So I'm trying to write a method that adds an element to my array. My find_key() method returns a pointer that points to an element that is either equal to or greater than one found in the existing array. Is there a way I can find the index of the element that my pointer from find_key() points to?

Here's what I'm working with so far

template<typename K, typename V>
bool MapSet<K,V>::add(Node<K,V> n)
{
  Node<K, V> *ptr = find_key(n.first);
  if (size() == capacity_)
  {
    capacity_ *= 2; // Double capacity
    auto *new_data = new [capacity_]; // New array with double capacity
    copy(ary_, ary_+last_, new_data); // Copy over
    swap(ary_, new_data); // Swap pointers
    delete [] new_data; // Delete old array pointer (old since swapped)
  }
  if (size() == 0)
  {
    ary_[0].first = n.first;
    ary_[0].second = n.second;
    return true;
  }
  else if (ptr == ary_+last_)
  {
    ary_[ptr].first = n.first;
    ary_[ptr].second = n.second;
    return true;
  }
  else if ((*ptr) == n.first)
  {
    return false;
  }
  else if ((*ptr) !== n.first)
  {
    ary_[ptr-1].first == n.first;
    ary_[ptr-1].second == n.second;
    return true;
  }

}
  • Beware that since you find ptr before preforming reallocation, if ptr points to an element of ary_, it will be danling pointer whenever reallocation occurs. Though now that I've re-read the question, it seems like that's what you might be trying to solve. – François Andrieux Apr 16 at 18:23
  • 4
    You are probably looking for std::distance. – François Andrieux Apr 16 at 18:24
  • @ François Andrieux Thank you! – Mac Swan Apr 16 at 18:29

Since you're working with pointers, you can get the index into the array by simply substracting the pointer to the first element in the array from the found pointer. So

Node<V, K>* ptr = ...
size_t index = static_cast<size_t>(ptr - ary_);

Should do the trick (If the array is from type Node<V, K>[]). In case your class supports iterators, you can also use std::distance instead.

  • 3
    This solution works. But I'd like to point out that pointers meet the requirements for a random access iterator and are compatible with iterator based algorithms such as std::distance. – François Andrieux Apr 16 at 18:35
  • "In case your class supports iterators..." you misunderstand. Every pointer to an array element is an iterator. std::distance is more flexible. Not less. – Drew Dormann Apr 16 at 19:25

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