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In this code:

[x | temp <- str, x <- isVowel temp]

I'm wondering what the

  • <- operator does
  • <- str operator does

isVowel returns true if its argument is a vowel.

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Have you tried this code: does it compile, and what is the output? –  dbaupp Sep 28 '12 at 15:24
    
the code works, I got help from friend doing this awhile back just want to try to actually do some learning. My thoughts r that <- is some sort of assignment, that str is a string with the list where X is the head and temp is the tail. What makes me confused is the , that kind of throws my thoughts off balance. –  Anticipating Sep 28 '12 at 15:26
3  
If isVowel has type Char -> Bool, then this code doesn't work. Anyway, have you tried googling "haskell list comprehension"? It turns up resources like this and this. –  dbaupp Sep 28 '12 at 15:31
5  
down votes without comments are not helpful folks –  Philip JF Sep 28 '12 at 16:50
    
if "isVowel returns true if its argument is a vowel" then you should re-write it as [x | temp <- str, x <- [isVowel temp]], or more conventionally as [x | temp <- str, let x = isVowel temp]. You read it out loud as "for each temp in str, ...". –  Will Ness Oct 2 '12 at 8:50

4 Answers 4

I definitely could be wrong, but I've always thought that <- reads as in so for

[x | temp <- str, x <- isVowel temp]

is like temp in str which could help you with your variable naming conventions. So accounting for referential transparency it may read like ... return a list of x in isVowel in str.

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"build a list of x for x in isVowel temp for temp in str". Or, in normal top-down order, "for temp in str, for x in isVowel temp, collect x". –  Will Ness Oct 2 '12 at 8:38

You are better think of <- not as an operator but as a declaration.

<- resembles mathematical symbol ( 4 ∈ A means the element 4 belongs to a set A) and has the same meaning in Haskell.

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In list comprehensions, <- is basically "foreach". Every pattern <- list clause iterates over its list: each successive element is extracted, and bound to the variable names in the pattern for the purposes of the remaining clauses, as well as the result expression.

So, it is very much like assignment. The main conceptual difference from imperative languages is that there is no concept of modifying or updating variables: the idea is that you are working with immutable values, which are newly "bound" to their name at every iteration.

Note that multiple pattern <- list clauses act like nested for loops.

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I understand (and agree with) your saying that <- is like a foreach. Though, I'm a bit confused as to what happens when you use <- on something other than a list. For example, in the snippet given by the OP, we see x <- isVowel temp? What exactly goes on in such a situation? NOTE: I'm also relatively new to Haskell... :) –  Miguel Sep 29 '12 at 2:15
    
@Miguel: It's a type error. In a list comprehension, the right hand side of <- must be a list. –  hammar Sep 29 '12 at 8:02
    
@hammar Okay then. I thought that was weird. Thanks :) –  Miguel Sep 29 '12 at 15:47
    
main difference from let-binding is that <--binding is not recursive, so shadowing is allowed, e.g. [y | x <- list1, x <- g1 x, let y = g2 x]. From the viewpoint of g2, it is as if x was mutated. –  Will Ness Oct 2 '12 at 8:46

You're right that <- is sort of like an assignment.

For more information, here's an excellent resource for learning about list comprehensions.

List comprehensions are very similar to set comprehensions. We'll stick to getting the first 10 even numbers for now. The list comprehension we could use is [x*2 | x <- [1..10]]. x is drawn from [1..10] and for every element in [1..10] (which we have bound to x), we get that element, only doubled.

However, that's not the whole story:

  • <- is also used in do notation:

    In a do expression, every line is a monadic value. To inspect its result, we use "<-".

  • <- is even used in monad comprehensions (although this isn't that helpful, since monad comprehensions are no longer in standard Haskell, I believe)

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