Just give the exact size you need. The only reason that a power-of-two size might be "better" is to allow quicker allocation and/or to avoid memory fragmentation.
However, any non-trivial malloc
implementation that concerns itself with being efficient will internally round allocations up in this way if and when it is appropriate to do so. You don't need to concern yourself with "helping" malloc; malloc can do just fine on its own.
Edit:
In response to your quote of the Joel on Software article, Joel's point in that section (which is hard to correctly discern without the context that follows the paragraph that you quoted) is that if you are expecting to frequently re-allocate a buffer, it's better to do so multiplicatively, rather than additively. This is, in fact, exactly what the std::string
and std::vector
classes in C++ (among others) do.
The reason that this is an improvement is not because you are helping out malloc
by providing convenient numbers, but because memory allocation is an expensive operation, and you are trying to minimize the number of times you do it. Joel is presenting a concrete example of the idea of a time-space tradeoff. He's arguing that, in many cases where the amount of memory needed changes dynamically, it's better to waste some space (by allocating up to twice as much as you need at each expansion) in order to save the time that would be required to repeatedly tack on exactly n
bytes of memory, every time you need n
more bytes.
The multiplier doesn't have to be two: you could allocate up to three times as much space as you need and end up with allocations in powers of three, or allocate up to fifty-seven times as much space as you need and end up with allocations in powers of fifty-seven. The more over-allocation you do, the less frequently you will need to re-allocate, but the more memory you will waste. Allocating in powers of two, which uses at most twice as much memory as needed, just happens to be a good starting-point tradeoff until and unless you have a better idea of exactly what your needs are.
He does mention in passing that this helps reduce "fragmentation in the free chain", but the reason for that is more because of the number and uniformity of allocations being done, rather than their exact size. For one thing, the more times you allocate and deallocate memory, the more likely you are to fragment the heap, no matter in what size you're allocating. Secondly, if you have multiple buffers that you are dynamically resizing using the same multiplicative resizing algorithm, then it's likely that if one resizes from 32 to 64, and another resizes from 16 to 32, then the second's reallocation can fit right where the first one used to be. This wouldn't be the case if one resized from 25 to 60 and and the other from 16 to 26.
And again, none of what he's talking about applies if you're going to be doing the allocation step only once.
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