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Functional anti-memoizationIn Haskell, data structure elements are memoized. That is, the function that creates say, an element of a list is called at most once. After the first evaluation, the resulting value is saved away in case it is ever needed again. This is great for things like the infinite list of Fibonacci numbers... fibs = 1 : 1 : zipWith (+) fibs (tail fibs)...but it can lead to excessive memory in situations like... main = print (length list, sum list) list = [1..10000000]...where at some point the entire list will need to be in memory. You could have avoided the large memory usage by traversing the list in a linear way, building up the length and sum at the same time, rather than in sequence. Now imagine an evaluation régime, where instead of memoizing each data element (for later use), we call all of the functions which have a pointer to this element. Afterwards, no more pointers to this element will exist, so we can reclaim its memory. It changes the rule "evlaute a data item at most once" into "evaluate a data item as most once, and be sure to call anything that depends on it immediately, because it is short lived". Is there a name for this evaluation strategy, and any programming languages which implement it? By Greg Buchholz at 2005-08-22 17:53 | LtU Forum | previous forum topic | next forum topic | other blogs | 11510 reads
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