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Warning! possibly a very dumb question

Does functional programming eat up more memory than procedural programming? I mean ... if your objects(data structures whatever) are all imutable. Don't you end up having more object in the memory at a given time.

Doesn't this eat up more memory?

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I don't think this is a dumb question at all. I'm very new to functional programming and I think this is a useful question to ask to help understand how functional programming works – Dancrumb Dec 23 '10 at 20:41
See and decide for yourself. It's hard to make an apples to apples comparison, but the JVM functional languages (Scala, Clojure) do use more memory than regular Java. However, the JVM is not a normal case. – Rafe Kettler Dec 23 '10 at 20:42
@Rafe Great link. It's interesting that while worse than Java (which is already one of the worst in terms of memory usage on those benchmarks) Scala isn't that much worse. In fact, JRuby, a non-functional language also built on the JVM, is much worse than Scala or Clojure. – Laurence Gonsalves Dec 23 '10 at 20:49
The answer to this kind of question is usually: It depends on the program in question and the implementation. Regarding the latter: In the language shootout, Haskell - which has no mutability at all (and is radically non-strict unless forced to act otherwise) - takes significantly less memory than e.g. Java and slightly less than C# Mono for most benchmarks, because GHC is one hell of a compiler. – delnan Dec 23 '10 at 21:21
I don't know enough about the details to give a good answer, but just as a piece of additional information, one big way functional languages reduce memory usage is through sharing. If you have a big structure, and then return a copy with a tiny piece modified, both big structures can reference the same values, and only the differences need to be copied. This only works because values are pure. – Antal Spector-Zabusky Dec 23 '10 at 22:08

Persistent values, that functional languages encourage but which can be implemented in an imperative language, make sharing a no-brainer.

Although the generally accepted idea is that with a garbage collector, there is some amount of wasted space at any given time (already unreachable but not yet collected blocks), in this context, without a garbage collector, you end up very often copying values that are immutable and could be shared, just because it's too much of a mess to decide who is responsible for freeing the memory after use.

These ideas are expanded on a bit in this experience report which does not claim to be an objective study but only anecdotal evidence.

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It depends on what you're doing. With functional programming you don't have to create defensive copies, so for certain problems it can end up using less memory.

Many functional programming languages also have good support for laziness, which can further reduce memory usage as you don't create objects until you actually use them. This is arguably something that's only correlated with functional programming rather than a direct cause, however.

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With laziness, you don't create objects until you actually use them, but you keep all the necessary arguments in memory until you decide to create them. In a lot of cases, that plays against you. – Pascal Cuoq Dec 23 '10 at 20:52
@Pascal that's a good point. Which is better depends on which is going to be cheaper to hold on to: the inputs or the outputs of your computation. – Laurence Gonsalves Dec 23 '10 at 21:02

Apart from avoiding defensive copies by the programmer, a very smart implementation of pure functional programming languages like Haskell or Standard ML (which lack physical pointer equality) can actively recover sharing of structurally equal values in memory, e.g. as part of the memory management and garbage collection.

Thus you can have automatic hash consing provided by your programming language runtime-system.

Compare this with objects in Java: object identity is an integral part of the language definition. Even just exchanging one immutable String for another poses semantic problems.

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There is indeed at least a tendency to regard memory as affluent ressource (which, in fact, it really is in most cases), but this applies to modern programming at a whole.

With multiple cores, parallel garbage collectors and available RAM in the gigabytes, one uses to concentrate on different aspects of a program than in earlier times, when every byte one could save counted. Remember when Bill Gates said "640K should be enough for every program"?

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