I've written code for the Project Euler's Challenge 14, in both Haskell and C++ (ideone links). They both remember any calculations they have previously done in an array.

Using `ghc -O2`

and `g++ -O3`

respectively, the C++ runs 10-15 times faster than the Haskell version.

Whilst I understand the Haskell version may run slower, and that Haskell is a nicer language to write in, it would be nice to know some code changes I can make to the Haskell version to make it run faster (ideally within a factor of 2 or 3 of the C++ version)?

Haskell code is here:

```
import Data.Array
import Data.Word
import Data.List
collatz_array =
let
upperbound = 1000000
a = array (1, upperbound) [(i :: Word64, f i :: Int) | i <- [1..upperbound]]
f i = i `seq`
let
check_f i = i `seq` if i <= upperbound then a ! i else f i
in
if (i == 1) then 0 else (check_f ((if (even i) then i else 3 * i + 1) `div` 2)) + 1
in a
main =
putStrLn $ show $
foldl1' (\(x1,x2) (y1,y2) -> if (x2 >= y2) then (x1, x2) else (y1, y2)) $! (assocs collatz_array)
```

**Edit:**

I've now also done a version using unboxed mutable arrays. It is still 5 times slower than the C++ version, but a significant improvement. The code is on ideone here.

I'd like to know improvements to the mutable array version which bring it closer to the C++ version.

`-fllvm`

improves performance by ~10% on my machine. – Greg E. Jun 4 '12 at 5:49`seq`

make no difference; both your functions are strict in`i`

. GHC used to be quite bad at 64-bit arithmetic on 32-bit platforms, but I don't know what platform you're using. – augustss Jun 4 '12 at 9:24`div`

, use`quot`

. – augustss Jun 4 '12 at 9:25`n`

, he goes directly to`(3*n+1)/2`

instead of taking two steps for that. Thus he gets different chain lengths, but the starting points of the longest chains are the same. – Daniel Fischer Jun 4 '12 at 11:04