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I was going through some interview question and stumbled upon this question. p(x) = a0 + a1x + a2x^2 + ... + anx^n. What algorithm could you use to to compute the value of p(x) in O(N^2) ? I'm totally clueless about how to approach this problem.

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Which value? Also I think you mean p(x) = a0 + a1x + a2x^2 + ... + anx^n. –  Pieter Bos Sep 5 '12 at 16:47
What kind of job is that? –  user120929 Sep 5 '12 at 16:49
Value of P(x) and yes, that is what I meant –  Nick Chris Sep 5 '12 at 16:50
@LeonardoCooper - Software Developer –  Nick Chris Sep 5 '12 at 16:51

2 Answers 2

up vote 4 down vote accepted

You can do it in O(N) with direct evaluation or with Horner's method. A useful chart for complexity of various operations and the methods involved can be found here:

Computational complexity of mathematical operations

Horner's method is a serial procedure that optimizes "sub-expressions of form (A+ Bx) which be evaluated using a native multiply–accumulate instruction on some architectures". A more parallel version is Estrin's scheme.

Since you can compute the p(x) in O(N) time, apply this method N times to achieve O(N^2) (if that is really what you are after...).

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It is explicitly asked to be done in O(N^2) –  Nick Chris Sep 5 '12 at 16:55
@NickChris O(N^2) is a superset of O(N). –  sepp2k Sep 5 '12 at 17:00
Maybe the interviewer assumed that pow(X,N) is implemented in O(N) time using iterated multiplication? In which case direct evaluation is O(N^2). –  Kevin Sep 5 '12 at 17:02
@Kevin Horner's method does not require the use of pow, so this still isn't an issue. It is possible that the interviewer wasn't aware of any other method than direct evaluation though! –  Hooked Sep 5 '12 at 17:04

Since each term is independent and there are N terms, you must performs O(N) calculations of a polynomial term. Since the worst cast term is (a_n)*(x^n) and x^n can be computed in O(N) you have exactly O(N^2) time for the naive implementation of the algorithm.

There are tricks however to compute x^n in less than O(N) time so you could do even better: see an implementation of pow(). Also Hoener's method as described by other answers provides a fast implementation which is O(N) time and thus also O(N^2) time.

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