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Since scoped_ptr guarantees that all objects in a given thread are allocated in a stack-like fashion, what is the least painful way of specifying a "custom heap" for objects under scoped_ptr?
(e.g. for vectors, deques, strings, etc.)

(This would allow us to avoid the traditional heap overhead almost entirely, getting a pool that is almost as fast as the stack, but as large as the heap.)

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scoped_ptr doesn't guarantee anything about allocation strategy, only that it'll call the deleter once it goes out of scope. –  Cory Nelson Apr 3 '12 at 2:08
@CoryNelson: It also guarantees that it cannot be copied or moved, doesn't it? Which means that, unless the pointer is explicitly escaped (which is the programmer's fault and easily avoidable), two scoped_ptrs must be destroyed in the reverse order in which they were created, on any given thread. –  Mehrdad Apr 3 '12 at 2:11
@Downvoter: Mind explaining? –  Mehrdad Apr 3 '12 at 2:17
@Mehrdad: I guess because the question is non-sensical. It's a bit harsh... –  Matthieu M. Apr 3 '12 at 7:52
@Mehrdad: How ? I repeat, you pass an already allocated object to scoped_ptr, how could then scoped_ptr influence an event that has happened before it entered into play ? –  Matthieu M. Apr 3 '12 at 15:19

1 Answer 1

scoped_ptr, and smart pointers in general, have no effect on memory allocated by the objects they hold. If for some reason you have a scoped_ptr<std::vector<T> >, the fact that the std::vector<T>* is stored in a scoped_ptr is entirely irrelevant to where std::vector<T> gets its memory from.

Of course, the fact that std::vector<T> is already a RAII type (like all other standard-library classes) that will clean up after itself means that sticking them in a scoped_ptr is quite pointless.

In short, what you're talking about has nothing to do with scoped_ptr at all. It has to do with the allocators you use for your container classes. You're barking up the wrong tree.

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Well, you don't have to use allocators for this, do you? Is there no way to use, maybe, an operator-new-overloading trick inside a class like scoped_ptr, or maybe to temporarily hook the global memory allocator (based on type perhaps?) or something like that? I understand that allocators are one solution, but are they the only (or the best/easiest) solutions? –  Mehrdad Apr 3 '12 at 8:15
@Mehrdad: scoped_ptr is not magic. All it's doing is storing a pointer, giving it out when you request it, and then deleting it in its destructor. It has no more knowledge of what it's actually storing than that. The way to influence where memory for standard library containers comes from is with allocators; there is no alternative method. Overloading operator new will not help, because they don't use operator new. They use allocators. –  Nicol Bolas Apr 3 '12 at 9:23
Yes, I already know what scoped_ptr does, but it seems like you're unnecessarily over-restricting the problem. Can't you make a new class that uses scoped_ptr internally, for instance, and which allocates the object? Or can't you take the code of scoped_ptr, tweak it a bit, and get it to work? I don't understand why you restricted the question so much... –  Mehrdad Apr 3 '12 at 15:34
@Mehrdad: You could do a lot of things. You could have a special "container holder" that automatically hooks a special allocator into the container that it stores, which draws memory from some pool somewhere. But you didn't ask about that. You asked about scoped_ptr. I can only answer what you ask, not what you thought you were asking. –  Nicol Bolas Apr 3 '12 at 15:36
Making a class which internally uses scoped_ptr but which allocates the object itself isn't an unreasonably wild guess for a potential answer, is it? Or maybe I'm just being too creative when I try to think of solutions... –  Mehrdad Apr 3 '12 at 15:38

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