Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Is using a vector of boolean values slower than a dynamic bitset?

I just heard about boost's dynamic bitset, and I was wondering is it worth the trouble. Can I just use vector of boolean values instead?

share|improve this question
3  
Since it depends on how you use it, the relative size of your container and CPU cache(s), and probably various other factors ... what happened when you benchmarked it? –  Useless May 24 '13 at 15:36

3 Answers 3

up vote 10 down vote accepted

A great deal here depends on how many Boolean values you're working with.

Both bitset and vector<bool> normally use a packed representation where a Boolean is stored as only a single bit.

On one hand, that imposes some overhead in the form of bit manipulation to access a single value.

On the other hand, that also means many more of your Booleans will fit in your cache.

If you're using a lot of Booleans (e.g., implementing a sieve of Eratosthenes) fitting more of them in the cache will almost always end up a net gain. The reduction in memory use will gain you a lot more than the bit manipulation loses.

Most of the arguments against std::vector<bool> come back to the fact that it is not a standard container (i.e., it does not meet the requirements for a container). IMO, this is mostly a question of expectations -- since it says vector, many people expect it to be a container (other types of vectors are), and they often react negatively to the fact that vector<bool> isn't a container.

If you're using the vector in a way that really requires it to be a container, then you probably want to use some other combination -- either deque<bool> or vector<char> can work fine. Think before you do that though -- there's a lot of (lousy, IMO) advice that vector<bool> should be avoided in general, with little or no explanation of why it should be avoided at all, or under what circumstances it makes a real difference to you.

Yes, there are situations where something else will work better. If you're in one of those situations, using something else is clearly a good idea. But, be sure you're really in one of those situations first. Anybody who tells you (for example) that "Herb says you should use vector<char>" without a lot of explanation about the tradeoffs involved should not be trusted.

share|improve this answer
1  
I'd say that if you're using a std::vector<bool> correctly and you're aware of how it differs from other std::vectors, then it's a good idea to at least add a typedef to give it some more appropriate name. This could avoid confusion for future readers who may not be aware of this. Do you agree? (+1 for bringing up a very good alternate view) –  Agentlien May 24 '13 at 15:55
1  
@Agentlien: Whether a typedef makes sense will depend on whether you really have a better name to give to the type. For a sieve of Eratosthenes, for example, I think just vector<bool> is fine. –  Jerry Coffin May 24 '13 at 15:57
    
@JeffreyCoffin: Yes, for something like that I wouldn't bother either. –  Agentlien May 24 '13 at 16:08

You should usually avoid std::vector<bool> because it is not a standard container. It's a packed version, so it breaks some valuable guarantees usually given by a vector. A valid alternative would be to use std::vector<char> which is what Herb Sutter recommends.

You can read more about it in his GotW on the subject.

Update:

As has been pointed out, vector<bool> can be used to good effect, as a packed representation improves locality on large data sets. It may very well be the fastest alternative depending on circumstances. However, I would still not recommend it by default since it breaks many of the promises established by std::vector and the packing is a speed/memory tradeoff which may be beneficial in both speed and memory.

If you choose to use it, I would do so after measuring it against vector<char> for your application. Even then, I'd recommend using a typedef to refer to it via a name which does not seem to make the guarantees which it does not hold.

share|improve this answer

It appears that the size of a dynamic bitset cannot be changed: "The dynamic_bitset class is nearly identical to the std::bitset class. The difference is that the size of the dynamic_bitset (the number of bits) is specified at run-time during the construction of a dynamic_bitset object, whereas the size of a std::bitset is specified at compile-time through an integer template parameter." (from http://www.boost.org/doc/libs/1_36_0/libs/dynamic_bitset/dynamic_bitset.html) As such, it should be slightly faster since it will have slightly less overhead than a vector, but you lose the ability to insert elements.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.