16

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?

1
  • 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, 2022 at 10:21

1 Answer 1

17

&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     |
| --------------------------------------- |

with

  • 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.

10
  • 4
    That, or the Vector<T>::operator[] might actually check its input and throw or do something else.
    – aschepler
    May 19, 2022 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, 2022 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, 2022 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, 2022 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, 2022 at 11:51

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