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.

OCaml is functional, so in many cases, all the data are immutable, which means it constantly creates new data, or copying data to new memory, etc.

However, it has the reputation of being fast.

Quite a number of talks about OCaml always say although it constantly creates new things, it is still fast. But I can't find anywhere explaining why.

Can someone summarise why it is fast even with functional way?

share|improve this question

3 Answers 3

up vote 5 down vote accepted

I think the essence, as Jerry101 points out, is that you can make GC a lot faster if it's known to be working in an environment where virtually all objects are immutable and short-lived. You can use a generational collector, and virtually none of the objects make it out of the first generation. This is surprisingly fast.

OCaml has mutable values as well. For some cases (I would expect they are rare in practice) you could find that using mutability makes your code slower because GC is tuned for immutability.

OCaml doesn't have concurrent GC. That's something that would be great to see.

Another angle on this is that the OCaml implementors (Xavier Leroy et al) are excellent :-)

The Real World OCaml book seems to have a good description of GC in OCaml. Here's a link I found: https://realworldocaml.org/v1/en/html/understanding-the-garbage-collector.html

share|improve this answer
    
Even with very fast GC, excessive allocation will interfere with CPU cache utilization. If you produce a bunch of things that you only use once, then your L1 cache (typically about the size of the GC nursery) will be continually filled with garbage and then emptied out. The L2 cache, however, will likely serve its purpose well. In many cases, a compiler can figure out what you're doing and avoid unnecessary allocation. In other cases, it cannot. –  dfeuer Mar 21 at 20:02

Also, you should know that copies are not made nearly as often as you might think. Only the changed part of an immutable data structure has to be updated. For example, say you have an immutable set x. You then define y to be x with one additional item in it. The set y will share most of its underlying representation with x even though semantically x and y are completely different sets. The usual reference for this is Okasaki's Purely Functional Data Structures.

share|improve this answer

I'm not familiar with OCaml but here's some general background on programming language VM (including garbage collection) speed.

One aspect is to dig into the claims -- "fast" compared to what?

In one comparison, the summary is "D is slower than C++ but D programs are faster than C++ programs." The micro-benchmarks in D are slower but it's easier to see the big picture while programming and thus use better algorithms, avoid duplicate work, and not have to work around C++ rough edges.

Another aspect is to realize that modern garbage collectors are quite fast, that concurrent garbage collectors can do most of the work in another thread thus making use of multiple CPU cores in a way that saves time for the "mutator" threads, and that memory allocation in a GC environment is faster than C's malloc() because it doesn't have to search for a suitable memory gap.

Also functional languages are easy to parallelize.

share|improve this answer
1  
“Are all values immutable in OCaml?” No, they aren't. While the gist of your answer is correct, perhaps you shouldn't answer OCaml questions if you do no have any particular knowledge of OCaml, or at the very least answer the question with a disclaimer if someone with such prerequisite knowledge takes too long to answer it. The phrase about concurrent garbage collectors is also in the wrong place, although the first and last part of the sentence apply in the case of OCaml. –  Pascal Cuoq Mar 18 at 7:11
    
@PascalCuoq hopefully that edit addresses your requests. –  Jerry101 Mar 18 at 7:47

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.