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Can anyone provide me with less than five lines of code that I can save as .hs and run as a haskell program and see the magic happen? The internet is so complicated sometimes.

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echo "main = return ()" | runhaskell, since you asked for the "most simple" program. :-) –  David Nov 15 '12 at 17:53
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9 Answers

up vote 9 down vote accepted
main = putStrLn "Hello, World!"

From http://www.haskell.org/haskellwiki/Haskell_in_5_steps

The internet isn't so bad!

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Lol i tied to write exactly the same answer. –  rekire Nov 15 '12 at 5:50
    
thank you slipsec. I was going through one of those manic episodes that happen when taking on a new language. Thus my journey into the functional ether beings. –  Emanegux Nov 15 '12 at 6:01
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This answer's more focused on "seeing the magic happen":

data Expression = Greeting | Leaving

f :: Expression -> String
f Greeting = "Hi there!"
f Leaving  = "Ok, bye!"

main = putStrLn (f Greeting)
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Someone should have mentioned interact which is simple and actually practical:

main = interact reverse 
$ cat interact.hs | runhaskell interact.hs
esrever tcaretni = niam

and thus with

main = interact (unwords . reverse . words)
$ cat interact.hs | runhaskell interact.hs
words) . reverse . (unwords interact = main

or with an import

import Data.List
 main = interact (intersperse '\n')
$ echo "hello" | runhaskell interact.hs
h
e
l
l
o

or, now compiling:

main = interact showCharcount 
  where showCharcount str = show (length str) ++ "\n"
$ ghc --make -O2 interact.hs -o charcount
$ echo "hello world" | ./charcount
12

In which case it makes sense to start doing a bit of poor man's benchmarking:

$ time cat /usr/share/dict/words | ./charcount
2486813
real 0m0.096s
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Very nice - four short, clear programs. –  AndrewC Nov 17 '12 at 18:16
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How about all the Fibonacci numbers? Well, you can just print something like 100 of them for brevity.. ;)

fibs = 1 : scanl (+) 1 fibs
main = print $ take 100 fibs
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Hamming numbers are numbers that don't have any prime factors larger than 5. I.e. they have the form 2^i*3^j*5^k. The first 20 of them are:

[1,2,3,4,5,6,8,9,10,12,15,16,18,20,24,25,27,30,32,36]

The 500000th one is:

1962938367679548095642112423564462631020433036610484123229980468750

The program that printed the 500000th one (after a brief moment of computation) is:

merge xxs@(x:xs) yys@(y:ys) =
  case (x`compare`y) of
    LT -> x:merge xs yys
    EQ -> x:merge xs ys
    GT -> y:merge xxs ys

hamming = 1 : m 2 `merge` m 3 `merge` m 5
  where
    m k = map (k *) hamming

main = print (hamming !! 499999)

That's longer than the 5 lines of code you wanted. Of course it could be golfed, but I'd rather write it naturally and see how many lines it takes you to compute that number in any other language, with reasonable execution time.

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Good quick start into Haskell.

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I look forward to diving into this tutorial. Thanks demas. –  Emanegux Nov 15 '12 at 6:03
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You could go cheery. Here greet is a function that takes a name and makes a greeting out of it:

greet xs = "\nHello, " ++ xs

main = do
   putStrLn $ unlines ["Hi! I'm a Haskell program.", "Who are you?"]
   fmap greet getLine >>= putStrLn

main uses unlines to turn a list of strings into a single newline-separated string, then prints it with putStrLn. getLine returns a user-entered line of text (without the newline character) then applies greet to that. Finally we push that as input into another putStrLn.

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This one's a bit dense, and definitely not the simplest, but it does use the infinite list [1..] which you could call magic.

described name list = putStrLn ("\n" ++ name) >> mapM_ print (zip [1..] list)
main = let somenums = [1..100] in do
   described "Some cubes:" [ x^3 | x <- somenums]
   described "Some powers:" $ map (2^) somenums
   described "Some triangle numbers:" $ scanl (+) 0 somenums

The described function prints a description and then prints a list paired (zipped) with their position. I use it on a few number sequences. Whole number data defaults to Integer, which is why it can happily tell you 2^100. The Int data type is more limited, (maxBound :: Int == 2147483647), but of course takes less time and space.

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Wow that's powerful. Might be a little too much for my brain to handle just yet lol. But I shall return to this comment in the near future. Thanks AndrewC! –  Emanegux Nov 16 '12 at 5:18
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Print every number:

main = mapM_ print [1..]
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Depending on line buffering, though, this might never show anything... –  amindfv Nov 16 '12 at 3:39
    
print automatically appends new lines since it is equivalent to putStrLn . show, so it will display output under all buffering schemes. I also just tested each buffering scheme, to make sure. –  Gabriel Gonzalez Nov 16 '12 at 17:39
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