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How is it possible to use C++ STL containers with jemalloc (or any other malloc implementation)?

Is it as simple as include jemalloc/jemalloc.h? Or should I write an allocator for them?

Edit: The application I'm working on allocates and frees relatively small objects over its lifetime. I want the replace the default allocator, because benchmarks showed that the application doesn't scale beyond 2 cores. Profiling showed that it was waiting for memory allocation, that's what caused the scaling issues. As I understand, jemalloc will help with that.


I'd like to see a solution, that's platform-neutral as the application has to work on both Linux and Windows. (Linking against a different implementation is easy under Linux, but it's very hard on Windows as far as I know.)

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4 Answers 4

up vote 5 down vote accepted

C++ allows you to replace operator new. If this replacement operator new calls je_malloc, then std::allocator will indirectly call je_malloc, and in turn all standard containers will.

This is by far the simplest approach. Writing a custom allocator requires writing an entire class. Replacing malloc may not be sufficient (there's no guarantee that the non-replaced operator new calls malloc), and it has the risks noted earlier by Adrian McCarthy

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If you want to replace malloc everywhere in your program (which I wanted to and also seems the only logical solution), then all you have to do is link against it.

So, if you use gcc then all you have to do is:

g++ yourprogram.cpp -ljemalloc

But, if it's not possible, then you have to use jemalloc via another functions e.g. je_malloc and je_free, and then you have to overload the new and delete operators.

There's no need for including any header if you don't use implementation-specific features (statistics, mostly).

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Writing an allocator is going to be the easiest solution, since the stl was designed to have interchangeable allocators. This will be the easiest path.

Some projects play games try to get the alternate malloc implementation to replace the malloc and news provided by the compiler's companion library. That's prone to all sorts of issues because you end up relying on specific implementation details of your compiler and the library it normally uses. This path is fraught with danger.

Some dangers of trying to replace malloc globally:

  • Static initializer order has limited guarantees in C++. There's no way to guarantee the allocator replacement is initialized before the first caller tries to use it, unless you ban static objects that might allocate memory. The runtime doesn't have this problem, since the compiler and the runtime work together to make sure the runtime is fully initialized before initializing any statics.
  • If you dynamically link to the runtime library, then there's no way to ensure some of the runtime library's code isn't already bound to its own implementation. Trying to modify the compiler's runtime library might lead to licensing issues when redistributing your application.
  • All other methods of allocation might not always ultimately rely on malloc. For example, an implementation of new might bypass malloc for large allocations and directly call the OS to allocate memory. That requires tracking to make sure such allocations aren't accidentally sent to the replacement free.

I believe Chromium and Firefox has both replaced the allocator, but they play some dirty tricks and probably have to update their approach as the compiler, linker, and runtime evolve.

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I updated my question to answer your's. What kind of issues are with replacing new? –  KovBal Mar 1 '12 at 18:29
    
If you're just trying to replace new with the usual C++ shenanigans, you can get by. It's when people try to replace malloc throughout an entire program that gets really hairy. –  Adrian McCarthy Mar 1 '12 at 20:47
    
This is exactly what I want to do: replace malloc throughout the entire program. But I don't want to write my own implementation; I just want to use another (well tested) one. –  KovBal Mar 1 '12 at 21:03

There may be problems as the constructors won't be called. You may use differnt options of operator new (has more options than just new) which can just allocate memory without calling constructor, or call the constructor in already allocated memory. http://www.cplusplus.com/reference/std/new/operator%20new%5B%5D/

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