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In an attempt to learn how haskell works, I created the following statements. I am trying to understand what their types are; can anybody let me know if I am the right track?

statement                       type
['h', 'e', 'l', 'l', 'o']       ['h', 'e', 'l', 'l', 'o'] :: [char]

[(9,8),(7,6),(5,4)]             [(9,8),(7,6),(5,4)] :: [int a, int b] => [(a,b)] 

if that's correct, can someone help me understand the type / function for these statements:

  1. even x = x 'mod' 1 == 1

  2. chart x y = [y| x <- [1..x]]

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Learn the difference between types (to the right of => and type classes (to the left). And: even if Int were a type class (which it isn't), it would still need to be capitalised. –  leftaroundabout Mar 26 at 1:11
@jwize: no, that's what tags are there for. –  leftaroundabout Mar 26 at 1:13
even x = ( (x `mod` 1) == 1 ) is it clearer? –  Will Ness Mar 27 at 19:53

2 Answers 2

Your type signatures are not quite correct. Pay attention to capitalisation, it's [Char]; and it's Num and not int; and also wrong brackets: (Num a, Num b) => [(a, b)]. As for the rest...

$ ghci
Prelude> let even x = x `mod` 1 == 1
Prelude> :t even
even :: Integral a => a -> Bool
Prelude> let chart x y = [y| x <- [1..x]]
Prelude> :t chart
chart :: (Enum t1, Num t1) => t1 -> t -> [t]

Also, note the backticks on the mod, not quotes.

EDIT following the comments:

It seems that you also want the clarification on the meaning of the functions even and chart.

Even of x is the value of whether the remainder when you divide x by one is one

Unfortunately, the function is incorrectly written, since all integers are divisible by 1, and the remainder is never 1. The correct definition for even is

even x = x `mod` 2 == 0

Even of x is the value of whether the remainder when you divide x by two is zero

As for chart,

Chart of a value x and a number y is a list consisting of values y for each element in a list of numbers from 1 to x

so if you do chart 3 5, you will have a list of threes for each element in [1, 2, 3, 4, 5], so five threes: [3, 3, 3, 3, 3]

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yes sorry for that its my error for not using capitalisation and on the second statement I used the wrong type of brackets, plus i acknowledge i did not use back ticks......thanks for pointing this out, I do appreciate and understand the importance of both... –  user3355337 Mar 26 at 1:38
on reflection of your answer, why did you use "let" in the prelude, what does that do? thanks –  user3355337 Mar 26 at 1:49
The interactive Haskell operates as a sequence of actions, so its syntax is slightly different than Haskell that you would write in a .hs file. Whereas you'd write x = 1 in code, you need to write let x = 1 in ghci. More info here –  Amadan Mar 26 at 1:51
i think i get it , so here I have a function add [1,2,3] 2 = [3,4,5] which takes the number 2 and adds it to each element in the list to give you a new list....so that means the type is a list of nums [Num] but what is the method to acheive this? am i right in assuming it uses curried functions here? thanks for your time –  user3355337 Mar 26 at 1:58
Actually, Even of x is the value of whether the remainder when you divide x by two is zero. –  Andrey Chernyakhovskiy Mar 26 at 9:14

Types in Haskell are capitalized; yes, it matters.

['h', 'e', 'l', 'l', 'o'] :: [Char]

Correct, although [Char] and String are type synonyms, and String looks nicer. :P

[(9,8),(7,6),(5,4)] :: (Num a, Num b) => [(a,b)]

Multiple constraints are in round brackets. There's no "int" typeclass.

even x = x `mod` 1 == 1
even :: Integral a => a -> Bool

Make sure you use backticks and not single quotes; yes, it matters. In ghci use :t to check the type of mod and (==), and use :i to check the relationship between Num and Integral, and you should be able to put this together.

chart x y = [y | x <- [1..x]]
chart :: (Num a, Enum a) => a -> b -> [b]

For this, you have to know the "long name" of [a..b] is enumFromTo, as well as how to desugar list comprehensions. List comprehensions aren't hard, but there's already good descriptions in RWH, LYAH, and the Haskell 2010 Report, so I won't leave one here.

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thank you all...but please help me understand are these types or functions??? even x = x 'mod' 1 == 1 chart x y = [y| x <- [1..x]] abc [1,2,3] 1 = [6,7,8] my trouble is understanding what these 3 mean and what their types are and whether or not they are curried function.....some further explanation would be appreciated....thank you –  user3355337 Mar 26 at 1:33
even is a function. Integral a => a -> Bool is a type. chart is a function. (Enum a, Num a) => a -> b -> [b] is a type. –  Boyd Stephen Smith Jr. Mar 26 at 1:36
ahh i think i get it.....so that makes abc a function of type Num...abc [1,2,3] 1 = [6,7,8] ....is that right? thank you –  user3355337 Mar 26 at 1:43
does that also mean this statement has no function...... ['h', 'e', 'l', 'l', 'o'] :: [Char] it just has a type??? –  user3355337 Mar 26 at 1:45
['h', 'e', 'l', 'l', 'o'] is "just" a value. It is a value of type [Char]. –  Boyd Stephen Smith Jr. Mar 26 at 14:59

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