In C the standard memory handling functions are malloc(), realloc() and free(). However, C++ stdlib allocators only parallel two of them: there is no reallocation function. Of course, it would not be possible to do exactly the same as realloc(), because simply copying memory is not appropriate for non-aggregate types. But would there be a problem with, say, this function:

bool reallocate (pointer ptr, size_type num_now, size_type num_requested);


  • ptr is previously allocated with the same allocator for num_now objects;
  • num_requested >= num_now;

and semantics as follows:

  • if allocator can expand given memory block at ptr from size for num_now objects to num_requested objects, it does so (leaving additional memory uninitialized) and returns true;
  • else it does nothing and returns false.

Granted, this is not very simple, but allocators, as I understand, are mostly meant for containers and containers' code is usually complicated already.

Given such a function, std::vector, say, could grow as follows (pseudocode):

if (allocator.reallocate (buffer, capacity, new_capacity))
  capacity = new_capacity;     // That's all we need to do
  ...   // Do the standard reallocation by using a different buffer,
        // copying data and freeing the current one

Allocators that are incapable of changing memory size altogether could just implement such a function by unconditional return false;.

Are there so few reallocation-capable allocator implementation that it wouldn't worth it to bother? Or are there some problems I overlooked?

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    +1, this is a question that always bugged me. – Matteo Italia Jun 23 '10 at 19:52
  • Stroustrup's take on this thing: www2.research.att.com/~bs/bs_faq2.html#renew; it delegates the problem to the inner workings of vector, but doesn't say why isn't there a mechanism like "renew" to make the growing of the array simpler. – Matteo Italia Jun 23 '10 at 20:29
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    There is nothing stopping std::vector from doing that in some cases (e.g., it knows its using the standard allocator). The standard library is allowed to use knowledge of the underlying system. – KeithB Jun 23 '10 at 21:39

From: http://www.sgi.com/tech/stl/alloc.html

This is probably the most questionable design decision. It would have probably been a bit more useful to provide a version of reallocate that either changed the size of the existing object without copying or returned NULL. This would have made it directly useful for objects with copy constructors. It would also have avoided unnecessary copying in cases in which the original object had not been completely filled in.

Unfortunately, this would have prohibited use of realloc from the C library. This in turn would have added complexity to many allocator implementations, and would have made interaction with memory-debugging tools more difficult. Thus we decided against this alternative.

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    I think it's a shame they didn't at least add a reallocate method to Allocator's interface. It could have been implemented to just free an existing block and allocate a new one, but it would have given the potential to implement a new one later without redoing all the code using the Allocator interface. – stinky472 Feb 2 '12 at 2:33
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    It's also a shame that C never bothered to add a "resize allocation if convenient" function, with a proviso that a conforming implementation would be allowed to always decide resizing was "inconvenient" – supercat Jun 26 '18 at 22:46

This is actually a design flaw that Alexandrescu points out with the standard allocators (not operator new[]/delete[] but what were originally the stl allocators used to implement std::vector, e.g.).

A realloc can occur significantly faster than a malloc, memcpy, and free. However, while the actual memory block can be resized, it can also move memory to a new location. In the latter case, if the memory block consists of non-PODs, all objects will need to be destroyed and copy-constructed after the realloc.

The main thing the standard library needs to accommodate this as a possibility is a reallocate function as part of the standard allocator's public interface. A class like std::vector could certainly use it even if the default implementation is to malloc the newly sized block and free the old one. It would need to be a function that is capable of destroying and copy-constructing the objects in memory though, it cannot treat the memory in an opaque fashion if it did this. There's a little complexity involved there and would require some more template work which may be why it was omitted from the standard library.

std::vector<...>::reserve is not sufficient: it addresses a different case where the size of the container can be anticipated. For truly variable-sized lists, a realloc solution could make contiguous containers like std::vector a lot faster, especially if it can deal with realloc cases where the memory block was successfully resized without being moved, in which case it can omit calling copy constructors and destructors for the objects in memory.

  • std::vector could in theory specialize for trivially-copyable objects and use plain realloc, as long as new hasn't been replaced with a non-default version... Detecting that is probably only possible at link time, not compile time, so gcc/clang / etc. don't do this. – Peter Cordes Jan 3 '20 at 9:50

What you're asking for is essentially what vector::reserve does. Without move semantics for objects, there's no way to reallocate memory and move the objects around without doing a copy and destroy.

  • A good usecase for such functionality for this would be sparse containers. Using vectors, especially with preallocated memory, in them would completely defeat their purpose (sparseness is meant to conserve memory). – doublep Jun 23 '10 at 20:16
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    @doublep: If you wanted sparse containers neither (dynamically) allocated arrays nor vectors are what you want. – Martin York Jun 23 '10 at 20:32
  • @Martin York: Well, for instance Google Sparsehash library uses dynamically allocated arrays and achieves very nice results. – doublep Jun 23 '10 at 20:40
  • @doublep: I am sure it does use dynamically allocated arrays. But it does not use "A" dynamically allocated array as it is a bit more complex than that. – Martin York Jun 24 '10 at 1:13
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    I don't think it's anything like vector::reserve, unless of course you are willing to live in the circular world where allocators are implemented on top of vector which is in turn implemented on top of allocators... Yes, to the end user, vector reserve does something a bit like realloc: the vector's capacity grows by a certain amount. Of course, internally, vector is simply implemented on top of the allocator functions and can only allocate a whole new block and free a complete block: it cannot ask for the existing block to be expanded. – BeeOnRope Oct 19 '17 at 5:21

I guess this is one of the things where god went wrong, but I was just too lazy to write to the standards committee.

There should have been a realloc for array allocations:

p = renew(p) [128];

or something like that.

  • If you use vectors instead of arrays, there's .reserve(). Why add new functionality for arrays when vectors are generally better? – David Thornley Jun 23 '10 at 21:46
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    @DavidThornley, vectors under the hood have to go through the allocator interface. So it seems a vector cannot free unused memory as efficiently as possible. (But I think/hope I'm missing something here!) – Aaron McDaid Nov 20 '13 at 21:07
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    @DavidThornley - exactly what Aaron said. Everyone says "use vector" - but they are talking at the wrong level of abstraction! vector itself has to be built on (and indeed is built on) the lower level allocation routines that let you get uninitialized memory and so on. If those routines don't offer a low-level "reallocate" function, certainly vector can't either. Of course, it can offer resize and reserver and everything else, but under the covers those are just allocating new blocks and copying things over. Nothing like expanding an existing block. – BeeOnRope Oct 19 '17 at 5:30

Because of the object oriented nature of C++, and the inclusion of the various standard container types, I think it's simply that less focus was placed on direction memory management than in C. I agree that there are cases that a realloc() would be useful, but the pressure to remedy this is minimal, as almost all of the resulting functionality can be gained by using containers instead.

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    I'm not sure I agree they thought about it less because of OOP. Placement new is an example of a feature specifically for memory management of objects. – Joseph Garvin Jun 23 '10 at 20:40
  • I'm not saying they thought about it less, just that the actual syntax was designed to place more emphasis on OOP than on direct memory management in cases where the two are different options. Placement new is a perfect example of where the two are used together by the programmer rather than one replacing the other. – tlayton Jun 23 '10 at 20:51
  • Actualy placement new is the apparatus that enables otherwise very hard custom memory management (specifically memory pools) within c++ facilities. I think of it as a device that encourages customizing memory management with c++ code libraries. – Ofek Shilon Jun 23 '10 at 21:56
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    You can't use containers to get the functionality of realloc (at least if you include performance in "functionality") since the containers are implemented on top of the low level memory allocation routines such as std::allocator which ultimately call even lower level C++ library methods such as operator new(size t), which then in turn (usually) call C-level malloc or whatever. Since the lower level C++ abstractions for allocation don't include reallocation, the higher-level containers aren't going be able to synthesize it from thin air. – BeeOnRope Oct 19 '17 at 5:27

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