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I've a multithreaded (Cilk) program where each thread use a temporary std::set. There are a lot of allocations on these std::set so that I'm trying to use some pool allocators namely boost::fast_pool_allocator:

using allocator = boost::fast_pool_allocator< SGroup::type >;
using set = std::set<SGroup::type, std::less<SGroup::type>, allocator>;

But now the performances are much worse because of concurrent access to the allocator. One crucial fact is that the sets are never communicated among the threads so that I can use a thread local allocators. However, as shown in the previous code, I'm not constructing allocator objects but passing template parameters to the std::set constructor.

So here is my question: is it possible to construct multiple boost::fast_pool_allocator to use them as thread local pool allocator ?

Edit : I removed stupid std::pair allocations.

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2  
Why do you use T = std::pair<const SGroup::type, const SGroup::type>? Your set contains SGroup::type objects. –  erenon Apr 10 at 19:53
    
Because otherwise the code doesn't compile ;-(... I got some error message error: ‘static const value_type* boost::fast_pool_allocator<T, UserAllocator, Mutex, NextSize, MaxSize>::address(boost::fast_pool_allocator<T, UserAllocator, Mutex, NextSize, MaxSize>::const_reference) [...] cannot be overloaded. Not sure where is the problem though. –  hivert Apr 10 at 20:34
    
Thanks for pointing that out. I actually have to pass a std::pair but I can give whatever as the second member. I guess set are actually implemented as maps with a unused value. –  hivert Apr 10 at 20:38
    
Forget about that, I was just confused... –  hivert Apr 10 at 20:51
    
@hivert What was the fix for this? I am having the exact same questions / issue. Can you please post an answer to this if one was found? –  bjackfly Oct 27 at 14:44

1 Answer 1

EDIT

Mmm. I had an answer here that I pieced together from things I remembered seeing. However, upon further inspection it looks like all the allocators actually work with Singleton Pools that are never thread safe without synchronization. In fact, the null_mutex is likely in a detail namespace for this very reason: it only makes sense to use it if you know the program doesn't use threads (well, outisde the main thread) at all.

Aside from this apparent debacle, you could probably use object_pool directly. But it's not an allocator, so it wouldn't serve you for your container example.


Original Answer Text:

You can pass an allocator instance at construction:

#include <boost/pool/pool.hpp>
#include <boost/pool/pool_alloc.hpp>
#include <boost/thread.hpp>
#include <set>

struct SGroup
{
    int data;
    typedef int type;
};

using allocator = boost::fast_pool_allocator<SGroup::type>;
using set = std::set<SGroup::type, std::less<SGroup::type>, allocator>;

void thread_function()
{
    allocator alloc; // thread local
    set myset(set::key_compare(), alloc);

    // do stuff
}

int main()
{
    boost::thread_group group;
    for (int i = 0; i<10; ++i)
        group.create_thread(thread_function);

    group.join_all();
}

Let me read the docs on how to disable thread-awareness on the allocator :)

Found it in an example:

typedef boost::fast_pool_allocator<SGroup::type,
   boost::default_user_allocator_new_delete,
   boost::details::pool::null_mutex> allocator;

The example in boost/libs/pool/example/time_pool_alloc.hpp should help you get started benchmarking the difference(s) in performance

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Undeleted answer with new insights. –  sehe Apr 10 at 23:34
    
nom nom #insights –  Lightness Races in Orbit Apr 10 at 23:37
    
@sehe : Thanks for this clarification. That's probably explain, why I'm getting segfault at random places as soon as I have more that 1 thread. Anyway, I leave my +1 to thank you for your research and help. –  hivert Apr 10 at 23:46

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