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Some intensive profiling of my code revealed that a it spends a lot of time allocating space for vectors.
For Most of these vectors the size is known in advance so I call reserve() to pre-allocate the space.
For most of these vectors, the size is almost always very small - like 4 or 5 elements but on rare occasions it can be pretty large.
One additional optimization I thought about is to create my own container OptimizedList<T,N> . An instance of this object contains in itself N instances of T as a plain array and if the user tries to add more than N items, it starts using dynamic allocation for the extra items.

Is there a known implementation of this?

  • have you tried replacing vector with deque? You can also reserve the known size in advance, if you know it, in the case of vector – Dmitry Ledentsov Jul 22 '14 at 12:34
  • Why not std::deque ? – PSIAlt Jul 22 '14 at 12:34
  • How are you using your vectors? Try to reuse the same vector from outside a loop instead of recreating the vector each iteration, for example. If the maximum size is small and known at compile-tile, use std::array – Neil Kirk Jul 22 '14 at 12:34
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    There is a constructor for std::vector that takes the initial number of elements. – nvoigt Jul 22 '14 at 12:34
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    @NeilKirk, the reserve part of the answer is for a possible vector optimization (or with a constructor, as others suggest). Deque doesn't need contiguous memory, and hence might not need to reserve huge chunks as might be the case in your problem – Dmitry Ledentsov Jul 22 '14 at 12:39
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How about Qt's stack based variable length array?

Looks like the perfect match for your use case, mostly small arrays, which will be allocated on the stack (the fastest allocation, just a pair of add / sub instructions on a pointer) for small arrays, and on the heap for large ones.

It does however waste space.

  • Exactly what I was looking for, thank you! – shoosh Jul 22 '14 at 17:07
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I would consider using std::vector with a custom allocator optimized for 4-5 elements (pulling those from a pool) as the simplest and most viable solution. This is also the only solution that I'd expect to actually give a net benefit.

Using a std::deque probably does not help, although it may seem that way from a textbook point of view. It might actually hurt. Deques reduce the overhead of copying data from O(n) to O(1), but they are not magically allocation-free. On the contrary, they may cause a lot more allocations than using a vector would.
Deques are usually implemented either as vector of vectors or as circular buffer. In the latter case, you have exactly the same reallocation overhead as with using std::vector except you can't mitigate it by calling reserve(), and in the former case you have two allocations where you would otherwise only have one.

Embedding the first few objects directly into your custom vector class or into an on-stack vararray as in Bgie's answer is very tempting, and this would indeed be a great solution for not too many not too large vectors.
However, since you are having a performance problem from creating those vectors, one can conclude that you are not using just 5 or 10 vectors, but many of them (otherwise it wouldn't really matter, it wouldn't be measurable!). Which means putting data on the stack would likely cause an eventual stack overflow.
This may however be a good solution if all your vectors are heap-allocated anyway. There is no real difference whether you allocate a few hundred bytes more when allocating the container itself, and there is no risk overflowing the stack. So in that case, you'd effectively save one allocation.

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Because most of your containers are small and rare containers get many elements, i'd prefer std::deque. This can help you to avoid unnecessary reallocations at low price. It does not have the reserve() method, but since most containers are small, i think its ok.

More important, you should check your object type, which is contained in those containers. I think the bottleneck is not reallocate itself, but copy/destroy part of it. I suspect that "container's values" copy constructors and/or destructors are "heavy" enough. Its very time-consuming to copy N elements and then destroy old N elements when constructors/destructors are too complicated.

As last optimization, i'd suggest to use a memory pool/allocator to reduce underlying malloc/realloc/free calls.

  • I disagree that deque is faster than properly reserved vector in general. – Neil Kirk Jul 22 '14 at 13:01
  • @NeilKirk we don't know how he do the reserve and how precisely it is. Probably he reserve 100 and then sometimes insert 100k. Maintaining efficient usage of vector is more complicated in my opinion(and can be discussed for a long topic). So probably OP can solve the problem with just switching container type. – PSIAlt Jul 22 '14 at 13:59
  • There is too many assumptions and possibles. If he is reserving vector correctly, then switching to deque would cause many more allocations – Neil Kirk Jul 22 '14 at 14:06
  • @NeilKirk yes, more allocations, but less "reallocations". By reallocation i mean allocation and following "copy+destroy" calls. – PSIAlt Jul 22 '14 at 14:15
  • @NeilKirk its his assumption that "most time is consumed by allocation". I think its wrong path and suggest my own. – PSIAlt Jul 22 '14 at 14:17

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