let with data constructor

I have these statements:

``````data SL a = SR (Integer -> (a, Integer))
deriving(Show)

instance Monad SL where
return k = SR (\st -> (k, st))

xx::SL Integer
xx = return 4
``````

Then I do:

``````let SR f = xx
``````

Now I have:

``````xx :: SL Integer
f :: Integer -> (Integer, Integer)
``````

but I cannot understand why. Maybe I'm missing the syntactic meaning of `let DATACONSTRUCTOR ..`.

Can you help?

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What did you expect? –  n.m. Jun 6 '12 at 9:55

`let SR f = xx` means that `SR f` should be equal to `xx`. So,

``````SR f = xx                   -- let
= return 4             -- def. xx
= SR (\st -> (4, st))  -- def. return
``````

and thus

``````f = \st -> (4, st)  -- remove SR on both sides
``````

which, in this context, is of type `Integer -> (Integer, Integer)` because of `SR :: a -> Integer -> (a, Integer)` and `xx :: SL Integer`.

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`let` and `where` are pattern matches too, like `case`, but with only one alternative. So for example a `let` expression:

``````let SR f = xx in ...
``````

is like the following `case` expression:

``````case xx of
SR f -> ...
``````

Most people simply use `let` and `where` to do simple variable bindings, so they don't realize that they are pattern matches. However, a variable binding is just a special case of pattern match (an identifier in a pattern match matches everything and binds the value to the variable).

Also, most pattern matches need more than one alternative, so `let` is not applicable. Even when you only want to match a particular constructor, doing an incomplete pattern match is not a good idea. However, there are certain cases when one alternative is a complete match, for example, a tuple match `(x, y)`, or, as in your case, a datatype with only one constructor.

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