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I was wondering if it practicable to have an C++ standard library compliant allocator that uses a (fixed sized) buffer that lives on the stack.

Somehow, it seems this question has not been ask this way yet on SO, although it may have been implicitly answered elsewhere.

So basically, it seems, as far as my searches go, that it should be possible to create an allocator that uses a fixed size buffer. Now, on first glance, this should mean that it should also be possible to have an allocator that uses a fixed size buffer that "lives" on the stack, but it does appear, that there is no widespread such implementation around.

Let me give an example of what I mean:

{ ...
  char buf[512];
  typedef ...hmm?... local_allocator; // should use buf
  typedef std::basic_string<char, std::char_traits<char>, local_allocator> lstring;
  lstring str; // string object of max. 512 char
}

How would this be implementable?


The answer to this other question (thanks to R. Martinho Fernandes) links to a stack based allocator from the chromium sources: http://src.chromium.org/viewvc/chrome/trunk/src/base/stack_container.h

However, this class seems extremely peculiar, especially since this StackAllocator does not have a default ctor -- and there I was thinking that every allocator class needs a default ctor.

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Why would this be desirable? Keep in mind that such an allocator would only be usable while that function is running. –  R. Martinho Fernandes Nov 8 '11 at 11:29
3  
@R.MartinhoFernandes - Desirable? Weeeel, because it would mean no heap allocation (no gobal new called) and the buffer would be very local. I'm not going to sprinkle that thing all over my code, but I was wondering whether it's practically doable at all. –  Martin Ba Nov 8 '11 at 11:32
    
    
@R.MartinhoFernandes - I had seen this question. Is alloca the same as a simple statically sized stack based buffer?? –  Martin Ba Nov 8 '11 at 11:38
1  
This one may also be helpful: stackoverflow.com/questions/354442/… Be sure to read the warnings. IMO This kind of thing brings more trouble than it's worth. –  R. Martinho Fernandes Nov 8 '11 at 11:42

4 Answers 4

This is actually an extremely useful practice and used in performant development, such as games, quite a bit. To embed memory inline on the stack or within the allocation of a class structure can be critical for speed and or management of the container.

To answer your question, it comes down to the implementation of the stl container. If the container not only instantiates but also keeps reference to your allocator as a member then you are good to go to create a fixed heap, I've found this to not always be the case as it is not part of the spec. Otherwise it becomes problematic. One solution can be to wrap the container, vector, list, etc, with another class who contains the storage. Then you can use an allocator to draw from that. This could require a lot of template magickery (tm).

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" an extremely useful practice and used in performant development, such as games, quite a bit" -- citation needed :-) ... Also your second paragraph is a bit unclear. What do you mean by "not only inst. but also keeps reference ..."? –  Martin Ba Dec 25 '13 at 20:04
    
I am a game developer and this guy's SO right! There are countless cases when a stack allocator and a container are used in conjunction.. –  teodron Jun 3 at 13:12
up vote 3 down vote accepted

Apparently, there is a conforming Stack Allocator from one Howard Hinnant.

It works by using a fixed size buffer (via a referenced arena object) and falling back to the heap if too much space is requested.

This allocator doesn't have a default ctor, and since Howard says:

I've updated this article with a new allocator that is fully C++11 conforming.

I'd say that it is not a requirement for an allocator to have a default ctor.

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A stack-based STL allocator is of such limited utility that I doubt you will find much prior art. Even the simple example you cite quickly blows up if you later decide you want to copy or lengthen the initial lstring.

For other STL containers such as the associative ones (tree-based internally) or even vector and deque which use either a single or multiple contiguous blocks of RAM, the memory usage semantics quickly become unmanageable on the stack in almost any real-world usage.

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It really depends on your requirements, sure if you like you can create an allocator that operates only on the stack but it would be very limited since the same stack object is not accessible from everywhere in the program as a heap object would be.

I think this article explains allocators it very well

http://www.codeguru.com/cpp/cpp/cpp_mfc/stl/article.php/c4079

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sure if you like you can create an allocator that operates only on the stack - any prior art? I hate reinventing the wheel :-) –  Martin Ba Nov 8 '11 at 11:37

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