5

So I have the following class...

class Pet
{
    public:
        Pet() : id(0),
            name("New Pet")
        {

        }

        Pet(const int new_id, const std::string new_name) : id(new_id),
            name(new_name)
        {

        }

        Pet(const Pet new_pet) : id(new_pet.id),
            name(new_pet.name)
        {

        }
    private:
        const int id;
        const std::string name;
};

Somewhere in my code I then create a instance of this class like so...

Pet my_pet = Pet(0, "Henry");

Later on in my code, an event is supposed to cause this pet to be deleted. delete(my_pet);

How do I check if my_pet has been initialized...

Would something like this work?

if(my_pet == NULL)
{
    // Pet doesn't exist...
}
2
  • my_pet doesn't need to be deleted as it is non a dynamically allocated object. Do you mean Pet* my_pet = new Pet(0, "Henry"); ?
    – Levi
    May 12, 2015 at 23:38
  • 2
    You should probably be taking your const Pet and const std::string arguments as reference, here Pet(const Pet new_pet) and here Pet(const int new_id, const std::string new_name) for efficiency, there's not a need to copy data here. May 12, 2015 at 23:39

2 Answers 2

10

Assuming you mean

Pet* my_pet = new Pet(0, "Henry");

instead of Pet my_pet = Pet(0, "Henry");
You can initialise your Pet object to NULL (or nullptr for C++11) like so:

Pet* pet = NULL; // or nullptr

and later assign it an instance of Pet:

pet = new Pet(0, "Henry");

This allows you to check the value of pet without invoking undefined behaviour (through uninitialised variables):

if (pet == NULL) // or nullptr
{
    ...
}
3
  • This is what I was looking for, thanks @Levi. How would I go about forcing the deletion of the pet... For example, Say a Pet was assigned to my_pet. But at some point I want to make my_pet not hold a pet. Would this work...? my_pet = NULL;
    – Ricky
    May 13, 2015 at 0:27
  • 1
    you can just call delete pet
    – Levi
    May 13, 2015 at 0:28
  • 1
    @Ricky "should work great then. " No, i don't really think so. You shouldn't need to manage new/´delete` on your own. Use smart pointers, as mentioned with my answer instead. May 13, 2015 at 0:41
0

delete(my_pet); doesn't make sense, neither by the signature used (should be delete my_pet;, if valid).

With your code

Pet my_pet = Pet(0, "Henry");

no dynamic memory allocation was involved, thus you don't ever need to call delete my_pet;

The object instance will be destroyed as soon the scope where you called Pet my_pet = Pet(0, "Henry"); is left.


As for your comment "How would I go about forcing the deletion of the pet.", you should use dynamic memory management smart pointers, rather calling new Pet() and bothering about forcing deletion yourself.

If you really need dynamic memory allocation for Pet, rather use something like

std::unique_ptr<Pet> my_pet(new Pet(0, "Henry"));`
4
  • delete(my_pet) is perfectly valid
    – Levi
    May 13, 2015 at 3:59
  • @Levi Sure?? You did notice that my_pet isn't even a pointer variable, didn't you? May 13, 2015 at 15:06
  • well, if delete my_pet is valid, it is safe to assume that delete (my_pet) is too
    – Levi
    May 13, 2015 at 19:57
  • oh wait my bad, I misread the answer to mean 'you should use delete my_pet instead of delete (my_pet)
    – Levi
    May 13, 2015 at 20:00

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