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I am trying to understand operators you need to overload when working with custom classes in STL(SCL).

Can any one please tell me what is it I am doing wrong ?

class myClass
{
public:
    int data;
    myClass()
    {
        data =0;
        cout<<"Default const "<<endl;
    }

    myClass(int x)
    {
        data = x;
        cout<<"Int constructor"<<endl;
    }

    myClass(const myClass &m)
    {
        cout<<"Copy constructor"<<endl;
    }

    bool operator == (const myClass &temp)
    {
        cout<<"Operator called &";
        return data == temp.data;
    }

    bool operator == (const myClass *temp)
    {
        cout<<"Operator called *";
        return data == temp->data;
    }
};

int main ()
{
    /*
    vector<int> myvector;
    myvector.push_back(10);
    myvector.push_back(20);
    myvector.push_back(30);

    cout << "myvector contains:";
    for_each (myvector.begin(), myvector.end(), meObj);
    */

    vector<myClass*> myVec;
    myClass temp;
    myVec.push_back(&temp);
    myClass temp2(19);
    myVec.push_back(&temp2);
    myClass temp3(19);

    vector<myClass*>::iterator it = find(myVec.begin(),myVec.end(),&temp2); //works
    if(it!=myVec.end())
    {
        cout<<"Value is "<<(*it)->data;
    }

    vector<myClass*>::iterator dit = find(myVec.begin(),myVec.end(),&temp3); //fails
    if(dit!=myVec.end())
    {
        cout<<"Value is "<<(*dit)->data;
    } 

    cout << endl;

    return 0;
}

Please correct me if I am wrong, but the first find works as it does a address comparison. What do I need to overload for the above to work ?

Do both the signature make sense ?

bool operator == (const myClass &temp); // seen in many places
bool operator == (const myClass *temp); // what if two pointer types of same object are being compared?

Cheers!

share|improve this question
    
Do you really need a vector<T*> in your case? If yes, please do check out Boost's pointer container (boost.org/doc/libs/1_46_1/libs/ptr_container/doc/…;. –  yasouser May 23 '11 at 15:32
    
Well , this is just an understanding experiment. As i always thought while dealing with dynamic memory allocations you would be "saving" the address of the element rather than the element twice in your program.i.e. once on new & one copy in the container. –  Ricko M May 23 '11 at 15:35

3 Answers 3

up vote 2 down vote accepted

Operator overloads must have at least one user-defined type. So you cannot overload operator== for two pointers, for instance.

Your myClass::operator==(const myClass *temp) is valid in the sense that it compiles, but makes very little semantic sense, and is not recommended (there are very few situations where you'd want to do T x; T *y; ... (x == y)).

For your situation, where you have a vector of pointers, you may want to consider std::find_if, which takes a predicate. Something like:

class CompareByPointer
{
public:
    explicit CompareByPointer(const myClass &p) : p(p) {}
    bool operator() (const myClass &rhs) const { return p->data == rhs->data; }
private:
    const myClass &p;
};

...

find_if(myVec.begin(), myVec.end(), CompareByPointer(&temp2));

[As a side note, you should generally define member functions const wherever possible. So your operator overloads should be const.]

share|improve this answer
    
Perhaps i am missing something, does that mean you cannot use operations like find on a container which contains pointers of user defined types? –  Ricko M May 23 '11 at 15:28
    
@Ricko: You can, but it will be comparing the pointers themselves, not what is being pointed to. –  Oliver Charlesworth May 23 '11 at 15:31
2  
@Ricko: yes and no. As said, overloaded operators can only be applied to user defined types. But instead of find, you can use find_if, for example, which, instead of using overloaded operators, uses a user-specified predicate function –  jalf May 23 '11 at 15:32
    
Thanks guys! Just another thing to clarify, when you say at least one user defined type , are you referring to the other case as implicit conversion of built in types to user defined types via non explicit constructor ? –  Ricko M May 23 '11 at 15:53
    
@Ricko: The compiler will attempt to resolve the operator overload with up to one implicit conversion. –  Oliver Charlesworth May 23 '11 at 15:57

In the sample code, you haven't pushed &temp3 into myVec. So it makes sense for the second std::find to fail.

share|improve this answer
    
yep, that was on purpose though. I wanted to see if there were any operators i could overload to get the "correct" logical result. –  Ricko M May 23 '11 at 15:36

What do you mean by "work" in this case? Generally, when you're storing pointers, it's because the objects do have identity, and comparing the address is the correct thing to do. Otherwise, you should probably be storing values (although there are exceptions). Anyway, you can always use find_if, and any comparison criteria you want. For anything but the simplest types, I find myself using find_if more often than find anyway; usually, you're not looking for equality, but rather for some specific type of match. Here, for example, you'd more likely want something like:

std::vector<MyClass>::iterator it = std::find_if( myVect.begin(), myVect.end(),
                                                  boost::bind(&MyClass::id, _1, 19) );

(Supposing that the data here is some sort of identifier, and that you've provided a member function, myClass::id() to read it.)

share|improve this answer
    
By work i mean , a comparison should ideally return true. This is something akin to bit-by-bit comparison as opposed to actual comparison of values. –  Ricko M May 23 '11 at 15:44
    
I'm still not sure I understand. Under what conditions should the comparison return true? As I said, you've decided to deal with pointers. The most likely reason is that each object has an identity, and the objects are only "equal" if they are the same object. Otherwise, use values, not pointers. (Which is one of my points---the other is that you probably want find_if anyway, since you don't want to have to create a complete object just to test if the object's identifier is 19.) –  James Kanze May 23 '11 at 16:44

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