# Time complexity of power()

I implemented this function `power()` which takes two arguments `a` and `b` and computes ab.

``````typedef long long int LL;

LL power(int a,int b)
{
int i = 1;
LL pow = 1;
for( ; i <= b ; ++i )
pow *= a;
return pow;
}
``````

Given : ab falls in the range of `long long int`.
Problem : How to reduce the time complexity of my algorithm?

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Given an arbitrary degree of precision, it's possible to compute exponentation in constant time. –  Crashworks Mar 8 '11 at 10:23
@Crashworks only if the exponent is bounded by a constant, right? –  vidstige Mar 8 '11 at 10:27
@vidstige Yes, I assume both base and exponent are stored in a finite-length register. –  Crashworks Mar 8 '11 at 10:28
@Crashworks: this homework assignment is after an algorithm with better complexity, though, not a semantic argument about whether it's ever appropriate to apply complexity analysis to programs with a finite upper bound on the size of the input. –  Steve Jessop Mar 8 '11 at 10:31
@Steve Jessop: Hush, you're spoiling a perfectly good snipe hunt! –  Crashworks Mar 8 '11 at 10:32

Exponentiation by Squaring.

A non-recursive implementation

``````LL power(int a, int b)
{
LL pow = 1;
while ( b )
{
if ( b & 1 )
{
pow = pow * a;
--b;
}
a = a*a;
b = b/2;
}
return pow;
}
``````

This algorithm requires log2b squarings and at most log2b multiplications.

The running time is O(log b)

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thanks a lot for your answer –  Debanjan Mar 8 '11 at 10:46
@Debanjan Be sure to give credit where credit is due. And that includes accepting the answer. –  Jim Balter Mar 8 '11 at 13:48

Exponentiation by squaring does not give the minimal number of multiplications in all cases. Look for "addition chains", "Brauer chains", "Hansen chains", and "Scholz conjecture".

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I would suggest: Use the pow() function if you really need a faster function (with long double ) or think about your homework for yourself.

For arbitrary precision: See the GMP lib http://gmplib.org/manual/Integer-Exponentiation.html#Integer-Exponentiation

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thanks a lot for your answer –  Debanjan Mar 8 '11 at 10:45

Use exponentiation by squares. That is if we need a^b, we check if b is even, if b is even, we find `(a^2)^(b/2)`, else we find `a*((a^2)^(b/2))`. This may not be the best algorithm, but it is better than the linear algorithm.

``````int Power(int a, int b)
{
if (b>0)
{
if (b==0)
return 1;
if (a==0)
return 0;
if (b%2==0) {
return Power(a*a, b/2);
}
else if (b%2==1)
{
return a*Power(a*a,b/2);
}
}
return 0;
}
``````
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Here is the recursive implementation of Java code for 2 to the power of n with O(log n) complexity using Exponentiation by squaring

``````int ans=1;
public int myTwoPower(int n){
if(n<=0)
return 1;

if(n%2 !=0){
return myTwoPower(n-1)*2;
}
else{
ans = myTwoPower(n/2);
return ans * ans;
}
}
``````

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