# Going through a square matrix in an ever smaller spiral

What I want to do is an algorithm that goes through a matrix in a closing spiral pattern as follows:

``````1 | 2 | 3
---------
8 | 9 | 4
---------
7 | 6 | 5
``````

What would be the simplest way to tackle this problem ?

My thoughts:

• Corner or obstacle detection.
• Have a programmatic way to go down vertically and in reverse.
• Have a way to detect that an element has already been visited.

P.S: Not sure how to handle a case where the size is not a square or the width is an even number.

You don't need a visited concept for each cell, just a single variable to indicate how far you are.

Below is some (not extensively tested) Java code to do this.

``````  // initialize
int w = 5, h = 7;
int[][] arr = new int[w][h];

// do the work
int count = 1;
for (int i = 0; count <= w*h; i++)
{
// go right
for (int x = i; x < w-i && count <= w*h; x++)
arr[x][i] = count++;

// go down
for (int y = i+1; y < h-i && count <= w*h; y++)
arr[w-i-1][y] = count++;

// go left
for (int x = w-2-i; x >= i && count <= w*h; x--)
arr[x][h-i-1] = count++;

// go up
for (int y = h-2-i; y > i && count <= w*h; y--)
arr[i][y] = count++;
}
``````

Java.

Output:

``````  1  2  3  4  5
20 21 22 23  6
19 32 33 24  7
18 31 34 25  8
17 30 35 26  9
16 29 28 27 10
15 14 13 12 11
``````

For each cell, have a number that denotes how many empty/visited cells are in its immediate vertical and horizontal position (let's call it `numVisitedAroundCell`.) Also, have a boolean flag `isVisited`. Go through the cells and update `numVisitedAroundCell` (so the corner cells would have `numVisitedAroundCell == 2` and the outer layer of cells that is not a corner would have `numVisitedAroundCell == 1`)

Go through the cells and find a corner cell, which would be a cell with `numVisitedAroundCell == 2`.

From there, either go vertically or horizontally, while marking each cell you pass as `isVisited` and incrementing the number of `numVisitedAroundCell`. Keep going down the path you choose until you hit a corner cell(when you hit this corner cell, `numVisitedAroundCell` should be 3), then find the next unvisited cell, and go down that route. If you keep doing this, I believe you will get the spiral that you wanted. Also, this should deal with cases where the width is even and if the size is not square.

Recursively, for no good reason:

Use four functions, named `right()`, `down()`, `left()`, and `up()`.

The `right()` function counts along the top row of the matrix, and then passes the remaining rows (all excluding the one it just filled in) to `down()`.

The `down()` function counts down the right edge of the matrix, and then passes the remaining columns to `left()`.

etc.

Recursion stops when a width or a height reaches zero.