So I went into a job interview and they asked me to write up a quick math power method on a white board and this is what I put up there

public static double pow(double base, double power) {
    double result = 1.0;
    for(double x = 0; x < power; x++) {
        result = result * base;

    return result;

This worked and they were satisfied with it, but then proceeded to ask me how I could make it more efficient and i had no response. So my question is, can you get more efficient than this or was that just a question to make me sweat a little bit? I'm thinking that there could be some direct bit shifting solution but I'm not exactly sure, I think that would only apply for powers of 2? Any ideas?

*EDIT Sorry I forgot to mention that that the method signature was given to me (the doubles as inputs) and i was told i could not use any built-in math libraries.

  • 1
    result *= base; is the first thing that springs to mind.
    – John3136
    Apr 23, 2013 at 23:36
  • Not sure, probably something to do with recursion or dynamic programming?
    – Nico
    Apr 23, 2013 at 23:36
  • @nickecarlo Recursion will be extra load work for this.
    – Smit
    Apr 23, 2013 at 23:37
  • 1
    @Smit I didn't give any specifics ;) I said "probably something to do with recursion" The Wikipedia link uses recursion.
    – Nico
    Apr 23, 2013 at 23:49
  • 1
    @nickecarlo I did get an offer, but didn't accept as the salary wasn't quite what i was hoping for. Apr 24, 2013 at 0:06

3 Answers 3


http://en.wikipedia.org/wiki/Exponentiation_by_squaring The "basic method" is O(log n), as opposed to this O(n) algorithm. (Guava has a non-recursive implementation.)

Also, your power parameter should almost certainly be an int. (If you really want to implement an algorithm to raise numbers to non-integer powers, you're going to need a lot more math.)

  • 3
    Well, you read my mind while I was writing my comment at the other side of the world. Apr 23, 2013 at 23:39
  • edited my post to clarify i forgot that the method signature was given to me as a requirement. Thanks for the wikipedia link , i will check it out Apr 23, 2013 at 23:46

Thinking outside the box a little bit, there is generally a tradeoff between memory and speed. There is the concept of memoization.

You could add a static double[][] cache that stores the result for any particular value.

Something like:

// look for the value in the cache, if it is there return it.

for(double x = 0; x < power; x++) {
    result = result * base;
    // store result in the cache

This would work, but would use a lot of memory.


Multiplying the answer against itself and other determined multiples can yield you with different powers, which can step you closer to solution faster. The wiki Louis provide is good. If you want a generic explaination, consider:

2^1 * 2^1 = 2^2
2^2 * 2^2 = 2^4
2^4 * 2^4 = 2^8

This works great for powers of two. However I found it fun to play with non powers of two. So if I wanted 2^13 how could I do this?

2^1 * 2^1 = 2^2
2^1 * 2^2 = 2^3
2^3 * 2^3 = 2^6
2^6 * 2^6 = 2^12
2^12 * 2^1 = 2^13

The above example is to show that you don't have to play with only squares. If you play with this some, with various powers, you'll find that you can sometimes do better than just using powers of 2... its a fun math problem to play with.

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