Okay, on my box the C code, compiled per
gcc -O3 takes about 21.5 seconds to run, the original Haskell code about 56 seconds. So not a factor of 5, a bit above 2.5.
The first nontrivial difference is that
mapM_ print [1..100000000]
Integers, that's a bit slower because it involves a check upfront, and then works with boxed
Ints, while the
Show instance of
Int does the conversion work on unboxed
Adding a type signature, so that the Haskell code works on
mapM_ print [1 :: Int .. 100000000]
brings the time down to 47 seconds, a bit above twice the time the C code takes.
Now, another big difference is that
show produces a linked list of
Char and doesn't just fill a contiguous buffer of bytes. That is slower too.
Then that linked list of
Chars is used to fill a byte buffer that then is written to the
So, the Haskell code does more, and more complicated things than the C code, thus it's not surprising that it takes longer.
Admittedly, it would be desirable to have an easy way to output such things more directly (and hence faster). However, the proper way to handle it is to use a more suitable algorithm (that applies to C too). A simple change to
putStr . unlines $ map show [0 :: Int .. 100000000]
almost halves the time taken, and if one wants it really fast, one uses the faster
ByteString I/O and builds the output efficiently as exemplified in applicative's answer.