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I have this:

 get3th (_,_,a,_,_,_) = a

which works fine in GHCI but I want to compile it with GHC and it gives error. If I want to write a function to get the nth element of a tuple and be able to run in GHC what should I do? my all program is like below, what should I do with that?

 get3th (_,_,a,_,_,_) = a

 main = do 

    mytuple  <- getLine 
    print $  get3th mytuple
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Note that it's usually a bad idea to ever use tuples larger than (a,b). –  leftaroundabout Oct 7 '13 at 11:20

3 Answers 3

up vote 0 down vote accepted

Your problem is that getLine gives you a String, but you want a tuple of some kind. You can fix your problem by converting the String to a tuple – for example by using the built-in read function. The third line here tries to parse the String into a six-tuple of Ints.

main = do
  mystring <- getLine

  let mytuple = read mystring :: (Int, Int, Int, Int, Int, Int)

  print $ get3th mytuple

Note however that while this is useful for learning about types and such, you should never write this kind of code in practise. There are at least two warning signs:

  1. You have a tuple with more than three or so elements. Such a tuple is very rarely needed and can often be replaced by a list, a vector or a custom data type. Tuples are rarely used more than temporarily to bring two kinds of data into one value. If you start using tuples often, think about whether or not you can create your own data type instead.

  2. Using read to read a structure is not a good idea. read will explode your program with a terrible error message at any tiny little mistake, and that's usually not what you want. If you need to parse structures, it's a good idea to use a real parser. read can be enough for simple integers and such, but no more than that.

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Re: point #2: there's also readMaybe now (hackage.haskell.org/package/base-…), which won't blow up with a mistake –  amindfv Oct 7 '13 at 12:58
@amindfv Indeed, and I would suggest always using readMaybe or readEither instead of read. However, I still only recommend it for very simple values and no data structures. –  kqr Oct 7 '13 at 13:46

The type of getLine is IO String, so your program won't type check because you are supplying a String instead of a tuple.

Your program will work if proper parameter is supplied, i.e:

main = do 
  print $  get3th (1, 2, 3, 4, 5, 6)
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Thats true it works in that way, but here how can I provide proper parameter for IO? –  Amir Oct 7 '13 at 11:25
As mentioned by @leftaroundabout, tuples larges than (a,b) is a bad idea. If still you want go out with this, take six inputs in do block and supply them as a tuple to the function. (Or you can do some transformations of the String to six tuples according to your constraint.) –  Sibi Oct 7 '13 at 11:28
I am beginner in Haskell, you mean by " take six inputs in do block and supply them as a tuple to the function" means adding a let temp = my tuple ? –  Amir Oct 7 '13 at 11:42

It seems to me that your confusion is between tuples and lists. That is an understandable confusion when you first meet Haskell as many other languages only have one similar construct. Tuples use round parens: (1,2). A tuple with n values in it is a type, and each value can be a different type which results in a different tuple type. So (Int, Int) is a different type from (Int, Float), both are two tuples. There are some functions in the prelude which are polymorphic over two tuples, ie fst :: (a,b) -> a which takes the first element. fst is easy to define using pattern matching like your own function:

fst (a,b) = a

Note that fst (1,2) evaluates to 1, but fst (1,2,3) is ill-typed and won't compile.

Now, lists on the other hand, can be of any length, including zero, and still be the same type; but each element must be of the same type. Lists use square brackets: [1,2,3]. The type for a list with elements of type a is written [a]. Lists are constructed from appending values onto the empty list [], so a list with one element can be typed [a], but this is syntactic sugar for a:[], where : is the cons operator which appends a value to the head of the list. Like tuples can be pattern matched, you can use the empty list and the cons operator to pattern match:

head :: [a] -> a
head (x:xs) = x

The pattern match means x is of type a and xs is of type [a], and it is the former we want for head. (This is a prelude function and there is an analogous function tail.)

Note that head is a partial function as we cannot define what it does in the case of the empty list. Calling it on an empty list will result in a runtime error as you can check for yourself in GHCi. A safer option is to use the Maybe type.

safeHead :: [a] -> Maybe a
safeHead (x:xs) = Just x
safeHead [] = Nothing

String in Haskell is simply a synonym for [Char]. So all of these list functions can be used on strings, and getLine returns a String.

Now, in your case you want the 3rd element. There are a couple of ways you could do this, you could call tail a few times then call head, or you could pattern match like (a:b:c:xs). But there is another utility function in the prelude, (!!) which gets the nth element. (Writing this function is a very good beginner exercise). So your program can be written

main = do
    myString <- getLine
    print $ myString !! 2  --zero indexed

Testing gives

Prelude> main

So remember, tuples us ()and are strictly of a given length, but can have members of different types; whereas lists use '[]', can be any length, but each element must be the same type. And Strings are really lists of characters.


As an aside, I thought I'd mention that there is a neater way of writing this main function if you are interested.

main = getLine >>= print . (!!3)
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