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I have the following sample code to explain my question. Per the STD map container doc (http://www.cplusplus.com/reference/map/map/operator%5B%5D/), the operator[] (or "at" method) returns reference to the mapped value. I see why Line 13 compiles and works correctly (when I insert an element into vec1, the mapped value in map gets updated). I don't understand why Line 13 does not cause a compile error since vec1 is not a reference and operator[] returns a reference.

  1 #include <map>
  2 #include <vector>
  4 using namespace std;
  6 int main()
  7 {
  8     map<int, vector<int> > port;
 10     port[1] = vector<int>(1, 10);
 12     vector<int> &vec1 = port[1];    // <===
 13     vector<int> vec2 = port[1];   // <===
 15     return 0;
 16 }

I thought maybe the actual implementation of operator[] is overloaded to return both types (value and reference). However, when I looked through the "map" header file, it did not seem to (unless I am missing something):

File : /usr/include/c++/4.7/profile/map.h

      // element access:
      operator[](const key_type& __k)
        __profcxx_map_to_unordered_map_find(this, size());
        return _Base::operator[](__k);

      operator[](key_type&& __k)
        __profcxx_map_to_unordered_map_find(this, size());
        return _Base::operator[](std::move(__k));

Can someone please help me understand this?

share|improve this question
But vec1 is a reference. – juanchopanza Oct 24 '13 at 6:00
Sorry, I meant line 13, where vec2 is not a reference. (I corrected my original question). – Ahmed A Oct 24 '13 at 6:10
up vote 6 down vote accepted

Types are usually copy-constructable from a reference. So vec2 is just a copy of the value referred to by the reference returned by port[1]. This is a simpler example involving ints:

int i = 42;
int j& = i; // j is a reference to i
int k = j;  // k is a copy of the int that j refers to, i.e. i.

Concerning your hypothesis about the two return types, you cannot overload a function by return value.

share|improve this answer
Thank you. Your explanation and further reading up on "c++ copy-constructible" clarified what's happening and why. (cplusplus.com/reference/type_traits/is_copy_constructible ) – Ahmed A Oct 24 '13 at 6:23
I accidentally ran into this issue, by forgetting to put the & when I declared vec type (as in Line 13), and took me a while to figure out the issue. This seems like an easy mistake to make, with serious consequence. Is there a way I can turn on some compiler options to give a warning for such occurence. – Ahmed A Oct 24 '13 at 6:48
@AhmedA I doubt any compiler would issue warnings, because it is perfectly legitimate. It isn't usual to bind a reference to the return value. The typical use-case is to do something like post[1].push_back(42) etc. – juanchopanza Oct 24 '13 at 7:40

Line 12 initialises vec1 to be a reference to port[1] (or, more accurately, the vector<int> object that port[1] refers to). So any change to vec1 also changes port[1].

Line 13 initialises vec2 to be a copy of port[1]. So any change to vec2 does not affect port[1].

share|improve this answer

Not sure if I understood your question correctly, so, I'll just try to explain to you what's going on in 12 and 13 lines.

vector<int> &vec1 = port[1];

Here you're creating a reference to a vector and initialize it with port[1]. So, in fact, they're pointing to the same memory location now.

vector<int> vec2 = port[1];

Here you're creating a new vector and copy all data from port[1] to it. They contains the same data, but they are not pointing to the same memory location.

So, if you'll do this:


You'll see, that port[1] now contains a new appended element - 1.

share|improve this answer

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