I'm reading A Tour of C++ (2nd edition) and I came across this code (6.2 Parameterized Types):

template<typename T>
T* end(Vector<T>& x)
     return x.size() ? &x[0]+x.size() : nullptr;     // pointer to one-past-last element 

I don't understand why we use &x[0]+x.size() instead of &x[x.size()]. Does it mean that we take the address of the first element in x and just add to that number x.size() bytes?

  • 7
    Nope, we don't add 'x.size() bytes' but rather x.size() times the size of each item. And the size of an item follows from the type of a pointer obtained by &x[0]. Seek the notion of 'pointer arithmetic' in C/C++.
    – CiaPan
    May 19 at 10:21

1 Answer 1


&x[x.size()] would result in (attempting to) take the address of x[x.size()]. However x[x.size()] attempts to access an out of bound element; depending on the API of Vector<T>::operator[] for the particular T, a number of bad things could happen:

|    Vector<T>::operator[] semantics      |
| ======================================= |
| return\ contr |             |           |
| type   \ -act |  unchecked  |  checked  |
| --------------------------------------- |
| reference     |    UB (1)   |    FH     |
| value         |    UB (2)   |    FH     |
| --------------------------------------- |


  • UB (1): undefined behavior when creating a reference to an out-of-range-element.
  • UB (2): undefined behaviour when attempting to read the value of an out-of-range element.
  • FH: some fault handling action from the API if it is checked (e.g. throwing an exception, terminating, ...).

For std::vector, as an example, you would run into UB (1) as its operator[] is unchecked and returns a reference type.

Whilst you may perform pointer arithmetics to compute a pointer to one-past-last (semantically end()) of a buffer, you may not dereference a one-past-last pointer.

  • 4
    That, or the Vector<T>::operator[] might actually check its input and throw or do something else.
    – aschepler
    May 19 at 10:22
  • 2
    @adroit.levees.0r &x[x.size() - 1] is safe if size() != 0, but if would not give you a pointer to one-past-last (i.e. end()) but to last (i.e. --end()).
    – dfrib
    May 19 at 10:26
  • 1
    Taking the address of x[x.size()] does not access the element. It's that creating a reference to the element is already undefined behavior inside std::vector::operator[], which does not bounds check as per standard. May 19 at 10:39
  • 1
    What's FH? And I think (1) is not actually UB, since pointers (and refs?) to one-past-the-end array elements are allowed. May 19 at 11:36
  • 1
    @HolyBlackCat Pointer yes, Reference I believe not. A reference must "point" to a valid object or you have UB. That's why a == nullptr on a reference is always false per definition. Given a pointer T *t = &x[size]; how you would return that: return *t;. It even looks like an access. May 19 at 11:51

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.