I was watching Jonathan Blow's video Ideas about a new programming language for games in which he discusses a common pattern in games programming he calls 'joint allocation'. The idea is when you have a class with several members that are dynamically allocated arrays (could be std::vector but since they're fixed size, more like the proposed std::dynarray) you pre-allocate enough memory to store all of the array data and perform only one allocation big enough for all the arrays rather than one for each array.

He proposes direct language support for this pattern which got me to wondering whether the C++ standard allows for implementations to coalesce allocations in this way? It strikes me that this would require some heroic effort from a compiler to actually implement as an optimization but I don't see an obvious reason why it couldn't be done in principle. Does anyone know if this would not be permitted under the standard, or even if there are already implementations that do this optimization in practice?

  • How would this even be possible for dynamically-allocated arrays? What happens if you try to add more elements to a vector than there was room allocated in the containing object, for example? – cdhowie Nov 12 '14 at 19:45
  • the stl containers typically take customer allocators as template parameters, so yes, you could do this (yourself). If you want the compiler to do this automatically, use the stack :) – Red Alert Nov 12 '14 at 19:46
  • Like I said, it would require heroic efforts from a compiler to detect this in all but the most trivial of cases. I'm curious if it's allowed in principle and if any compilers do it in practice for even simple cases. – mattnewport Nov 12 '14 at 19:47
  • Yes, you can get behavior like this using a custom allocator. I have an example here: ideone.com/umU1UC. What I'm curious about is if the spec allows for an implementation to perform this optimization. – mattnewport Nov 12 '14 at 19:48
  • @mattnewport If by "heroic" you mean "only possible in contrived examples" then yes. The compiler has no idea how many elements you want to put in a vector. There is no way for it to detect this in basically every reasonable use-case. I'm not saying that coalescing allocations are not possible, but they are definitely not even remotely feasible in the vector case specifically, particularly because one must accommodate the possibility that the vector will grow. – cdhowie Nov 12 '14 at 19:48
up vote 10 down vote accepted

Yes, the standard allows coalescing allocations (C++14):

5.3.4 New [expr.new]

10 An implementation is allowed to omit a call to a replaceable global allocation function (18.6.1.1, 18.6.1.2). When it does so, the storage is instead provided by the implementation or provided by extending the allocation of another new-expression. The implementation may extend the allocation of a new-expression e1 to provide storage for a new-expression e2 if the following would be true were the allocation not extended:

  • the evaluation of e1 is sequenced before the evaluation of e2, and
  • e2 is evaluated whenever e1 obtains storage, and
  • both e1 and e2 invoke the same replaceable global allocation function, and
  • if the allocation function invoked by e1 and e2 is throwing, any exceptions thrown in the evaluation of either e1 or e2 would be first caught in the same handler, and
  • the pointer values produced by e1 and e2 are operands to evaluated delete-expressions, and
  • the evaluation of e2 is sequenced before the evaluation of the delete-expression whose operand is the pointer value produced by e1.

C++11 did not allow coalescing or omitting such allocations.

  • Thanks, this is exactly the information I was looking for! – mattnewport Nov 12 '14 at 19:49
  • @Casey so this is new language for C++14? – mattnewport Nov 12 '14 at 19:50
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    @mattnewport Yes. See N3664, adopted into the C++14 working paper in May 2013 (per the editor's report N3692). – Casey Nov 12 '14 at 19:50
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    It should be noted that this is only about replaceable global allocation functions. If the compiler can detect that new and friends are not replaced , then anything is permitted under the as-if rule. – n.m. Nov 12 '14 at 19:52
  • @n.m.: Well, if there is no observable difference, of course the compiler can do whatever it wants. That's nothing new though, the as-if rule must always be accounted for. – Deduplicator Nov 12 '14 at 19:54

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