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In the following code, the last phrase i can put a "in" in front. Will it change anything? Another question: If i decide to put "in" in front of the last phrase, do i need to indent it? I tried without indenting and hugs complains "Last generator in do {...} must be an expression ".

import Data.Char
groupsOf _ [] = []
groupsOf n xs = 
    take n xs : groupsOf n ( tail xs )

problem_8 x = maximum . map product . groupsOf 5 $ x
main = do t <- readFile "p8.log" 
          let digits = map digitToInt $concat $ lines t
          print $ problem_8 digits

edit: OK so people don't seem to understand what i'm saying. let me rephrase: are the following two the same, given the context above?

1:

          let digits = map digitToInt $concat $ lines t
          print $ problem_8 digits

2:

          let digits = map digitToInt $concat $ lines t
           in print $ problem_8 digits

Another question concerning the scope of bindings declared in let: i read here that:

Where Clauses.

Sometimes it is convenient to scope bindings over several guarded equations, which requires a where clause:

f x y  |  y>z           =  ...
       |  y==z          =  ...
       |  y<z           =  ...
     where z = x*x

Note that this cannot be done with a let expression, which only scopes over the expression which it encloses.

my question: so the variable digits shouldn't be visible to the last print phrase. do i miss something here ?

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2  
Do you know what do notation really means or is it a black box to you? Knowing its guts, everything you mention seems perfectly intuitive to me. Of course, intuition will only get one so far without understanding of the prequisites... –  delnan Nov 25 '11 at 22:14
    
OK Now i get the indentation part. Basically if i don't indent, "do" will consider it as an independent task, same level as let. Another question: do i have to use let to declare variables ? –  osager Nov 25 '11 at 22:18
2  
@osager: Haskell doesn't really have "variables". You can bind "values" to a given name. If you really want to have a cell in memory that you can modify with different values during the execution of your program, you'll need to use an IORef or similar. But newbies are generally encouraged to learn about the functional way of doing things, which vigorously avoids modifying the value of a reference. –  Dan Burton Nov 25 '11 at 23:04
    
Thanks Dan. I also come to realize(to my big surprise) that haskell doesn't really use the notion of variable ! But still, i find the syntax of Haskell more difficult to grasp than the mindset of functional programming ! –  osager Nov 25 '11 at 23:12

4 Answers 4

up vote 49 down vote accepted

Short answer: Use let without in in the body of a do-block, and in the part after the | in a list comprehension. Anywhere else, use let ... in ....


The keyword let is used in three ways in Haskell.

  1. The first form is a let-expression.

    let variable = expression in expression
    

    This can be used wherever an expression is allowed, e.g.

    > (let x = 2 in x*2) + 3
    7
    
  2. The second is a let-statement. This form is only used inside of do-notation, and does not use in.

    do statements
       let variable = expression
       statements
    
  3. The third is similar to number 2 and is used inside of list comprehensions. Again, no in.

    > [(x, y) | x <- [1..3], let y = 2*x]
    [(1,2),(2,4),(3,6)]
    

    This form binds a variable which is in scope in subsequent generators and in the expression before the |.


The reason for your confusion here is that expressions (of the correct type) can be used as statements within a do-block, and let .. in .. is just an expression.

Because of the indentation rules of haskell, a line indented further than the previous one means it's a continuation of the previous line, so this

do let x = 42 in
     foo

gets parsed as

do (let x = 42 in foo)

Without indentation, you get a parse error:

do (let x = 42 in)
   foo

In conclusion, never use in in a list comprehension or a do-block. It is unneccesary and confusing, as those constructs already have their own form of let.

share|improve this answer
    
Thanks. Your explanation clarifies a bit of the rules. –  osager Nov 25 '11 at 22:45
    
+1 Better than the magibabble I came up with. –  delnan Nov 25 '11 at 22:52
    
Is there any difference between forms 2 and 3 at all? I though they were actually the same, after expanding [RET | SRC1, SRC2, ...] to do SRC1 ⏎ SRC2 ⏎ ... ⏎ return RET. –  leftaroundabout Nov 26 '11 at 7:23
    
@leftaroundabout: They used to be in an older version of Haskell. Then list comprehensions were limited to lists only, while do-notation worked for any monad. However, GHC 7.2.1 brings this feature back again MonadComprehensions extension. –  hammar Nov 26 '11 at 7:53
1  
Very minor: the LHS in a let-binding is a pattern match, not just a variable binding. –  John L Nov 26 '11 at 11:55

First off, why hugs? The Haskell Platform is generally the recommended way to go for newbies, which comes with GHC.

Now then, on to the letkeyword. The simplest form of this keyword is meant to always be used with in.

let {assignments} in {expression}

For example,

let two = 2; three = 3 in two * three

The {assignments} are only in scope in the corresponding {expression}. Regular layout rules apply, meaning that in must be indented at least as much as the let that it corresponds to, and any sub-expressions pertaining to the let expression must likewise be indented at least as much. This isn't actually 100% true, but is a good rule of thumb; Haskell layout rules are something you will just get used to over time as you read and write Haskell code. Just keep in mind that the amount of indentation is the main way to indicate which code pertains to what expression.

Haskell provides two convenience cases where you don't have to write in: do notation and list comprehensions (actually, monad comprehensions). The scope of the assignments for these convenience cases is predefined.

do foo
   let {assignments}
   bar
   baz

For do notation, the {assignments} are in scope for any statements that follow, in this case, bar and baz, but not foo. It is as if we had written

do foo
   let {assignments}
   in do bar
         baz

List comprehensions (or really, any monad comprehension) desugar into do notation, so they provide a similar facility.

[ baz | foo, let {assignments}, bar ]

The {assignments} are in scope for the expressions bar and baz, but not for foo.


where is somewhat different. If I'm not mistaken, the scope of where lines up with a particular function definition. So

someFunc x y | guard1 = blah1
             | guard2 = blah2
  where {assignments}

the {assignments} in this where clause have access to x and y. guard1, guard2, blah1, and blah2 all have access to the {assignments} of this where clause. As is mentioned in the tutorial you linked, this can be helpful if multiple guards reuse the same expressions.

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Thanks this is also quite clear. –  osager Nov 25 '11 at 23:14
    
Also i chose Hugs because it offers a little bit more features than winghci such as code browsing. I DO wonder if these two are compatible or not, especially for third party libraries. The other day i've installed a library and winghci found it but not Hugs. –  osager Nov 26 '11 at 0:17
    
Thanks. This was also the only place I found the semi-colon, e.g. let a = 1; b = 2 in ... –  vikingsteve Feb 25 '14 at 10:42

In do notation, you can indeed use let with and without in. For it to be equivalent (in your case, I'll later show an example where you need to add a second do and thus more indentation), you need to indent it as you discovered (if you're using layout - if you use explicit braces and semicolons, they're exactly equivalent).

To understand why it's equivalent, you have to actually grok monads (at least to some degree) and look at the desugaring rules for do notation. In particular, code like this:

do let x = ...
   stmts -- the rest of the do block

is translated to let x = ... in do { stmts }. In your case, stmts = print (problem_8 digits). Evaluating the whole desugared let binding results in an IO action (from print $ ...). And here, you need understanding of monads to intuitively agree that there's no difference between do notations and "regular" language elements describing a computation resulting in monadic values.

As for both why are possible: Well, let ... in ... has a broad range of applications (most of which have nothing to do with monads in particular), and a long history to boot. let without in for do notation, on the other hand, seems to be nothing but a small piece of syntactic sugar. The advantage is obvious: You can bind the results of pure (as in, not monadic) computations to a name without resorting to a pointless val <- return $ ... and without splitting up the do block in two:

do stuff
   let val = ...
    in do more
          stuff $ using val

The reason you don't need an extra do block for what follows the let is that you only got a single line. Remember, do e is e.

Regarding your edit: digit being visible in the next line is the whole point. And there's no exception for it or anything. do notation becomes one single expression, and let works just fine in a single expression. where is only needed for things which aren't expressions.

For the sake of demonstration, I'll show the desugared version of your do block. If you aren't too familiar with monads yet (something you should change soon IMHO), ignore the >>= operator and focus on the let. Also note that indentation doesn't matter any more.

main = readFile "p8.log" >>= (\t ->
  let digits = map digitToInt $ concat $ lines t
  in print (problem_8 digits))
share|improve this answer
    
Thanks for the explanation. I'd probably hang myself before i can even reach the monad chapter. –  osager Nov 25 '11 at 22:48
    
@osager Bind and return are the 2 functions that make monads useful, but when it comes to building an understanding of what monads actually are it's better to think of them in terms of fmap and join. –  Jeremy List Mar 18 '14 at 8:23

Some beginner notes about "are following two the same".

For example, add1 is a function, that add 1 to number:

add1 :: Int -> Int
add1 x =
    let inc = 1
    in x + inc

So, it's like add1 x = x + inc with substitution inc by 1 from let keyword.

When you try to suppress in keyword

add1 :: Int -> Int
add1 x =
    let inc = 1
    x + inc

you've got parse error.

From documentation:

Within do-blocks or list comprehensions 
let { d1 ; ... ; dn } 
without `in` serves to introduce local bindings. 

Btw, there are nice explanation with many examples about what where and in keyword actually do.

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