I have written 2 implementation of bubble sort algorithm in C and Haskell. Haskell implementation:

```
module Main where
main = do
contents <- readFile "./data"
print "Data loaded. Sorting.."
let newcontents = bubblesort contents
writeFile "./data_new_ghc" newcontents
print "Sorting done"
bubblesort list = sort list [] False
rev = reverse -- separated. To see
rev2 = reverse -- who calls the routine
sort (x1:x2:xs) acc _
| x1 > x2 = sort (x1:xs) (x2:acc) True
sort (x1:xs) acc flag = sort xs (x1:acc) flag
sort [] acc True = sort (rev acc) [] False
sort _ acc _ = rev2 acc
```

I've compared these two implementations having run both on file with size of 20 KiB.

C implementation took about a second, Haskell — about 1 min 10 sec.

I have also profiled the Haskell application:

Compile for profiling:

C:\Temp> ghc -prof -auto-all -O --make Main

Profile:

C:\Temp> Main.exe +RTS -p

and got these results. This is a pseudocode of the algorithm:

```
procedure bubbleSort( A : list of sortable items ) defined as:
do
swapped := false
for each i in 0 to length(A) - 2 inclusive do:
if A[i] > A[i+1] then
swap( A[i], A[i+1] )
swapped := true
end if
end for
while swapped
end procedure
```

I wonder if it's possible to make Haskell implementation work faster without changing the algorithm (there are actually a few tricks to make the algorithm work faster, but neither implementations have these optimizations).

`rev`

and`sort`

are the places best suited for optimization. Can you speed up or work around these bottlenecks? – Sam Post Mar 21 '10 at 5:00