What does it mean for an allocator to be stateless? I realize that std::allocator is a wrapper around malloc, and has no state of its own. At the same time, malloc does its own bookkeeping, so one could say that all std::allocator instances make use of a single state.

How would I go about implementing a pool allocator without state? If not the allocator, what would keep the current state of memory?

Could someone formally define what state means in this context?

  • 1
    Does calling it "internally stateless" make it clearer? – Xeo Sep 22 '12 at 15:29

State means that the instances of class have mutable information in them. Stateless means that they do not have it. Stateless classes do not have non-static data members.

You can make pool allocator to be stateless by using some mutual external state (a pool) that is same for all pool allocators of that type.

  • In this case, how can I ensure thread safety using only c++ language feature? If each call to allocate or deallocate could block on a mutex, would this not be a problem? – Filipp Sep 23 '12 at 19:04
  • There are several possibilities how to achieve lock-less thread safety of allocator. For example it could allocate from different portions of pool based on std::thread::id of current thread. – Öö Tiib Sep 23 '12 at 22:50
  • This feature is universally supported by current compilers and part of c++03 standard? – Filipp Sep 24 '12 at 2:12
  • No. C++03 does not have threads at all. Threads and thread safety is totally implementation and platform-specific in C++03. You have to use POSIX or Windows threads directly or rely on third party libraries like boost when using C++03 – Öö Tiib Sep 24 '12 at 2:46
  • Can you say how malloc is thread safe? – Filipp Sep 24 '12 at 3:14

The allocator object himself is discouraged to be stateful. This means if you create an instance of std::allocator (or your own), this instance should not contain any info about allocated blocks etc - this info must be static and shared across all std::allocator instances. Breaking this rule may lead to undefined behavior in STL libraries.

For example, look at std::list::splice: it removes and interval of elements from one std::list and insert into other. Really nothing done with contained elements (no copying etc) - this method just rearranges internal pointers. So, if std::allocator instance #1 (in list #1) know something, what dont know std::allocator instance #2 (in list #2) ? These elements will be lost, memleaked, spontaneously deleted or whatever..

A good reading about such things on STL is "Effective STL", Scott Meyers

  • This may have been the case for C++03, but C++11 explicitly supports stateful allocators. – Xeo Sep 23 '12 at 18:52
  • "Breaking this rule may lead to undefined behavior in STL libraries." Can you link a doc page that states that please – felknight Jul 23 '15 at 6:52
  • @Felipe "All custom allocators also must be stateless (until c++11)" en.cppreference.com/w/cpp/memory/allocator For c++11 need to use special mechanics to transfer pointer ownership between allocators. – PSIAlt Jul 23 '15 at 8:05
  • Thanks, do you know by chance if c++11 state mechanics are implemented in gcc 5.1.0? – felknight Jul 23 '15 at 8:47
  • @Felipe im not sure this does apply to default(std) allocators since i think they are stateless. – PSIAlt Jul 23 '15 at 8:50

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