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What is the function that I should pass to 'traverse' (from the essence of the iterator pattern) such that I can accumulate state based on each of the original elements and then map based on the original elements and the state so far.

In 'collect' and 'disperse' only either the mapping depends on the state or the state depends on the element, but not both at the same time.

The table at http://etorreborre.blogspot.co.uk/2011/06/essence-of-iterator-pattern.html appears to say that I should use 'traverse' but traverse is the function that implements all the others, so I'm a bit lost.

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What has this to do with Haskell? I think that tag should be removed. –  Daniel Fischer Apr 23 '12 at 21:52
Can you please give an example? –  Christopher Chiche Apr 23 '12 at 21:59
Sounds like mapAccumL/mapAccumR. See hackage.haskell.org/packages/archive/base/latest/doc/html/… for the Haskell version. (Click source on the right to see how it is implemented.) –  Sjoerd Visscher Apr 23 '12 at 22:19
Ok, I can do what I wanted just with by passing a function that returns a State Monad to the traverse function, just a question of choosing a suitable function when constructing the state. Well, I don't know other languages besides haskell and scala(z) that implement the Traverse Typeclass, that's why I put it there, also the original paper is written in haskell and I assume people that use haskell are likelly to be familiar with this TypeClass. –  miguel.negrao Apr 23 '12 at 23:15

2 Answers 2

up vote 5 down vote accepted

When you use the traverse method with a function returning a State, you get exactly what you want:

   // a function using the current element and the previous state
   def function[S, T](s: S, t: T): R = // combine T and S

   // return a State instance to use as an Applicative with traverse
   def myState[T, S](t: T) = State[S, R]((s: S) => function(s, t))

   // a sequence to traverse
   val sequence: Seq[T] = ...

   // use the traverse method
   sequence.traverse(t => myState(t))
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An example of what I wanted to do:

main = putStrLn $ show $ runState s 0
        s = traverse f [1,2,3,4,5]
        f = \x -> state( \y -> (x*20+y, y+x) )

The result is ([20,41,63,86,110],15)

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