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Why std::vector has 2 operators [] realization ?

reference       operator[]( size_type pos );
const_reference operator[]( size_type pos ) const;
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You can't see those differences, right up there in your post? – Lightness Races in Orbit Feb 13 '13 at 18:40
maintaining const correctness. What if you only had access to a constant std::vector<> object? How could you correctly access an element without the second method? – Brett Hale Feb 13 '13 at 18:43
up vote 6 down vote accepted

One for non-const vector object, and the other for const vector object.

void f(std::vector<int> & v1, std::vector<int> const & v2)
   //v1 is non-const vector
   //v2 is const vector

   auto & x1 = v1[0]; //invokes the non-const version
   auto & x2 = v2[0]; //invokes the const version

   v1[0] = 10; //okay : non-const version can modify the object
   v2[0] = 10; //compilation error : const version cannot modify 

   x1 = 10; //okay : x1 is inferred to be `int&`
   x2 = 10; //error: x2 is inferred to be `int const&`

As you can see, the non-const version lets you modify the vector element using index, while the const version does NOT let you modify the vector elements. That is the semantic difference between these two versions.

For more detail explanation, see this FAQ:

Hope that helps.

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and what's the point ? Non const will be enough. – Sergey Vystoropskyi Feb 13 '13 at 18:40
@SergeyVystoropskyi: Read the chapter in your C++ book about const. – Lightness Races in Orbit Feb 13 '13 at 18:41
@SergeyVystoropskyi: See my answer. I edited it. – Nawaz Feb 13 '13 at 18:42
@LightnessRacesinOrbit, it is not helpful to simply tell people to 'read a book' or 'google' - I'm sure the majority of questions could be answered that way. It's a legitimate question and he got a quick and concise answer, with an example. – Brett Hale Feb 13 '13 at 18:51
@Brett: We expect some level of basic effort and research to be put in before asking questions. And did you see me suggesting that this question shouldn't have been asked, or any close votes? No. – Lightness Races in Orbit Feb 13 '13 at 19:58

one so that you can modify and read from a (non const) vector

void foo( std::vector<int>& vector )
    // reference operator[]( size_type );
    int old = vector[0];
    vector[0] = 42;

one so that you can read from a const vector

void foo( std::vector<int> const& vector )
    //const_reference operator[]( size_type ) const;
    int i = vector[0];

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One of the two overloads allows you to retrieve a const reference to an element of a vector accessed through a const variable. The other one allows you to obtain a non-const reference to an element of a vector accessed through a non-const variable.

If you didn't have the const version, you wouldn't be allowed to compile the following for instance:

void f(vector<int> const& v)
    cout << v[0]; // Invokes the const version of operator []

In the following example, instead, the non-const version is invoked, which returns a non-const reference to the first element in the array and allow, for instance, to assign a new value to it:

void f(vector<int>& v)
    v[0] = 1; // Invokes the non-const version of operator[]
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To make this differentiation possible:

// const vector object, cannot be modified
// const operator[] allows for this
int get_value(const std::vector<int>& vec, size_t index)
   return vec[index];

// non-const vector object can be modified
// non-const operator[] allows for this
void set_value(std::vector<int>& vec, size_t index, int val)
   vec[index] = value;

std::vector<int> values;

set_value(values, 0, 50);
get_value(values, 0);
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