How can I fill an array like so:
1 2 3 4 5 6 7 8
20 21 22 23 24 9
19 30 31 32 25 10
18 29 28 27 26 11
17 16 15 14 13 12
Spiral C# Thanks
closed as offtopic by Servy, Esoteric Screen Name, Sahil Mittal, Jarrod Roberson, Rushi Sep 10 '13 at 6:02This question appears to be offtopic. The users who voted to close gave this specific reason:



Traverse the array starting from element (0,0) (topleft), and heading right (incrementing your column index). Keep a running counter that increments each time you fill an element, as well as upper and lower bounds on the rows and columns you have yet to fill. For an Mrow by Ncolumn matrix, your row bounds should be 0 and (M1), and your column bounds 0 and (N1). Go right until you hit your upper column bound, decrement your upper column bound, go down until you hit your upper row bound, decrement your upper row bound, go left until you hit your lower column bound, increment your lower column bound, go up until you hit your lower row bound, increment your lower bound, and repeat until your upper and low row or column bounds are equal (or until your running count is M*N). 


There are several solutions to that in the Web, both on StackOverflow and elsewhere: 


Well, I won't give you the code. You won't learn anything from me figuring it out for you, but I'll give you a hint. If you have an N x M rectangle that you want to fill in with this spiral pattern, notice that the N1 x M1 rectangle inside of that is also a spiral pattern. Similarly, the N2 x M2 rectangle inside that is also a spiral pattern, and so on until you have a 1x1 rectangle. So there is most likely a recursive solution. 


You can do something like this:



I personally made a program. Check it.



simply input x and y (for yours, 2, 2 to 2,2) in 2 while loops
The logic is all here. You will have to manipulate it for use with C#. The algorithm below instantly calculates the spiral number at (x,y), starting Simply negate the x / y values before placing them in the algorithm, or swap x for y and negate either or both, to change the direction (clockwise / anticlockwise), whether the output is flipped (horizontally, vertically or both), etc.


