Let's say I have a function which does some computation, with several patterns; implemented in the form of pattern matching.

Most of these patterns do (along with other things different from one to another) a treatment on a parameter, for which I use an intermediary variable in a let expression. But I find it really redundant to have the same let on many patterns, and I wonder if there is a way to define a let for several patterns?

Here is an example of my duplicated let :

data MyType a = Something a | Another Int [a]

myFunc (Something x) = -- return something, this isn't the point here
myFunc (Another 0 xs) =
    let intermediary = some $ treatment xs
    in doSthg intermediary 1 
myFunc (Another 1 (x:xs)) =
    let intermediary = some $ treatment xs
    in doSthg1 intermediary 1 x
myFunc (Another 2 (x:x':xs)) =
    let intermediary = some $ treatment xs
    in doSthg2 intermediary 2 x x'

You can see that the parameter xs is always present when I use it for intermediary, and this could be factorised. It could easily be achieved by using a helper function but I was wondering if what I am asking is possible without one. Please try to keep it simple for a beginner, and I hope my example is clear enough.

  • 2
    Nope! Gotta use a separate function and pass it as a parameter explicitly to factor out repeated code. As far as Haskell is concerned, the above occurrences of xs are completely different variables (because they have different binding sites). – luqui Mar 14 '13 at 19:51
  • Thanks! Now I've got another question: did you intend that the third and fourth equations never match? Because xs matches any list... Did you reverse the order of equations? – yatima2975 Mar 14 '13 at 20:02
  • I wrote this in order to illustrate that xs is extracted from pattern matching in several patterns but doesn't always have the same meaning (otherwise pattern matching would have no interest : there would only be one pattern). What's done with it in the example is not important; but in my code y is replaced with real values so the later patterns match. But you're right again so I will edit it with a concrete type to make the whole thing more understandable. – teh internets is made of catz Mar 14 '13 at 20:11

This particular problem can be worked around as follows:

myFunc2 (Something x) = returnSomething x
myFunc2 (Another n ys) = 
    let xs = drop n ys
        x = head ys 
        x' = head (tail ys)
        intermediate = some $ treatment xs 
    in case n of
        0 -> doSomething intermediate n
        1 -> doSomething1 intermediate n x
        2 -> doSomething2 intermediate n x x'

Thanks to lazy evaluation x and x' will be only evaluated if their value is needed.

However - and this is a big however! - your code will give a runtime error when you try to call myFunc2 (Another 2 []) (and if doSomething2 actually uses x!) because to find out what x is, we need to evaluate head ys - and that'll crash for an empty list. The code you gave as an example also won't work (another runtime error) for Another 2 [] since there's no matching pattern, but there it's easier to supply a fall-back case.

This might not be a problem if you control the input and always make sure that the list in Another is long enough, but it's important to be aware of this issue!

  • This is effectively not a problem in my code because Another objects can not be built with empty lists. +1, it does the trick very well – teh internets is made of catz Mar 14 '13 at 21:30
  • @tehinternetsismadeofcatz: The whole problem has as a strong 'interpreter for a stack language'-feel to it, so if you compile right, you will run right - the type system is just not (but it's close!) strong enough to express what you know about the inputs. You could also consider changing your MyType to express the things you know about the arguments more clearly, but that's a lot of work... – yatima2975 Mar 15 '13 at 0:23

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