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I am not sure whether this is possible because as far as I know, references cannot refer to individual bits in an integer, but I am curious to know whether there is a technique that will enable the following effect.

int z = 0x1234;
z[0] = 1; //set the most significant bit of z.
uint8_t bit = z[30] //get the index 30 bit of z, counting from the left.

If I cannot have z[0] = 1, I wonder if it is at least possible to be able to extract bits using the overloading operation.

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operator overloading does not work for builtin types, but you can create your own integer class and overload [] for your class? –  Saqlain Feb 26 '13 at 9:32
Why use the index operator at all? That would needlessly obscure the code, since it's not the normal use of indexing operators. Better provide a function that explicitly states what it's doing. –  Arne Mertz Feb 26 '13 at 9:43

3 Answers 3

up vote 5 down vote accepted

Not directly. You can either write a wrapper over int or use a std::bitset.

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Can I define a wrapper that behaves in every way like an int except with a different name and this operation enabled? –  merlin2011 Feb 26 '13 at 9:34
@merlin2011: You can't imitate int exactly. For example, the conversion from int to long is built-in, and thus it can participate in a conversion chain that includes a user-defined conversion. The conversion from your type to long will be user-defined, and therefore would run up against the limit of one user-defined conversion in any chain. You can give your type all the same operators as int, AFAIK it's only the conversions that will behave differently from the guaranteed behavior of int. –  Steve Jessop Feb 26 '13 at 9:40
@merlin2011 yes, you can provide implicit conversions from and to ints for that wrapper. However, this is seldom a good idea, since typos and logical errors that otherwise would have been remarked by the compiler could become legal code and introduce hard-to-track bugs. –  Arne Mertz Feb 26 '13 at 9:40
@ArneMertz surely if you want the type to behave as an integer,these implicit conversions are desirable? I cannot think of a situation where they would not be. –  juanchopanza Feb 26 '13 at 9:47
@merlin2011 I started implementing something for you but decided to recommend bitset instead. You can convert it to an unsigned long, or unsigned long long with C++11. –  Peter Wood Feb 26 '13 at 9:48

You cannot overload operators for built-in types. Overloaded operators must include at least one user-defined type (i.e. a class or union type).

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If you're going to wrap int, you could do it something like this:

class bitval {
    int &val;
    unsigned int mask;
    bitval(int &i, int idx) : val(i), mask(((unsigned int)(INT_MAX) + 1) >> idx) {}
    bitval &operator=(int i)  {
        if (i) {
            val |= mask;
        } else {
            val &= ~mask;
        return *this;
    operator bool() const {
        return val & mask;

class bit {
    int &val;
    bit(int &i) : val(i) {}
    bitval operator[](int idx) { return bitval(val, idx); }

Then the syntax would be:

int z = 0x1234;
bit(z)[0] = 1;
uint8_t b = bit(z)[30];

Btw, C++ programmers usually refer to the least significant bit as bit 0, not the most significant bit, so mask(1 << idx) might make things less confusing for them.

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