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What's the best way to calculate a geometric progression in Ruby?

Are there any built-in methods available?

Should I use some math gem?

Or should I implement my own small function?

share|improve this question
What inputs and outputs do you want? – sawa Dec 30 '11 at 9:32
3 params as input: initial value, ratio, number of iterations; output - an array of values. But making the function yourself will imply that nothing pre-implemented exists and it might be the wrong answer, as I don't think that I'm the first one calculating geometric progression in Ruby – Oleg Mikheev Dec 30 '11 at 9:39
While you're certainly not the first Ruby programmer to ever need a geometric progression, it's likely that nobody's ever really bothered to compartmentalize it because it's such a simplistic operation. A geometric progression is essentially just the repeated application of an exponent, so as long as a programming language supports exponentiation, it practically supports geometric progressions out of the box. – ranksrejoined Dec 30 '11 at 9:50
as answers demonstrate even simplistic operation implementations can significantly differ in terms of performance and probably other nuances, so I'm always trying to use proven and tested libs when possible... – Oleg Mikheev Dec 30 '11 at 10:32
up vote 2 down vote accepted

I don't think the task is complicated enough to expect an external library.

I feel that this might be more efficient than ranksrejoined's answer:

def geo_prog a, r, n
    (n - 1).times.inject([a]){|a| a << a.last * r}
share|improve this answer
yep, yours is 1.5 times faster :) thanks – Oleg Mikheev Dec 30 '11 at 10:23

Assuming you just want the values and not some sort of fractional display, it's as simple as creating a function that takes the initial value (with 1 as a sensible default), the ratio to progress by, and‒at least in my example‒how many elements of the progressive sequence you'd like to get back.

def geo_prog(a = 1, r, n)
  (0...n).map { |e| a * r ** e }
share|improve this answer
Your answer and mine are complementary, I think. When the n is small, your answer is faster. When n gets larger, my answer is faster. – sawa Dec 30 '11 at 19:29
@ranksrejoined sorry I didn't measure it with smaller numbers, my fault – Oleg Mikheev Dec 30 '11 at 19:33

By geometric progression I presume you mean a sequence, in general (Note I am using ^ to represent an exponent)

a*r^0 + a*r^1 + a*r^2 + ... + a*r^n

a real example might be a=10 r=0.5 which would give us

10 + 5 + 2.5 + 1.25 + ...

If the progression tends to a value (i.e. it converges) You can calculate the value with a very nice formula

a / (1 - r)

However this is not always the case, sometimes it might not converge, or you may only wish to do 10 so iterations. In which case you can use.

a*(1 - r^(n+1)) / (1 - r)

On a side note it may be helpful to add, that the sequence will only converge when r < 1

share|improve this answer
Nice to see that at least one person was paying attention in school. Iteratively computing something that has a simple and well known non-iterative solution is a bit silly. I'd give you two upvotes if I could. I'm guessing that n is finite so you don't have to worry about convergence but mentioning it was a nice touch anyway. – mu is too short Dec 30 '11 at 17:13
@muistooshort This is not what was asked. The expected return value is an array that includes the first n terms as indicated in the comment to the question. – sawa Dec 30 '11 at 19:27
Apologies, I did not see the comment stating that an array of values was expected, but I do hope this helps someone who wishes to calculate just one point in the sequence, or the value it tends to. – Zekian Dec 30 '11 at 21:02

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