Haskell: Where vs. Let
I am new to Haskell and I am very confused by Where vs. Let . They both seem to provide a similar purpose. I have read a few comparisons between Where vs. Let but I am having trouble discerning when to use each. Could someone please provide some context or perhaps a few examples that demonstrate when to use one over the other?
Where vs. Let
A where
clause can only be defined at the level of a function definition. Usually, that is identical to the scope of let
definition. The only difference is when guards are being used. The scope of the where
clause extends over all guards. In contrast, the scope of a let
expression is only the current function clause and guard, if any.
Haskell Cheat Sheet
The Haskell Wiki is very detailed and provides various cases but it uses hypothetical examples. I find its explanations too brief for a beginner.
Advantages of Let :
f :: State s a
f = State $ x -> y
where y = ... x ...
Control.Monad.State
will not work, because where refers to the pattern matching f =, where no x is in scope. In contrast, if you had started with let, then you wouldn't have trouble.
Haskell Wiki on Advantages of Let
f :: State s a
f = State $ x ->
let y = ... x ...
in y
Advantages of Where :
f x
| cond1 x = a
| cond2 x = g a
| otherwise = f (h x a)
where
a = w x
f x
= let a = w x
in case () of
_ | cond1 x = a
| cond2 x = g a
| otherwise = f (h x a)
Declaration vs. Expression
The Haskell wiki mentions that the Where clause is declarative while the Let expression is expressive. Aside from style how do they perform differently?
Declaration style | Expression-style
--------------------------------------+---------------------------------------------
where clause | let expression
arguments LHS: f x = x*x | Lambda abstraction: f = x -> x*x
Pattern matching: f [] = 0 | case expression: f xs = case xs of [] -> 0
Guards: f [x] | x>0 = 'a' | if expression: f [x] = if x>0 then 'a' else ...
Update
For those that come by this thread later on I found the best explanation to be found here: "A Gentle Introduction to Haskell".
Let Expressions.
Haskell's let expressions are useful whenever a nested set of bindings is required. As a simple example, consider:
let y = a*b
f x = (x+y)/y
in f c + f d
The set of bindings created by a let expression is mutually recursive, and pattern bindings are treated as lazy patterns (ie they carry an implicit ~). The only kind of declarations permitted are type signatures, function bindings, and pattern bindings.
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. A where clause is only allowed at the top level of a set of equations or case expression. The same properties and constraints on bindings in let expressions apply to those in where clauses. These two forms of nested scope seem very similar, but remember that a let expression is an expression, whereas a where clause is not -- it is part of the syntax of function declarations and case expressions.
1: The problem in the example
f :: State s a
f = State $ x -> y
where y = ... x ...
is the parameter x
. Things in the where
clause can refer only to the parameters of the function f
(there are none) and things in outer scopes.
2: To use a where
in the first example, you can introduce a second named function that takes the x
as a parameter, like this:
f = State f'
f' x = y
where y = ... x ...
or like this:
f = State f'
where
f' x = y
where y = ... x ...
3: Here is a complete example without the ...
's:
module StateExample where
data State a s = State (s -> (a, s))
f1 :: State Int (Int, Int)
f1 = State $ state@(a, b) ->
let
hypot = a^2 + b^2
result = (hypot, state)
in result
f2 :: State Int (Int, Int)
f2 = State f
where
f state@(a, b) = result
where
hypot = a^2 + b^2
result = (hypot, state)
4: When to use let
or where
is a matter of taste. I use let
to emphasize a computation (by moving it to the front) and where
to emphasize the program flow (by moving the computation to the back).
While there is the technical difference with respect to guards that ephemient pointed out, there is also a conceptual difference in whether you want to put the main formula upfront with extra variables defined below ( where
) or whether you want to define everything upfront and put the formula below ( let
). Each style has a different emphasis and you see both used in math papers, textbooks, etc. Generally, variables that are sufficiently unintuitive that the formula doesn't make sense without them should be defined above; variables that are intuitive due to context or their names should be defined below. For example, in ephemient's hasVowel example, the meaning of vowels
is obvious and so it need not be defined above its usage (disregarding the fact that let
wouldn't work due to the guard).
Legal:
main = print (1 + (let i = 10 in 2 * i + 1))
Not legal:
main = print (1 + (2 * i + 1 where i = 10))
Legal:
hasVowel [] = False
hasVowel (x:xs)
| x `elem` vowels = True
| otherwise = False
where vowels = "AEIOUaeiou"
Not legal: (unlike ML)
let vowels = "AEIOUaeiou"
in hasVowel = ...
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