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I have been trying to see if I can optimize the case when having many small vectors of data. In my use case there may be 100,000+ of these vectors so the size of the vector storage is critical. Each may only have 1 or 2 elements at times but may grow larger capacities in many cases.

I have tried using a simple std::vector but this is incredibly slow as it allocates N small buffers on the heap which wastes memory and takes far too long in a time-critical environment. Effectively a small-buffer-optimization (SBO) on a vector seems to look like a viable solution. This means the internal (i.e. stack) data of the vector is used until it is exceeded and only then does the heap need to be used.

I have stumbled upon the LLVM SmallVector which appears to do exactly that. It however appears to have lots of dependencies within the LLVM framework and was wondering if there is something similar in Boost? There may be a possibility SBO optimization is performed by the Boost implementation but I cannot find any references to this in my searches. I have seen that the STL implementation is technically prohibited form doing this optimization though due to some rule about iterators though?

Link: The LLVM SmallVector is in the internal source code to the LLVM software.

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3 Answers 3

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First, you can surely extract LLVM's SmallVector, it has pretty small amount of dependencies and liberal license. As far as I know, there is no STL/Boost direct equivalent of SmallVector. There is small vector class in Folly though (https://github.com/facebook/folly)

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You basically answer my question and I like the look of Folly as it primarily uses boost and very easy to extract. It can be more easily extracted compared to LLVM. I have however ended up implementing my own basic version which does only what I need of the vector. I may refer back to Folly in future though for a more concise implementation. Thanks. –  Crog Sep 4 '13 at 16:02

Could probably be implemented with some kind of adaptor/proxy class which encapsulates a normal std::vector, and possibly uses std::array for the normal "small vector" operations. Just using the same interface as e.g. std::vector while translating indexes should be enough. The big problem would be iterators, but that could probably be overcome by encapsulating the iterators of the encapsulated collections.

It's a lot of work to stitch it all together though, so might be simpler just have an encapsulated std::vector with pre-allocated memory. And then in the push_back etc. function to check if the added item is within the preallocated memory and just set the item in the correct place instead of calling the vectors push_back.

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There is some merit to this answer. However having a proxy that contains both an array and a vector would incur a large deal of wasted memory. A hacked union could be a possibility somehow and would be impressed if it were possible to get this to work. Note that I am actually using vc2008 at present sadly :( –  Crog Aug 30 '13 at 10:31
Pre-allocating memory for a vector is done via the reserve() method. This would allocate on the heap increasing memory usage. Many hundreds of thousands of small allocations is very time consuming and is what I already have hence my desire to see if there any better options out there. More detail is required if there is something more to your solution here. –  Crog Aug 30 '13 at 10:39
Pre-allocating with "reserve" is not quite what SmallVector brings to the table though. It still means heap allocation, which SmallVector avoids completely. –  Eli Bendersky Aug 30 '13 at 18:20

I create a ticket in boost for it as feature request: Ticket #9165 (https://svn.boost.org/trac/boost/ticket/9165)

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