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Is there a convenient analog of std::bitset<> that's dynamically sizable at instantiation time, but avoids the extra allocation required by boost::dynamic_bitset<>

You can create dynamically sized bit sets easily in C by doing something like :

typedef struct { node_t node; block_t bits[0]; } node_bitset_t;
p = (node_bitset_t *)malloc( (sizeof(node_t) + sizeof(block_t)*blocks) * array_size);

You could do this using std::vector<std::bitset<bits>> only if you know bits at compile time. If you use std::vector<boost::dynamic_bitset<>>, then you'll see an extra allocator call. Is there a compromise that achieves the above C code's balance?

You might for-example have some custom allocator for the std::vector<...> that leaves some extra space after each boost::dynamic_bitset<> and allocates m_block there, although that'll probably still cost you the pointer for m_block.

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What extra allocation are you talking about? –  K-ballo Oct 13 '11 at 21:35
There's no extra allocation — vs. the C version's malloc — unless you instantiate the dynamic_bitset itself on the heap, which you needn't do most of the time. How does the C version avoid extra allocations for an array of node_bitset_t *? –  Marcelo Cantos Oct 13 '11 at 21:41
In the C version, all the node_bitset_t * require zero size because they're simply the continuation of the struct that has size exactly sizeof(node_t). We allocate space for the array bits using the malloc and access it as bits[i] or whatever. There is only one malloc in the C version, ditto the compile time sized std::bitset version I'd assume, but the boost::dynamic_bitset version requires array_size+1 new calls. I think the stack isn't large enough for the data sets in question. –  Jeff Burdges Oct 14 '11 at 18:42

1 Answer 1

up vote 2 down vote accepted

It would be possible to create such a class using placement new, but I'm not aware of a preexisting class which does this. The class wouldn't be instantiated directly but would be built via a factory; the factory method would use new to allocate the number of bytes necessary, then use placement new to initialize the object at the front of the buffer. The end of the buffer past the size of the class would be the bit storage.

In practice there's no need to do this, because it doesn't save anything vs. dynamic_bitset. With this method you have two parts, a pointer to the bits object and the object itself. With dynamic_bitset you have the dynamic_bitset object which contains the pointer to the bits. Same thing.

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