# Shortest Paths Graph Too Big

There are 2 humans that face a certain direction (up, left, down or right). They can turn clockwise, counterclockwise and move one spot forward. Both humans are on a board with obstacles. They both have a certain position, expressed in coordinates `(x,y)`, and an amount of energy. Moving and turning requires a certain amount of energy : `ENERGY_MOVE` and `ENERGY_TURN`.

The goal is to move these 2 humans as close as possible to each other, expressed as manhattan distance. The manhattan distance does not look at obstacles (so it's really just a matter of bringing the humans as close as possible to each other while using the least amount of energy possible). The solution should be optimal.

I've figured out Dijkstra could take care of this, but there is one issue. Java arrays have an integer index so I can't store all the vertices. How can I solve this?

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Why can't you store 4,000 * 4,000 = 16,000,000 vertices in an array? Java ints are signed and 32 bit, so you can get up to 2 billion items in an array. –  delnan May 17 '12 at 9:38
@delnan I think it might be a memory issue, and if that's the case then yes, he should be able to increase some max-parameters and go with the array as originally intended. –  keyser May 17 '12 at 9:44
If you can't (or don't want to) store the entire array, you might Google around for a Java implementation for sparse arrays or sparse matrices. –  High Performance Mark May 17 '12 at 10:46
I don't get the memory issue. The array should take ~64 MB. Certainly something a java program can handle. Can you post the code that results in memory outage? –  Antti Huima May 17 '12 at 15:31
The A* search algorithm is vaguely similar to Dijkstra's but can be much faster. –  Mooing Duck May 17 '12 at 16:17