# Outside-In 2D array algorithm

I was given a series of non-negative integers.

``````43 18 5 67 1 72 16 17 15 93 38 6 83 10 49 98 7 47 61 52 71 79 82 52 8
``````

I need to store it in m * n array from the Outside-In. As follows:

``````m = 5
n = 5
``````

Then, I need to calculate the sum of certain part of the 2D array. (I have done this part already).

My ideal approach to store the numbers:

`````` 1. Initialize starti,startj = 0.
2. Initialize endi = m , endj = n.
3. Store the remaining numbers in array[starti][j], where j starts from startj and ends at endj.
4. Store the remaining numbers in array[i][endj], where i starts from starti and ends at endi.
5. Store the remaining numbers in array[endi][j], where j starts from endj and ends at startj.
6. Store the remaining numbers in array[i][endj], where i starts from endi and ends at starti.
7. Decrement endi and endj by 1.
8. Increment starti and start j by 1.
9. Repeat the steps 3 - 8 until the last number is stored.
``````

Question : Is there any better way to solve this problem ?

Additional: I have been trying come up (but failed) with a `formula to find where the last element is stored before doing all these operation.`

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Have you implemented your method? Does this produce correct output but you are looking for a better method? Or this does not produce correct output? –  taskinoor Mar 15 '13 at 8:33
I didn't implement these methods yet but I believe it will produce the right output. –  Thanakron Tandavas Mar 15 '13 at 8:35
You should implement a crawler instead of a formula to find out where the number #N should go in an array of W*H dimensions. –  Vesper Mar 15 '13 at 8:36

Here is one way.

First you can start out thinking recursively

Have a method which has a signature like `fill(m,n,starting_position, direction)

The recursive version will look something like

``````fill(m,n, starting_position, direction) {

// If m=0 or n=0 you have a base case.
// Start at starting position, and fill in the direction.
// Decrement m or n, depending on the direction
// Compute new starting position and direction
// Recursively call fill with the updated m,n, starting_pos, direction
}
``````

Now notice that this method is tail-recursive, and so you can get rid of the recursion and replace it with a while loop, with the condition of the while loop derived from the base case.

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Answer is that way because it sounds like homework. –  Knoothe Mar 15 '13 at 10:19
It wasn't my homework. This is a practice problem for local ACM-ICPC practice problem in my country. –  Thanakron Tandavas Mar 23 '13 at 18:21