The implementation you've borrowed is able to start at 3 because it replaces sieving out the multiples of 2 by just skipping all even numbers; that's what the 2*…
that appear multiple times in the code are about. The fact that 3 is the next prime is also hardcoded in all over the place, but let's ignore that for the moment, because if you can't get past the special-casing of 2, the special-casing of 3 doesn't matter.
Skipping even numbers is a special case of a "wheel". You can skip sieving multiples of 2 by always incrementing by 2; you can skip sieving multiples of 2 and 3 by alternately incrementing by 2 and 4; you can skip sieving multiples of 2, 3, 5, and 7 by alternately incrementing by 2, 4, 2, 4, 6, 2, 6, … (there's 48 numbers in the sequence), and so on. So, you could extend this code by first finding all the primes up to x
, then building a wheel, then using that wheel to find all the primes between x
and n
.
But that's adding a lot of complexity. And once you get too far beyond 7, the cost (both in time, and in space for storing the wheel) swamps the savings. And if your whole goal is not to find the primes before x
, finding the primes before x
so you don't have to find them seems kind of silly. :)
The simpler thing to do is just find all the primes up to n
, and throw out the ones below x
. Which you can do with a trivial change at the end:
primes = numpy.r_[2,result]
return primes[primes>=x]
Or course there are ways to do this without wasting storage for those initial primes you're going to throw away. They'd be a bit complicated to work into this algorithm (you'd probably want to build the array in sections, then drop each section that's entirely < x
as you go, then stack all the remaining sections); it would be far easier to use a different implementation of the algorithm that isn't designed for speed and simplicity over space…
And of course there are different prime-finding algorithms that don't require enumerating all the primes up to x
in the first place. But if you want to use this implementation of this algorithm, that doesn't matter.
与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…