# Time Complexity of the following code..?

I am confused with the time complexity of the following piece of code....

``````i = 0

//first row
if(board[i][0] == win && board[i][1] == win && board[i][2] == win)
return win;

//second row
if(board[i+1][0] == win && board[i+1][1] == win && board[i+1][2] == win)
return win;

//third row
if(board[i+2][0] == win && board[i+2][1] == win && board[i+2][2] == win)
return win;

//first col
if(board[0][i] == win && board[1][i] == win && board[1][i] == win)
return win;

//second col
if(board[0][i+1] == win && board[1][i+1] == win && board[2][i+1] == win)
return win;

//third col
if(board[0][i+2] == win && board[1][i+2] == win && board[2][i+2] == win)
return win;

//first diag
if(board[i][i] == win && board[i+1][i+1] == win && board[i+2][i+2] == win)
return win;

//second diag
if(board[i+2][i] == win && board[i+1][i+1] == win && board[i][i+2] == win)
return win;
``````
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Is i part of a loop or is it just always 0? –  BrandonAGr Mar 24 '11 at 4:55

This is obviously a trap question to see if you understood the concept of time complexity.

Time complexity measures the order of magnitude that an algorithm needs if applied to larger and larger input. Your example does depend only on a constant number of inputs, this why the others correctly said O(1). In essence this means that time complexity is not the correct tool to measure its efficiency, quality or whatsoever.

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As you've shown it there, it is O(1) because there are no variable facets to it. It will always take the same time to execute.

If you put it in a loop where i goes from 0 to n-1, then it will have O(n), i.e. linear complexity. If you double the size of n, you approximately double the execution time.

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As the other answers suggest, it is O(1). But this is not considered as good coding practice. You can use a loop to generalize it.

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O(1) - no iterations nor recursion.

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It will run in constant time i.e O(1) assuming board[M][N] to be a two dimensional array.

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