I am not sure how to properly do this, first i created a vector to store objects, for example

vector<dog> mydogs;

After that i have a function that add dogs to my vector every time i press space bar, so now i tried to do this,

mydogs.pushback(new dog());

It was complaining that the argument type did not match, so i change the vector to the code bellow because i want to store pointers on my vector.

vector<&dog> mydogs;

I have this simple iterator that i want to check the state of dogs and do something with them.

for(auto x = mydogs.begin(); x != mydogs.end();x++){...}

But i can't access the iterator now, i am kind of lost even think of this.


A vector of pointers to dogs:

std::vector<dog *>

When you use the new operator, it returns a pointer. So if you want dynamically allocated doggies try this:

  std::vector<dog *> animals;
  animals.push_back(new dog);

I suggest you look at smart pointers because the vector will not deallocate memory that a dog occupies; it just destroys the leash.

  • i get that part, the problems that i have is access it with the iterator that I've showed above. – Daniel Sega Nov 20 '13 at 23:59
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    To access a dog: animals[4]->bark(); To access using an iterator: (*iterator)->bark(); – Thomas Matthews Nov 21 '13 at 0:20
  • Thanks, that's was what i wanted. But why do i have to use parentheses + star and why doesn't the deference operator work on that? – Daniel Sega Nov 21 '13 at 1:00
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    The iterator is a pointer. Dereferencing the iterator refers to an item in the vector, which is a pointer to a dog. So dereferencing the iterator yields a pointer. The parenthesis is for readability and to control the precedence. The parenthesis shows that the contents inside are a pointer and that the bark method is associated with that item. Otherwise, you have to double derefence then access the member, something like **iter.bark(). This raises the question of what the '.' belongs to. The other choice is *iter->bark(), which asks "what is the -> applied to?" – Thomas Matthews Nov 21 '13 at 1:15

Whelp. Your first attempt was pretty fine. You want to store a collection of dogs, neither references nor pointers.

vector<dog> mydogs;

If you want to add a puppy, you can simply resize your container:

mydogs.resize(mydogs.size() + 1);

Or if you have a specific dog, you can add it too:

dog LordFleuroVanHautendeck;

Or even in one line:

mydogs.push_back(dog()); // poor dog has no name

The last line might look similar to your original line, but the missing new is quite important. dog() will be a dog, which can be used on vector<dog>::push_back(), while new dog (which is dog*) can't.


The statement

new dog()

returns a pointer (dog*) to a newly allocated object. Just use

vector<dog> mydogs;

and create new elements with


If you really want to create dynamically an instance of dog by the new keyword, you may want to use

vector<dog*> mydogs;
mydogs.push_back(new dog());

but remember, you've created an object dynamically, so eventually you have to use delete keyword to avoid a memory leak:

while(mydogs.size() > 0){
    delete mydogs.back(); // delete the dog
    mydogs.pop_back();    // get rid of the pointer

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