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What is the difference between boost::container::vector and std::vector?

3
  • 1
    I found a related question that probably answers this one as well: stackoverflow.com/questions/22584685/…
    – jfritz42
    Commented Oct 1, 2015 at 22:32
  • 1
    IIRC, Boost.Container is compatible with Boost.Move, meaning its containers support move semantics without C++11.
    – chris
    Commented Oct 1, 2015 at 22:38
  • @jfritz42 agreed, where my comment is extra relevant for you since you're using a vector
    – sehe
    Commented Oct 1, 2015 at 22:39

2 Answers 2

14

A case where you may need the boost version instead of the standard version is when you encounter the <bool> specialization.

std::vector<bool> is implemented as a bitset, it doesn't store its element as an array of bool.

This means for instance the following code will not work:

template<T>
void handleElement(T &element);

// suppose we get a bool vector:
std::vector<bool> v = ....;
// then this fails because v[i] is a proxy object
handleElement(v[0]);

boost::container::vector<bool> has no such specialization.

5

There are several differences that I could compile:

° No specialization of boost::container::vector<bool> (source @roeland)

decltype(std::vector<bool>(10)[0]) == std::_Bit_reference
decltype(boost::container::vector<bool>(10)[0]) == bool&

° Uses Boost allocator infrastructure, which (especially in C++1x) is more flexible that the standard allocator, doesn't ignore certain traits that are provided by the allocator. (source: http://www.boost.org/doc/libs/1_59_0/doc/html/interprocess/allocators_containers.html#interprocess.allocators_containers.containers_explained.stl_container_requirements)

std::vector<double>::allocator_type == std::allocator<double>
boost::container::vector<double>::alloctor_type == boost::container::new_allocator<double>

In particular, one can still specify the reference and pointer types to be different from T& and T* (see Is it still possible to customize STL vector's "reference" type?)

° Support for recursive containers (source: The Boost C++ Libraries by Boris Schäling).

Some (old?) implementations of STL didn't support incomplete value types (they were not required in the first place), in particular recursive containers.

using boost::container::vector;

struct animal{
    vector<animal> children; // may not work with std::vector
};

int main(){
    animal parent;
    animal child1;
    animal child2;

    parent.children.push_back(child1);
    parent.children.push_back(child2);
}

° std::vector is a specification not an implementation. There is only one implementation boost::container::vector across all platforms, so more assumptions can be made (for example originally std::vector was not required to use contiguous memory) (source: The Boost C++ Libraries by Boris Schäling).

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