-1

so basically i m trying to use the assignment operator in way to allocate 2 vars :

S solutionCourante, bestSolution; //(S is a template class)
bestSolution = solutionCourante = solutionInitiale;

Here is the operator i'm dealing with :

template <class S, class T>
const Graphe<S,T> & Graphe<S,T>::operator = (const Graphe<S,T> & graphe)
{

this->lSommets = graphe.lSommets->copieListe(graphe.lSommets);
this->lAretes = graphe.lAretes->copieListe(graphe.lAretes);

return *this;
}

Here is my copy constructor :

template <class S, class T>
Graphe<S,T>::Graphe(const Graphe<S,T> & graphe)
{
 *this = graphe;
}

(I know the constructor copy is a bit bad coded but works)

So at any time, i can see that "bestSolution" and "solutionCourante" are not NULL but empty, and i don't understand why because in my operator "monGraphe" is filled. So it seems like i m doing something wrong when returning the value, first time i m trying to do this operator.

According to :

const Graphe<S,T> & Graphe<S,T>::operator = (const Graphe<S,T> & graphe)

graphe is the item i want to copy and we got *this = graphe?

7
  • Since when is = the "allocation operator"?
    – T.C.
    Feb 25, 2015 at 15:41
  • Hello, english is not my native language sorry, maybe "affectation" is better?
    – rilent
    Feb 25, 2015 at 15:43
  • @rilent, that is called an assignment operator. Please edit your title so it is more accurate.
    – R Sahu
    Feb 25, 2015 at 15:46
  • Why do you use new? You should assign every member of *this, not create a new element.
    – amchacon
    Feb 25, 2015 at 15:52
  • Read up on The Rule of Three. Here's a starter link.
    – R Sahu
    Feb 25, 2015 at 15:54

2 Answers 2

2

An assignment operator is supposed to assign a value to "this", not allocate a new one.

template <class S, class T>
Graphe<S,T> & Graphe<S,T>::operator = (const Graphe<S,T> & graphe)
{
    lSommets = graphe.lSommets ? new PElement<Sommet<T>>(*graphe.lSommets) : nullptr;
    lAretes = graphe.lAretes ? new PElement<Arete<S,T>>(*graphe.lAretes) : nullptr;
    prochaineClef = graphe.prochaineClef;
    return *this;
}
template <class S, class T>
Graphe<S,T>::Graphe(const Graphe<S,T> & graphe)
{
    *this = graphe;
}

Generally speaking, you should not return something allocated on the heap with new, because any ownership information is lost. You should probably try to use smart pointers such as std::unique_ptr.

4
  • 1
    You have memleak with operator = as you don't delete previous pointer. Once corrected, your constructor will probably invoke UB as lSommets and lAretes are not initialized.
    – Jarod42
    Feb 25, 2015 at 16:05
  • i ve fixed it by coding 1 method -> copylist()
    – rilent
    Feb 25, 2015 at 16:07
  • This answer is topsy-turny as to the way it is usually done. The copy constructor is to do the bulk of the work, while the assignment operator uses copy/swap, using the copy constructor as a "helper". Feb 25, 2015 at 16:08
  • Sorry this wasn't meant to be an ideal solution, just an answer to the "assignment" misconception.
    – florian
    Feb 25, 2015 at 16:13
1

An answer was already posted, but uses a method of having the assignment operator doing most of the work.

Since you already coded the copy constructor, your assignment operator should be written using the copy/swap idiom: What is the copy-and-swap idiom?

What's usually done (if you want synergy between assignment operator and copy constructor) is to have the copy constructor do the bulk of the work, while the assignment operator utilizes the copy constructor (and destructor).

Here is your code using copy/swap:

#include <algorithm>
//...
template <class S, class T>
class Graphe 
{
    //...
    friend void swap(Graphe<S,T>& lhs, Graphe<S,T>& rhs)
    {
        std::swap(lhs.lAretes, rhs.lAretes);
        std::swap(lhs.lSommets, rhs.lSommets);
        std::swap(lhs.prochaineClef, rhs.prochaineClef);
    }
  //...
};
//...
template <class S, class T>
Graphe<S,T>::Graphe(const Graphe<S,T> & graphe) : 
{
    lSommets = graphe.lSommets ? new PElement<Sommet<T>>(*graphe.lSommets) : nullptr;
    lAretes = graphe.lAretes ? new PElement<Arete<S,T>>(*graphe.lAretes) : nullptr;
    prochaineClef = graphe.prochaineClef;
}

template <class S, class T>
Graphe<S,T>& Graphe<S,T>::operator = (Graphe<S,T> graphe)
{
    swap(*this, graphe);
    return *this;
}

A function called swap was added to the template class that merely swaps all of the members between the left and right hand parameter. I emphasize all in the event that you didn't post all of your class members.

Assuming that your copy constructor is bug free, and your destructor is working and is bug-free, the code above will work correctly.

Edit: Made swap a friend function, as suggested by comments from T.C.

3
  • i really didnt know about that, thanks for the further infos, i ve tested it and it works nice. So it's more like a coding choice but using the copy/swap method is the true one.
    – rilent
    Feb 25, 2015 at 16:55
  • It is more than a "choice". Writing an assignment operator this way guarantees it will work, provided that you have a working copy constructor and destructor. The link I posted in the answer shows why. Feb 25, 2015 at 16:56
  • swap should probably be a friend, not a member (or if a member, should swap the argument and *this).
    – T.C.
    Feb 25, 2015 at 17:17

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