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Is this a safe workaround? I want to use vector bool but need to pass a pointer to old code expecting C-style array.

typedef std::basic_string<bool> vector_bool;

int main()
{
    vector_bool ab;
    ab.push_back(true);
    ab.push_back(true);
    ab.push_back(true);
    ab.push_back(false);
    bool *b = &ab[0];
    b[1] = false;
}

Edit: Thanks for suggestions of other solutions, but I would really like a definate answer on my above solution. Thanks.

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2  
Does your old code want packed bits or each bool at a separately addressable location? –  us2012 Mar 7 '13 at 14:39
2  
What about vector<char>? –  jrok Mar 7 '13 at 14:42
1  
and how old is the C code? are you sure C's _Bool type has the same representation as C++'s bool? –  Jonathan Wakely Mar 7 '13 at 14:43
2  
If I use vector<char>, I cannot pass to a (bool *) parameter as it might not be the same size. –  Neil Kirk Mar 7 '13 at 14:45
2  

3 Answers 3

I'm not sure about std::basic_string<bool> because that will instantiate std::char_traits<bool> and I'm not sure if the standard requires that to be defined, or if the char_traits primary template can be left undefined, with only explicit specializations such as char_traits<char> being defined. You're not allowed to provide your own specialization of char_traits<bool> because you can only specialize standard templates if the specialization depends on a user-defined type, which bool obviously isn't. That said, it might work if your stdlib does have a default char_traits definition, and you don't try to use an string operations that require members of char_traits to do anything useful.

Alternatively, this is hacky but might work:

struct boolish { bool value; };
inline boolish make_boolish(bool b) { boolish bish = { b }; return bish; }

std::vector<boolish> b;
b.push_back( make_boolish(true) );
bool* ptr = &b.front().value;

boolish is a trivial type, so as long as an array of boolish has the same representation as an array of bool (which you'd need to check for your compiler, I used a static_assert to check there is no padding) then you might get away with it, although it probably violates the aliasing rules because *ptr and *++ptr are not part of the same array, so incrementing the pointer doesn't point to the next boolish::value it points "past the end" of the previous one (even if those two locations actually have the same address, although [basic.compound]/3 does seem to say that ++ptr does "point to" the next bool).

The syntax gets a bit easier with C++11, you don't need make_boolish ...

#include <vector>
#include <assert.h>

struct boolish { bool value; };

int main()
{
  std::vector<boolish> vec(10);
  vec.push_back( boolish{true} );
  bool* ptr = &vec.front().value;
  assert( ptr[10] == true );
  ptr[3] = true;
  assert( vec[3].value == true );

  static_assert( sizeof(boolish) == sizeof(bool), "" );
  boolish test[10];
  static_assert( sizeof(test) == (sizeof(bool)*10), "" );
}
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Thanks for your suggestion, but I have a couple of questions. First, are you sure I can safely make pointer to boolish as bool *, there will no be hidden padding? Second, my question is about whether the specific workaround I posted will work. Thanks. –  Neil Kirk Mar 7 '13 at 14:50
    
@NeilKirk, answer updated with my thoughts on basic_string<bool> –  Jonathan Wakely Mar 7 '13 at 15:14
    
Isnt it possible to add a few ~"operator bool" functions to the boolish struct, and make it even more conveniant? –  Viktor Sehr Mar 7 '13 at 16:07
    
Standard-layout guarantees the invariants here, I believe. –  Puppy Mar 7 '13 at 16:35

Everything Jonathan Weekly said.

But I would go simpler:
I would use:

assert(sizeof(bool) == sizeof(char));
typedef std::vecor<char> vector_bool;  // Now all the rest of your code works as expected
                                       // without the need for a maker function.
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1  
Given that sizeof(bool)==sizeof(char), which isn't guaranteed by the standard. But Ok, should usually be true in practice. –  Christian Rau Mar 7 '13 at 15:33

From "Working Draft C++, 2012-11-02"

21.1 General [strings.general]
1 This Clause describes components for manipulating sequences of any non-array POD (3.9) type.

21.4.1 basic_string general requirements [string.require]
5 The char-like objects in a basic_string object shall be stored contiguously. That is, for any basic_string object s, the identity &*(s.begin() + n) == &*s.begin() + n shall hold for all values of n such that 0 <= n < s.size().

but

6 References, pointers, and iterators referring to the elements of a basic_string sequence may be invalidated by the following uses of that basic_string object:
— as an argument to any standard library function taking a reference to non-const basic_string as an argument.233
— Calling non-const member functions, except operator[], at, front, back, begin, rbegin, end, and rend.

So, you should be safe as long as you pay attention, not to call these functions, while you use the raw array somewhere else.

Update:

Character traits and requirements are described in 21.2 Character traits [char.traits] and 21.2.1 Character traits requirements [char.traits.require]. Additionally, typedefs and specializations are described in 21.2.2 traits typedefs [char.traits.typedefs] and 21.2.3 char_traits specializations [char.traits.specializations] respectively.

These traits are used in the Input/output library as well. So there are requirements, like eof() or pos_type and off_type, which don't make sense in the context of basic_string.

I don't see any requirement for these traits to be actually defined by an implementatin, besides the four specializations for char, char16_t, char32_t and wchar_t.

Although, it worked out of the box with gcc 4.7 with your example, I defined a minimal bool_traits with just

struct bool_traits {
    typedef bool char_type;
    static void assign(char_type &r, char_type d);
    static char_type *copy(char_type *s, const char_type *p, std::size_t n);
    static char_type *move(char_type *s, const char_type *p, std::size_t n);
};

took the default implementation provided (gcc 4.7), and used that like

std::basic_string<bool, bool_traits> ab;

Your environment might already provide a working implementation. If not, you can implement a simple bool_traits or a template specialization std::char_traits<bool> yourself.

You can see the complete interface for character traits in the Working Draft, PDF or at cppreference.com - std::char_traits.

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2  
A deque will not guarantee all elements are contiguous as far as I know. Also, I am only interested in whether my proposed solution will work. Thanks. –  Neil Kirk Mar 7 '13 at 16:55
1  
Random access iterators, yes, but not all elements are contiguous, it stores them in "pages" so you get several contiguous blocks, not a single large contiguous block. So passing it to something expecting an array won't work. Only vector and basic_string guarantee contiguous storage –  Jonathan Wakely Mar 7 '13 at 17:19
    
@JonathanWakely You're right, there's no mention of contiguous memory in deque, fixed. –  Olaf Dietsche Mar 7 '13 at 17:31
    
Thank you, this is almost it!!!! Do you have any comment on the char_traits possible issue mentioned by Jonathan Wakely? I don't know anything about them. –  Neil Kirk Mar 8 '13 at 1:16

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