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I have a templated class that has a data member of type std::vector<T>, where T is also a parameter of my templated class.

In my template class I have quite some logic that does this:

T &value = m_vector[index];

This doesn't seem to compile when T is a boolean, because the [] operator of std::vector does not return a bool-reference, but a different type.

Some alternatives (although I don't like any of them):

  • tell my users that they must not use bool as template parameter
  • have a specialization of my class for bool (but this requires some code duplication)

Isn't there a way to tell std::vector not to specialize for bool?

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What is the exact error? – Anony-Mousse Jan 17 '13 at 17:41
Could you just replace T& with typename std::vector<T>::reference_type? – templatetypedef Jan 17 '13 at 17:43
Can you maybe specialize just parts of your code for std::vector<bool>, too? Kind of an adapter template, that is the same for everything except bool. But for all I know, std::vector<bool> is quite an oddball anyway, and breaks a lot of stuff. – Anony-Mousse Jan 17 '13 at 17:46

6 Answers 6

up vote 6 down vote accepted

You simply cannot have templated code behave regularly for T equal to bool if your data is represented by std::vector<bool> because this is not a container. As pointed out by @Mark Ransom, you could use std::vector<char> instead, e.g. through a trait like this

template<typename T> struct vector_trait { typedef std::vector<T> type; };
template<> struct vector_trait<bool> { typedef std::vector<char> type; };

and then use typename vector_trait<T>::type wherever you currrently use std::vector<T>. The disadvantage here is that you need to use casts to convert from char to bool.

An alternative as suggested in your own anser is to write a wrapper with implicit conversion and constructor

template<typename T>
class wrapper
        wrapper() : value_(T()) {}
        /* explicit */ wrapper(T const& t): value_(t) {}
        /* explicit */ operator T() { return value_; }
        T value_;

and use std::vector< wrapper<bool> > everywhere without ever having to cast. However, there are also disadvantages to this because standard conversion sequences containing real bool parameters behave differently than the user-defined conversions with wrapper<bool> (the compiler can at most use 1 user-defined conversion, and as many standard conversions as necessary). This means that template code with function overloading can subtly break. You could uncomment the explicit keywords in the code above but that introduces the verbosity again.

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A std::vector<bool> is not even a standard container – K-ballo Jan 17 '13 at 20:57
@K-ballo tnx, updated. – TemplateRex Jan 17 '13 at 21:06
+1 I prefer this type trait to the one my solution proposes. – Konrad Rudolph Jan 17 '13 at 21:07
@KonradRudolph yeah, you don't want to override bool, but only vector<bool>. If only the committee had added a bitvector and let vector<bool> be a regular vector... – TemplateRex Jan 17 '13 at 21:12
This is indeed an elegant and good implementation. Thanks – Patrick Jan 18 '13 at 10:29

Use std::vector<char> instead.

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Would the following work for you?

template <typename T>
struct anything_but_bool {
    typedef T type;

template <>
struct anything_but_bool<bool> {
    typedef char type;

template <typename T>
class your_class {
    std::vector<typename anything_but_bool<T>::type> member;

Less flippantly, the name anything_but_bool should probably be prevent_bool or similar.

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Your answer gave me some inspiration. Can you take a look at my answer and tell me what you think of it? – Patrick Jan 18 '13 at 10:51

I found an even more elegant solution, based on all of your input.

First I define a simple class that holds one member. Let's call this wrapperClass:

template <typename T>
class wrapperClass
      wrapperClass() {}
      wrapperClass(const T&value) : m_value(value) {}
      T m_value;

Now I can define my std::vector in my templated class like this:

std::vector<wrapperClass<T>> m_internalVector;

Since sizeof(WrapperClass<bool>) is also 1, I expect that sizeof(WrapperClass<T>) will always be equal to sizeof(T). Since the data type is now not a bool anymore, the specialization is not performed.

In places where I now get an element from the vector, I simply replace




But this seems much more elegant than using traits to replace bool by char, and then using casts to convert between char and bool (and probably reinterpret casts to convert char& to bool&).

What do you think?

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Wouldn't it be even shorter to write template<typename T> struct wrapper { T value_; }; without the constructors? – TemplateRex Jan 18 '13 at 10:55
BTW, you only need static_cast, not reinterpret_cast for my answer. – TemplateRex Jan 18 '13 at 10:57
Then there is no automatic casting from T to wrapperClass<T>, and no default constructor, which leaves the value in the struct undefined. In my case, I need to do a resize of the vector, and so I need the default constructor. – Patrick Jan 18 '13 at 11:02
static_cast fails when casting references. You cannot statically-cast a char-reference to a bool-reference. – Patrick Jan 18 '13 at 11:04
If at all, I would only wrap bool and not the other types (using traits) and then provide implicit conversions so that you don’t have to write foo[index].m_value but can use foo[index] as if it were a proper bool. – Konrad Rudolph Jan 18 '13 at 11:08

You could use a custom proxy class to hold the bools.

class Bool
    Bool() = default;
    Bool(bool in) : value(in) {}

    Bool& operator=(bool in) {value = in;}
    operator bool() const& {return value;}

    bool value;

This might require a bit of tweaking for your purposes, but it's usually what I do in these cases.

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Your answer gave me some inspiration. Can you take a look at my answer and tell me what you think of it? – Patrick Jan 18 '13 at 10:50

There is a ways to prevent the vector<bool> specialization: Passing a custom allocator.

std::vector<bool, myallocator> realbool; 

The following article has some details:

Of course, this requires that you have control over the vector definitions, so it's probably not really a solution for you. Apart from that, it also has some downsides of it's own...

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