Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Lets say we have the following:

l = map f (map g [1..100])

And we want to do:

head l

So we get:

head (map f (map g [1..100]))

Now, we have to get the first element of this. map is defined something like so:

map f l = f (head l) : (map f (tail l))

So then we get:

f (head (map g [1..100]))

And then applied again:

f (g (head [1..100]))

Which results in

f (g 1)

No intermediate lists are formed, simply due to laziness.

Is this analysis correct? And with simple structures like this:

foldl' ... $ map f1 $ map f2 $ createlist

are intermediate lists ever created, even without "list fusion"? (I think laziness should eliminate them trivially).


The only place I can see a reason to keep a list is if we did:

l' = [1..100]
l = map f (map g l')

Where we might want to keep l', if it is used elsewhere. However, in the l' case above here, it should be fairly trivial for the compiler to realise its quicker just to recalculate the above list than store it.

share|improve this question

2 Answers 2

In your map example the list cells are created and then immediately garbage-collected. With list fusion no GC or thunk manipulation (which are both not free) is needed.

share|improve this answer

Fusion benefits most when the intermediate data structures are expensive. When the structure being passed is lazy, and accessed in a sequential manner, the structures may be relatively cheap (as is the case with lists).

  • For lazy structures, fusion removes the constant factor of creating a thunk, and immediately garbage collecting it.
  • For strict structures, fusion can remove O(n) work.

The greatest benefits are thus for strict arrays and similar structures. However, even fusing lazy lists is still a win, due to increased data locality, due to fewer intermediate structures being allocated as thunks.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.