When working with Project Euler problems I often need large (> 10**7) bit array's.

My normal approach is one of:

bool* sieve = new bool[N];

bool sieve[N];

When N = 1,000,000 my program uses 1 MegaByte (8 * 1,000,000 bits).

Is there a more efficient way to use store bit arrays than bool in c++?

10 Answers 10

up vote 20 down vote accepted

Use std::bitset (if N is a constant) otherwise use std::vector<bool> as others have mentioned (but dont forget reading this excellent article by Herb Sutter)

A bitset is a special container class that is designed to store bits (elements with only two possible values: 0 or 1, true or false, ...).

The class is very similar to a regular array, but optimizing for space allocation: each element occupies only one bit (which is eight times less than the smallest elemental type in C++: char).


Herb Sutter (in that article) mentions that

The reason std::vector< bool > is nonconforming is that it pulls tricks under the covers in an attempt to optimize for space: Instead of storing a full char or int for every bool[1] (taking up at least 8 times the space, on platforms with 8-bit chars), it packs the bools and stores them as individual bits(inside, say, chars) in its internal representation.

std::vector < bool > forces a specific optimization on all users by enshrining it in the standard. That's not a good idea; different users have different requirements, and now all users of vector must pay the performance penalty even if they don't want or need the space savings.


And if you have used Boost you can use boost::dynamic_bitset(if N is known at runtime)

For better or for worse, std::vector<bool> will use bits instead of bool's, to save space. So just use std::vector like you should have been in the first place.

If N is a constant, you can use std::bitset.

A 'bool' type isn't stored using only 1 bit. From your comment about the size, it seems to use 1 entire byte for each bool.

A C like way of doing this would be:

uint8_t sieve[N/8]; //array of N/8 bytes

and then logical OR bytes together to get all your bits:

sieve[0] = 0x01 | 0x02; //this would turn on the first two bits

In that example, 0x01 and 0x02 are hexadecimal numbers that represent bytes.

  • upvoted, good idea, may be, it's N/8+1, it's bit packed array. – Manohar Reddy Poreddy Aug 28 '16 at 3:00

You could look up std::bitset and std::vector<bool>. The latter is often recommended against, because despite the vector in the name, it doesn't really act like a vector of any other kind of object, and in fact doesn't meet the requirements for a container in general. Nonetheless, it can be pretty useful.

OTOH, nothing is going to (at least dependably) store 1 million bool values in less than 1 million bits. It simply can't be done with any certainty. If your bit sets contain a degree of redundancy, there are various compression schemes that might be effective (e.g., LZ*, Huffman, arithmetic) but without some knowledge of the contents, it's impossible to say they would be for certain. Either of these will, however, normally store each bool/bit in only one bit of storage (plus a little overhead for bookkeeping -- but that's usually a constant, and on the order of bytes to tens of bytes at most).

Yes, you can use a bitset.

  • 2
    While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – Fred Nov 15 '12 at 15:43

You might be interested in trying the BITSCAN library as an alternative. Recently an extension has been proposed for sparseness, which I am not sure is your case, but might be.

Try std::bitset

You can use a byte array and index into that. Index n would be in byte index n/8, bit # n%8. (In case std::bitset is not available for some reason).

If N is known at compile time, use std::bitset, otherwise use boost::dynamic_bitset.

A 'bool' type isn't stored using only 1 bit. From your comment about the size, it seems to use 1 entire byte for each bool.

A C like way of doing this would be:

uint8_t sieve[N/8]; //array of N/8 bytes

element of array is:

result = sieve[index / 8] || (1 << (index % 8)); 


result = sieve[index >> 3] || (1 << (index & 7));

set 1 in array:

sieve[index >> 3] |= 1 << (index & 7);

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