How good is 'pure' functional
programming for basic routine
implementations, e.g. list sorting,
string matching etc.?
Very. I'll do your problems in Haskell, and I'll be slightly verbose about it. My aim is not to convince you that the problem can be done in 5 characters (it probably can in J!), but rather to give you an idea of the constructs.
import Data.List -- for `sort`
stdlistsorter :: (Ord a) => [a] -> [a]
stdlistsorter list = sort list
Sorting a list using the
sort function from
import Data.List -- for `delete`
selectionsort :: (Ord a) => [a] -> [a]
selectionsort  = 
selectionsort list = minimum list : (selectionsort . delete (minimum list) $ list)
Selection sort implementation.
quicksort :: (Ord a) => [a] -> [a]
quicksort  = 
quicksort (x:xs) =
let smallerSorted = quicksort [a | a <- xs, a <= x]
biggerSorted = quicksort [a | a <- xs, a > x]
in smallerSorted ++ [x] ++ biggerSorted
Quick sort implementation.
import Data.List -- for `isInfixOf`
stdstringmatch :: (Eq a) => [a] -> [a] -> Bool
stdstringmatch list1 list2 = list1 `isInfixOf` list2
String matching using
isInfixOf function from
It's common to implement such basic
functions within the base interpreter
of any functional language, which
means that they will be written in an
imperative language (c/c++). Although
there are many exceptions..
Depends. Some functions are more naturally expressed imperatively. However, I hope I have convinced you that some algorithms are also expressed naturally in a functional way.
At least, I wish to ask: How difficult
is it to emulate imperative style
while coding in 'pure' functional
It depends on how hard you find Monads in Haskell. Personally, I find it quite difficult to grasp.