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One way is to calculate their gcd and check if it is 1.

Is there some faster way?

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2 Answers 2

up vote 11 down vote accepted

The Euclidean algorithm (computes gcd) is very fast. When two numbers are drawn uniformly at random from [1, n], the average number of steps to compute their gcd is O(log n). The average computation time required for each step is quadratic in the number of digits.

There are alternatives that perform somewhat better (i.e., each step is subquadratic in the number of digits), but they are only effective on very large integers. See, for example, On Schönhage's algorithm and subquadratic integer gcd computation.

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I'd like to comment that it's a bit coarse to measure complexity of arithmetic algorithms without taking costs of arithmetic operations into account. –  Pavel Shved Sep 27 '09 at 12:03
The worstcase # of steps is O(log n) as well, when two numbers are successive entries in the Fibonacci sequence. –  Jason S Sep 27 '09 at 13:26
@Pavel Shved: I did take the cost into consideration. cf. the sentence "The average computation time required for each step is quadratic in the number of digits." –  Jason Sep 27 '09 at 19:16
@everyone thanks. –  Lazer Oct 7 '09 at 9:53

if you're running on a machine for which division/remainder is significantly more expensive than shifts, consider binary GCD.

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Thanks, interesting read –  J.C. Inacio Sep 27 '09 at 13:39
yeah, a very good article there. –  Lazer Oct 7 '09 at 9:54
Just implemented this in f# and its more than 2x faster than traditional Euclid's GCD, cannot give exact numbers as there is other code poluting my measurements, however its > 2x faster. Good find Jason. –  gatapia Aug 4 '11 at 2:33
Update: Did better numbers in isolation: Iterations: 100000, Euclid Took: 27ms, Binary GCD Tool: 11ms (so that's about 40% of Euclid). Awesome! –  gatapia Aug 4 '11 at 2:40

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