# How do I efficiently sieve through a selected range for prime numbers?

I've been working through Project Euler and Sphere Online Judge problems. In this particular problem, I have to find all the prime numbers within two given numbers. I have a function that looks promising (based on the Sieve of Eratosthenes), except it's too slow. Can someone spot what is slowing my function down so much, and hint at how I can fix it? Also, some comments about how to approach optimization in general (or links to such comments/books/articles etc,) would be greatly appreciated.

Code:

``````def ranged_sieve(l, b)
primes = (l..b).to_a
primes[0]=nil if primes[0] < 2
(2..Math.sqrt(b).to_i).each do |counter|
step_from = l / counter
step_from = step_from * counter
l > 3 ? j = step_from : j = counter + counter
(j..b).step(counter) do |stepped|
index = primes.index(stepped)
primes[index] = nil if index
end
end
primes.compact
end
``````
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Use ruby-prof to find where your code is spending its time. –  Frederick Cheung Dec 22 '12 at 15:08
@FrederickCheung Thanks. I've never used a profiler before, but it looks helpful. –  Philosobot Dec 22 '12 at 15:16
if you use better variable names I'll look at it closer, but just make sure you're only checking odd numbers for primes right off the bat, and 'crossing values out' skipping even numbers as well. Should make it half the number of iterations –  AJcodez Dec 22 '12 at 15:24

I haven't looked fully, but one factor is that, you are replacing a certain value in `primes` with `nil`, and later `compact`-ing it to remove them. This is a waste. Just by doing that directly with `delete_at` makes it more than twice fast:

``````def ranged_sieve2(l, b)
primes = (l..b).to_a
primes.delete_at(0) if primes[0] < 2
(2..Math.sqrt(b).to_i).each do |counter|
step_from = l / counter
step_from = step_from * counter
l > 3 ? j = step_from : j = counter + counter
(j..b).step(counter) do |stepped|
index = primes.index(stepped)
primes.delete_at(index) if index
end
end
primes
end

ranged_sieve(1, 100) # => Took approx 8e-4 seconds on my computer
ranged_sieve2(1, 100) # => Took approx 3e-4 seconds on my computer
``````

Another point to improve is that, using a hash is much faster than array as the relevant size gets larger. Replacing your array implementation with a hash, you can get this:

``````def ranged_sieve3(l, b)
primes = (l..b).inject({}){|h, i| h[i] = true; h}
primes.delete(0)
primes.delete(1)
(2..Math.sqrt(b).to_i).each do |counter|
step_from = l / counter
step_from = step_from * counter
l > 3 ? j = step_from : j = counter + counter
(j..b).step(counter) do |stepped|
primes.delete(stepped)
end
end
primes.keys
end
``````

When you do `range_sieve3(1, 100)` with this, it is slower than `range_sieve2(1, 100)` because of the overhead. But as you make the number larger, the superiority becomes salient. For example, I got this result on my computer:

``````ranged_sieve(1, 1000) # => Took 1e-01 secs
ranged_sieve2(1, 1000) # => Took 3e-02 secs
ranged_sieve3(1, 1000) # => Took 8e-04 secs
``````
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Nice job. ranged_sieve3 has the kind of speed I'm looking for. I just started ruby two weeks ago, and was putting off learning hashes because it seemed too unfamiliar at the moment. But I'm definitely looking into it now. Thanks so much for your help :) –  Philosobot Dec 22 '12 at 15:43