#include <vector>

struct A
    void foo(){}

template< typename T >
void callIfToggled( bool v1, bool &v2, T & t )
    if ( v1 != v2 )
        v2 = v1;

int main()
    std::vector< bool > v= { false, true, false };

    const bool f = false;
    A a;

    callIfToggled( f, v[0], a );
    callIfToggled( f, v[1], a );
    callIfToggled( f, v[2], a );

The compilation of the example above produces next error :

dk2.cpp: In function 'int main()':
dk2.cpp:29:28: error: no matching function for call to 'callIfToggled(const bool&, std::vector<bool>::reference, A&)'
dk2.cpp:29:28: note: candidate is:
dk2.cpp:13:6: note: template<class T> void callIfToggled(bool, bool&, T&)

I compiled using g++ (version 4.6.1) like this :

g++ -O3 -std=c++0x -Wall -Wextra -pedantic dk2.cpp

The question is why this happens? Is vector<bool>::reference not bool&? Or is it a compiler's bug?
Or, am I trying something stupid? :)

  • 19
    Unfortunately, despite its name, std::vector<bool> is not a vector of bool.
    – CB Bailey
    Dec 6 '11 at 11:56
  • 1
    As a workaround, you could use std::unique_ptr<bool[]>(new bool[3])...
    – Kerrek SB
    Dec 6 '11 at 12:17
  • 2
    Herb Sutter's When Is a Container Not a Container? is just about this problem.
    – legends2k
    Aug 16 '13 at 10:54
  • 1
    Howard Hinnant's article On vector<bool> says that it's a good optimization only the name should've been changed to not denote the greater meaning of a standard container.
    – legends2k
    Aug 16 '13 at 11:24

Vector is specialized for bool.

It is considered a mistake of the std. Use vector<char> instead:

template<typename t>
struct foo {
  using type = t;
struct foo<bool> {
  using type = char;

template<typename t, typename... p>
using fixed_vector = std::vector<typename foo<t>::type, p...>;

Occasionally you may need references to a bool contained inside the vector. Unfortunately, using vector<char> can only give you references to chars. If you really need bool&, check out the Boost Containers library. It has an unspecialized version of vector<bool>.

  • 3
    Nice workaround, and nice demo of the new using syntax for aliasing. Dec 6 '11 at 12:50
  • @Nawaz I swear to God that pun was intended.
    – user142019
    Apr 4 '13 at 16:05

Your expectations are normal, but the problem is that std::vector<bool> has been a kind of experiment by the C++ commitee. It is actually a template specialization that stores the bool values tightly packed in memory: one bit per value.

And since you cannot have a reference to a bit, there's your problem.

  • 7
    +1. std::vector<bool> only supports a subset of the functionality provided by std::vector. It's ugly since you have to replace bool with a different type (char) to get a working vector.
    – josefx
    Dec 6 '11 at 13:25
  • 1
    An experiment most (if not all) committee members regretted!
    – curiousguy
    Jun 12 '16 at 16:04

std::vector< bool > packs its contents so each Boolean value is stored in one bit, eight bits to a byte. This is memory-efficient but computationally intensive, since the processor must perform arithmetic to access the requested bit. And it doesn't work with bool reference or pointer semantics, since bits within a byte do not have addresses in the C++ object model.

You can still declare a variable of type std::vector<bool>::reference and use it as if it were bool&. This allows generic algorithms to be compatible.

std::vector< bool > bitvec( 22 );
std::vector< bool >::reference third = bitvec[ 2 ];
third = true; // assign value to referenced bit

In C++11, you can work around this using auto and the && specifier which automatically selects an lvalue reference bound to the vector element or an rvalue reference bound to a temporary.

std::vector< bool > bitvec( 22 );
auto &&third = bitvec[ 2 ]; // obtain a std::vector< bool >::reference
third = true; // assign value to referenced bit
  • 1
    Good answer, especially the mention of &&, which is crucial to generic code to let proxy types/iterators ever be useful. Of course, it works equally well in loops: for (auto &&it: bizarreContainer) Jul 18 '16 at 10:00

std::vector<bool> is a non conforming container. To optimize space, it packs bools and cannot provide reference.

Use boost::dynamic_bitset instead.

  • To get a kind of reference you need to use operator [] (result is dynamic_bitset::reference). There are no iterator though.
    – reder
    Dec 6 '11 at 12:00
  • 2
    -1 for not mentioning how dynamic_bitset is different or better. Of course it can't return a bool & either. Jul 16 '13 at 11:41

Just my 2 cents:

std::vector<bool>::reference is a typedef for struct _Bit_reference which is defined as

typedef unsigned long _Bit_type;

struct _Bit_reference
    _Bit_type * _M_p;
    _Bit_type _M_mask;

    // constructors, operators, etc...

    operator bool() const
    { return !!(*_M_p & _M_mask); }

Changing the function like this, it works (well, compiles at least, haven't tested):

template< typename T >
void callIfToggled( bool v1, std::vector<bool>::reference v2, T & t )
    bool b = v2;  
    if ( v1 != b )
        v2 = v1;

EDIT: I changed the condition from (v1 != v2), which wasn't a good idea, to (v1 != b).

  • 1
    It's not an extension, it's just how GCC implements the vector<bool> specialization. I don't know what standard says about this. You can see it for yourself: std_bvector.h in lib/gcc/mingw32/4.6.1/include/c++/bits. (Your directory tree might be different, but probably similar)
    – jrok
    Dec 6 '11 at 12:32
  • Sure, it works, for this one specific case - further illustrating why vector<bool> is an awful misnomer - as it becomes incredibly difficult, tedious, or impossible to use in generic code situations that work for other, actual containers. Still, I think a usable workaround here would be to use template<typename B, typename T> void callIfToggled(B &&v1, B &&v2, T &&t) and rely on the conversion operator from v2 - which I guess is another reason to be thankful for forwarding references. Doesn't excuse the wrong choice of name, though! Jul 18 '16 at 10:10

Make a structure with a bool in it, and make the vector<> using that struct type.


vector<struct sb> where sb is struct {boolean b];

then you can say



typedef struct sbool {bool b;} boolstruct; and then vector<boolstruct> bs;

  • You don't need struct or typedef in C++
    – Yashas
    Apr 1 '18 at 17:51

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