# What is the complexity of the below code with respect to memory?

I read about Big-O Notation from here and had few questions on calculating the complexity.So for the below code i have calculated the complexity. need your inputs for the same.

``````    private void reverse(String strToRevers)
{
if(strToRevers.length() == 0)
{
return ;
}
else
{
reverse(strToRevers.substring(1));
System.out.print(strToRevers.charAt(0));
}
}
``````

If the memory factor is considered then the complexity of above code for a string of n characters is O(n^2). The explanation is for a string that consists of n characters, the below function would be called recursively n-1 times and each function call creates a string of single character(stringToReverse.charAT(0)). Hence it is n*(n-1)*2 which translates to o(n^2). Let me know if this is right ?

-

Hence it is n*(n-1)*2 which translates to o(n^2). Let me know if this is right ?

Almost: it's `n * (n-1) / 2`, not `*2`, which is also O(n^2). Note that o(n^2) (little-O) means something else, so the distinction is important.

This is assuming we're considering this as pseudocode. Language-specific implementations and smart compilers may be able to improve the running time substantially. For instance, a compiler that can observe that you're simply reversing the string might just do an in-place reverse, which is O(n).

-
@John: Thats right it should be n*(n-1)/2 –  Cshah Mar 28 '10 at 14:23

Looks like Java, so it's not O(n**2). That's because strings share the underlying character sequence buffers; they can do this because they are immutable objects.

But it is O(n) in stack space. That's not good. It's better to allocate a mutable working buffer of characters, reverse the string into that, and then print the whole lot at once.

-
+1. The `System.out` and other small things point to it being Java, where `substring` does not duplicate the original `String` character array. This is 1 reason there is a `String(String)` constructor. –  Phil Mar 28 '10 at 13:55
For the sake of example, dont consider the fact that in java the substring shares the underlying character sequence. Assume that each time a memory is allocated for the new string. –  Cshah Mar 28 '10 at 14:20