I've been making rather poor attempts at the PRIME1 problem on SPOJ. I discovered using that using ByteString really helped performance for reading in the problem text. However, using ByteString to write out the results is actually slightly slower than using Prelude functions. I'm trying to figure out if I'm doing it wrong, or if this is expected.
I've conducted profiling and timing using (putStrLn.show) and the ByteString equivalents three different ways:
- I test each candidate to see if it is prime. If so, I add it to a list and write it out with (putStrLn . show)
- I make a list of all primes and write out the list using (putStrLn . unlines. show)
- I make a list of all primes and write out the list using map (putStrLn . show)
I expected numbers 2 and 3 to perform slower as you are building a list in one function and consuming it in another. By printing the numbers as I generate them, I avoid allocating any memory for the list. On the other hand, you are making a call system call with each call to putStrLn. Right? So I tested and #1 was in fact the fastest.
The best performance was achieved with option #1 and the Prelude ([Char]) functions. I expected that my best performance would be option #1 with ByteString, but this was not the case. I only used lazy ByteStrings, but I didn't think this would matter. Would it?
- would you expect the ByteStrings to perform better for writing a bunch of Integers to stdout?
- Am I missing a way pattern to generate and write out the answers that would lead to better performance?
- If I am only writing out numbers as text, when, if ever, is there a benefit to using ByteString?
My working hypothesis is that writing out Integer's with ByteString is slower iff you aren't combining them with other text. If you are combining Integers with [Char], then you'd get better performance working with ByteStrings. I.e., the ByteString rewrite of:
putStrLn $ "the answer is: " ++ (show value)
will be much faster than the version written above. Is this true?
Thanks for reading!