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This is a simple program which finds all the permutations of a given string :

void perm( char str[], int len )
if ( len == 1 )
   cout << str << endl ;
    for ( int i=0; i<len; i++ ) {
        swap( str[len-1], str[i] ) ;
        perm( str, len-1 ) ;
        swap( str[len-1], str[i] ) ;

What is the T(n) for this function ? How to calculate the Big Oh ( or Theta ) for this function ?

share|improve this question
What does n count here? Does it count how often perm is called or how many bytes are moved or printed? – Nobody Aug 28 '12 at 18:44
n is the length of our input. In here, length of the string. – Rsh Aug 28 '12 at 18:50
up vote 2 down vote accepted

Let the length of the initial input string be N.

Let the time taken for a call of perm(str (size = N), len=i) be T(i)

T(1) = N


T(i > 1) = iT(i-1) + i

then the total time taken is T(N),

To calculate the closed form of this recurrence see here:

The answer is:

T(N) is approximately (N + e - 1)N!

So as N approaches infinity the performance of the function is:

O((N + e - 1)N!) = O(N(N!))
share|improve this answer
Thanks, but I've read some where that it claims it's O( n*n! ) and I'm kinda confused with the n. Do you have any explanation ? – Rsh Aug 28 '12 at 19:41
Thanks, I'll change the code in the question so it becomes more clear. – Rsh Aug 28 '12 at 19:46
I am sorry but how is T(1) = n... you aren't doing n couts, only 1. T(1) is obviously 1, the recurrence is more complicated than this – yngum Aug 28 '12 at 20:33
@yngum: I thought you were right briefly but then I realized at len==1 the str argument is still n bytes long (to its terminating null) - so I think I'm right again. – Andrew Tomazos Aug 28 '12 at 20:45
@ArashThr: So the reason that T(1) = N, is because for a call of perm(str(size = N), 1), the function must take time proportional to N to output the string (the cout) - so the answer is O(N(N!)). If T(1) were 1 and not N (for example it only printed the first character of the string), than the overall complexity would be O(N!). – Andrew Tomazos Aug 29 '12 at 18:33

For loop perform n recursion, to n*T(n-1), plus O(n) since you also need to swap 2n times, so

T(n) = n*T(n-1)+O(n)

n = 5 for sake of my keyboard

T(n) = n*T(n-1) + n  
T(n) = n*[(n-1)*T(n-2) + (n-1)] + n  
T(n) = n*[(n-1)*[(n-2)*T(n-3) + (n-2)] + (n+1)] + n  
T(n) = n*[(n-1)*[(n-2)*[(n-3)*T(n-4) + (n-3)] + (n-2)] + (n-1)] + n  
T(n-4) = 1 ----------------------^  
T(n) = n*[(n-1)*[(n-2)*[(n-3) + (n-3)] + (n-2)] + (n-1)] + n  
T(n) = n*[(n-1)*[(n-2)*[2(n-3)] + (n-2)] + (n-1)] + n  
T(n) = n(n-1)(n-2)*(n-3)*2 + (n-1)(n-2) + n(n-1) + n  
T(n) = n! + O(n*n!)    <--  wrong, see comment for right answer
T(n) = O(n*n!)    <--  wrong, see comment for right answer

you see the pattern

share|improve this answer
You are using T(1) = 1 yet you came out with n*n!. I think this is incorrect, T(1) = 1 and T(x) = xT(x) + x should be approx T(y) = (e)y!. See… You have made two mistakes that have combined to give the right answer, but the working is wrong. – Andrew Tomazos Aug 28 '12 at 22:29
well, O(n!) if print function is complexity of 1. surprising – yngum Aug 28 '12 at 22:35
@ArashThr: This answer is wrong. (n-1)(n-2) + n(n-1) + n is not equal to O(n*n!). I realize it has become a bit confusing. My answer is the correct one. – Andrew Tomazos Aug 29 '12 at 18:20

The number of possible permutations of N items is N! (factorial), and this code seems to use O(1) operations per permutation it outputs. The cost of construction is therefore O(N!), which is equivalent to O(N^N).

Or maybe O(N!*N) since for every permutation N items are printed out to the console.

share|improve this answer
One should note that O(N!) = O(N^N) – Nobody Aug 28 '12 at 18:41
I was looking for a more official solution. This one is somehow heuristic . – Rsh Aug 28 '12 at 18:41
@ArashThr are you looking for a formal proof? – Qnan Aug 28 '12 at 18:42
@Nobody Added that – Qnan Aug 28 '12 at 18:44
@Qnan yeah, As I said, I was looking for T(n). – Rsh Aug 28 '12 at 18:47

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