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I read another post that answered a question regarding iterators for vectors of pointers. I tried to use the same concept in my code but I receive some compilation errors. The code sample I was basing my code on is:

vector<c*> cvect;
cvect.push_back(new sc);
vector<c*>::iterator citer;
for(citer=cvect.begin(); citer != cvect.end(); citer++) {
    (*citer)->func();
}

I want to use a similar concept to create a deep copy constructor for a class that has two data members that are vectors of pointers to objects. My code is similar to this:

class MyContainer {
    vector<MyStuff*> vecOne;
    vector<MyStuff*> vecTwo;

 public:
    MyContainer(const MyContainer& other);
};

MyContainer::MyContainer(const MyContainer& other) {
    // copy vector one
    vector<MyStuff*>::iterator vec1_itr;
    for (vec1_itr = other.vecOne.begin(); vec1_itr != other.vecOne.end(); vec1_itr++) {
        vecOne.push_back(new MyStuff(vec1_itr));
    }

    // copy vector two
    vector<MyStuff*>::iterator vec2_itr;
    for (vec2_itr = other.vecTwo.begin(); vec2_itr != other.vecTwo.end(); vec2_itr++) {
        vecTwo.push_back(new MyStuff(vec2_itr));
    }
}

I get some compilation errors like:

/path/MyContainer.cpp:38: error: no match for 'operator=' in 'vec1_Itr = other->MyContainer::vecOne. std::vector<_Tp, _Alloc>::begin [with _Tp = MyStuff*, _Alloc = std::allocator<MyStuff*>]()'

candidates are: __gnu_cxx::__normal_iterator<MyStuff*, std::vector<MyStuff, std::allocator<MyStuff> > >& __gnu_cxx::__normal_iterator<MyStuff*, std::vector<MyStuff, std::allocator<MyStuff> > >::operator=(const __gnu_cxx::__normal_iterator<MyStuff*, std::vector<MyStuff, std::allocator<MyStuff> > >&)

I also get an error for operator!=... And another set of the same errors for the other vector.

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How you have declare vecOne and vecTwo in class MyContainer? –  iammilind Apr 15 '11 at 2:57
    
On side note, try to use MyStuff copy constructor instead of passing an iterator to it. You can call it as, ...(new MyStuff(**vec1_itr). This will be simpler –  iammilind Apr 15 '11 at 3:04
    
Beware if the vector can contain pointers to objects of types derived from c, which is legal, as you would be slicing them. –  David Rodríguez - dribeas Apr 15 '11 at 7:48
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3 Answers

up vote 3 down vote accepted

You forgot to dereference the iterators. Try this instead:

vecOne.push_back(new MyStuff( **vec1_itr ));

Edit 0:

Yes, should be double dereference (fixed above). And it should be the const_terator instead since you are dealing with const containing object:

vector<MyStuff*>::const_iterator vec1_itr;
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The error is telling him he's violating the const. It has nothing to do with the constructor of his class. –  Brian Roach Apr 15 '11 at 2:57
    
to invoke MyStuff copy constructor, it should be called as: MyStuff(**vec1_itr). –  iammilind Apr 15 '11 at 3:02
    
@Brian, @iammilind, thanks, corrected. –  Nikolai N Fetissov Apr 15 '11 at 3:11
    
Thanks for the comments @wilhelmtell, @Nikolai, and @iammilind. Changing to the const_iterator and properly dereferencing the iterator in my .push_back(new MyStuff(**vecX_itr)); solved my problem. –  fryeguy Apr 15 '11 at 5:38
    
I'm having trouble visualizing these double dereferences of my const_iterator even though they appear to function correctly. The 1st vector of ptrs to MyStuff objects is a master list. In the 2nd vector of ptrs to MyStuff objects, the ptrs all point to a subset of MyStuff objects pointed to by the 1st vector. I am concerned that I have unrelated vectors where the 2nd vector is pointing to elements that are independent of the 1st vector. The other object's vector elements are read from a file. Should the copy constructor just read the file? other holds a reference to the filename. –  fryeguy Apr 15 '11 at 15:46
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Either don't take the parameter as const or declare vec1_itr as a const_iterator. The issue here is that vecOne.begin() returns a const_iterator because the container is const. If you want to change the container you'll have to remove the const qualifier.

On a side note, if holding a container of pointers means you need to manage the pointers in the container and you have two such containers then you should move the container into a class of its own. Try to avoid managing more than one resource in a class.

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I'm not sure if I completely understand your second comment. I have two classes that I am working with. Objects instantiated from the first class hold several pieces of data. Objects of the second class hold a few simple pieces of data plus two vectors of pointers to objects of the first class. I am doing this to minimize any need to copy objects derived from the first class. The 1st vector is like a master list and the 2nd vector is a subset of the master list. Does that make sense? And thanks for your comments on the const_iterator. This makes perfect sense. –  fryeguy Apr 15 '11 at 5:04
    
Perfect. The const_Iterator solved two errors and as stated above the adjusting the .push_back code to vecOne.push_back(new MyStuff(**vec1_itr)); solved the other errors. –  fryeguy Apr 15 '11 at 5:22
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!! MEMORY LEAK ALERT !!

Your code, as is, is leaky.

Any exception thrown from within the copy constructor (std::bad_alloc ?) will cause a memory leak because the memory passed into the vector will never be cleaned-up (the destructor won't be called since the object was never constructed in the first place).

You could, of course, add the required try/catch, though I warn you that the code will soon get clunky (you need several).

This is a direct result of violating rule 1 of resources management:

An object should manage at most one resource, in which case it should not be doing anything else.

This means that if your object is a business object (with application logic inside) then it should not deal with resource management directly, but instead use already existing managers.

In your case, you have two solutions:

  1. Recommended: since you do not use polymorphism here, don't use pointers. std::vector<MyStuff> is perfectly fine
  2. If you need polymorphism, but didn't included it in this toy example, then use boost::ptr_vector<MyStuff>

Bonus Point: the two of them define sensible copy constructors, assignment operators and destructors, so that you won't have to rewrite them yourself.

EDIT:

As noted by @David, if you need polymorphism, you cannot use copy construction, and thus need:

  • a clone method, or equivalent
  • pointers and dynamic memory allocation

boost::ptr_vector provide all you need for this (with automatic use of the clone method when copying).

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+1, and for the asker's sake: do note that if you need polymorphism the other solutions won't make it work, copy construction will slice the contained objects. –  David Rodríguez - dribeas Apr 15 '11 at 7:51
    
I appreciate all these additional comments. In my case this project is really an exercise in basic memory allocation/management, use of vectors and some file I/O mixed in. For my purposes it is safe to assume that the constructor will never fail. I understand that this would not be acceptable in professional code. –  fryeguy Apr 15 '11 at 15:27
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