Given an integer M. return all prime numbers smaller than M.
Give a algorithm as goo as you can. Need to consider time and space complexity.
Anybody can drop a through? Appreciate!

A couple of additional performance hints:



The Sieve of Eratosthenes is a good place to start. 


Sieve of Eratosthenes is good. 


The usual answer is to implement the Sieve of Eratosthenes, but this is really only a solution for finding the list of all prime numbers smaller than N. If you want primality tests for specific numbers, there are better choices for large numbers. 


i'm a novice programmer in c# (and new to S.O.), so this may be a bit verbose. nevertheless, i've tested this, and i works. this is what i've come up with:



π(n) count the primes less than or equal to n. Pafnuty Chebyshev has shown that if limn→∞ π(n)/(n/ln(n)) exists, it is 1. There are a lot of values that are approximately equal to π(n) actually, as shown in the table. It gives right number of prime number for this number format.I hope this will be helpful. 

