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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?

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

2 Answers 2

up vote 7 down vote accepted

State means that the instances of class have mutable information in them. Stateless means that they do not have it.

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

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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 Mayers

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This may have been the case for C++03, but C++11 explicitly supports stateful allocators. –  Xeo Sep 23 '12 at 18:52

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