# Ordering coordinates problem

Have been scatching my head about this - and I reckon it's simple but my geometry/algebra is pretty rubbish, and I can't remember how to do this stuff from my school days!

EDITED: I have a list of coordinates with people stood by them - I need an algorithm to order people from top left to bottom right in a list (array), and the second criteria demands that coordinates that are closer towards the top left origin take prescendance over all others - how would you do this?

The code should show the order as:

1. Tom
2. Harry
3. Bob
4. Dave

See diagram below:

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Actually I can't see anything related to geometry in the problem you've described above. At first I thought about polar coordinates but in you problem simple sorting buy y and x will be a solution. –  Roman May 27 '09 at 15:01
what if Bob was at (60, 74)? if Bob or Harry first? –  user101884 May 27 '09 at 15:04

From your ordering, it looks like you are putting y position at a higher priority than x position, so something like this would work when comparing two people:

``````if (a.y > b.y)
// a is before b
else if (a.x < b.x)
// a is before b
else
// b is before a
``````

edit for update This comparison still works with your new criteria. Y position is still has precedence over the X position. If the Y values are equal, the point closest to the top left corner would be the one with the smaller X value. If you want to make your object a comparator, implementing this as your comparator function would allow you to do ArrayList.sort() where negative means the first person is before the second:

``````public int compareTo(person a, person b) {
if (a.y == b.y)
return a.x-b.x
else
return b.y-a.y
}

//compareTo(Tom, Harry) == -50 (tom is before harry)
//compareTo(Tom, Bob) == -25 (tom is before bob)
//compareTo(Dave, Bob) == 30 (dave is after bob)
``````
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Instead of "bigger", you should say "before". The built-in Java sorting routines sort in ascending order, so to say "bigger" is confusing. But at least you got the right comparison in the y-dimension, so +1. –  erickson May 27 '09 at 15:12
fixed, thanks (15 chars) –  z - May 27 '09 at 15:31

Order them based on their distance from the top-left corner of your 2D-Space, in this case (0, 100).

EDIT:

Obviously this will mean that you will have cases where 2 people are equidistant from the top left corner, and yet they are nowhere near each other.

In this case, you need to specify how you want such people to be ordered. If you want to pick people who are higher up, you can order by y-coord first. Similarly you can choose some other criterion.

All other sorting algorithms will have the same problem, of what to do when 2 items have the same sort key. By definition then, they are considered identical until you come up with a secondary sorting criterion.

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this would not work - because if you had someone stood at (0,0) and someone at (100,100) they would be equidistant from (0,100) - thanks though –  Vidar May 27 '09 at 14:59
this is a good start. if they are equidistant, then they are equivalent, i.e. "Pear" and "Pear" in a list or you need a secondary criteria –  user101884 May 27 '09 at 15:05
You want to order them from top-left to bottom-right. In the absence of further ordering criteria, someone at (0, 0) is in the same boat as someone at (100, 100). If you want the algorithm to prefer one ordering over another, you need to specify how it should behave. –  sykora May 27 '09 at 15:08
Well...yes...thats "exactly" the problem - if two people are equidistant the algorithm fails, as you cant just rely on JUST measuring distance from (0,100) - you need a smarter algorithm to take care of that eventuality. –  Vidar May 27 '09 at 15:14
I don't think it fails, they are just equivalent. You can sort a list of People by name if two People have the same name. –  user101884 May 27 '09 at 15:23

I'd say:

``````orderValue = x+(100-y)
``````

Then sort based on the smallest orderValue being the "closest" (according to distance projected on to the line y=100-x) to the top-left.

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If you know max order of magnitude of X, sort by (for your given example) 100 * (100 - Y) + X.

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Or rather 100 * X - Y based on his chosen coordinate system ;) –  jerryjvl May 27 '09 at 14:54
Erk... X - 100 * Y even... brain freeze :) –  jerryjvl May 27 '09 at 14:57
You're right, but I think both of your formulas are incorrect; edited. –  John Pirie May 27 '09 at 16:36
The second one works fine as long as negative values of the objective function are allowable... the only difference in your correction is that you add a constant 10000, which makes all values positive. –  jerryjvl May 28 '09 at 2:58

The comparator looks like this:

``````int d = o2.y - o1.y;
if (d == 0)
d = o1.x - o2.x;
return d;
``````

This will first sort by Y, then by X (for all objects which have the same Y).

[EDIT] Fixed Y sort order.

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This sorts the wrong direction in the y dimension (Tom.y - Dave.y = +15, so they would be swapped). –  erickson May 27 '09 at 15:09

May be you could look into the Haversine formula which is used in navigation to calculate proximity from two points. However, that mostly applies to points on a sphere. http://en.wikipedia.org/wiki/Haversine_formula

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