Math.abs(A.x - B.x) + Math.abs(A.y - B.y);
``````