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When I push object of type _Tp back into std::vector, a segment fault signal SIGSEGV arises where template new_allocator<_Tp> returns around the end of following snippet:

  allocate(size_type __n, const void* = 0)
    if (__n > this->max_size())

    return static_cast<_Tp*>(::operator new(__n * sizeof(_Tp))); /* SEGMENT FAULT! */

Constant monitoring about following expressions yields

(this->max_size()) = 1343857
(__n) = 4
(sizeof(_Tp)) = 3196
__n * sizeof(_Tp) = 12784

I can tell that the memory is apparently enough and all registers are fine.

However, this segment fault DID NOT occur until pushing for a few times, as I think the vector is initially large enough to push without ::operator new until the moment. But whenever it has to return static_cast<_Tp *>(::operator new(__n * sizeof(_Tp))), bad thing just happens.

Despite that, one fact about _Tp is that it's indeed a class implementation WITHOUT DEFAULT CONSTRUCTOR, as it has member field of some a reference type and must not be constructed by default. In terms of the semantics of static_cast<_Tp *> and operator new (globally original, not overwritten in my code), is this possibly relevant to the segment fault? Should I be troubled to implement an allocator of type _Tp myself or is there other way around? Thanks.


Ubuntu 12.04 x86-64, GCC 4.6.3, IDE Netbeans 7.4, std=C++98
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That's one massive class you have there, but not having a default constructor would be a problem at compile time. – chris Jan 16 '14 at 5:02
up vote 2 down vote accepted

The allocate function in this case is just allocating memory -- it has not yet constructed an object at that location. It is calling global operator new -- not your type's constructor. It will then use placement new to construct your objects in the resulting memory block.

If you are getting segmentation faults here, it either means that you are out of memory, or that your program has corrupted the heap. Corrupting the heap causes undefined behavior, and will often crash far away in your program from where you corrupted it. Probably the most common cause here would be using the memory after freeing it; at least on systems which use free'd space to track allocations (e.g. dlmalloc, the most common *nix allocator). Another common cause would be attempting to write off the end of a buffer you were handed by an allocator previously.

You may wish to consider running this program under valgrind.

share|improve this answer
Despite all, how does the "placement new" work with a class that has no default constructor or a reloaded new operator? – Y.Z Jan 16 '14 at 5:09
The snippet you show just allocates raw memory. Adding an element to the vector will do a placement new to invoke the copy constructor. – Alan Stokes Jan 16 '14 at 5:23
shouldnt new throw exception in case of out of memory situation? – UldisK Jan 16 '14 at 6:23
@Y.Z: If the type overrides operator new, then no changes. The types' operator new is not used by vector. Placement new ends up calling the constructor for the type with arguments. – Billy ONeal Jan 16 '14 at 18:06
@BillyONeal Ah...that must be tricky for placement new to call the right one, particularly when my class wraps a reference ;-). By the way, the problem is solved. You were right the bug was REALLY far from the point. – Y.Z Jan 17 '14 at 2:11

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