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I want to independently overload operator+ to concatenate 2 double chained lists. My idea is to obtain the address of the first element from the first list and the address of the first element from the second list.

In DoubleChainedList class, except the constructor, destructor and the next 4 methods which are working fine, I made a method called get_prim which is supposed to get me the address of the first element from the specified list. Then, using the method get_current I want to move through the first list until it ends while adding in the third list the elements, and then apply the same principle to the second list.

But I have a problem, I get

'get_prim' was not declared in this scope

and

'get_current' was not declared in this scope

at the bolded tagged lines (see the code below) when I compile. What am I missing?

#include <iostream>
#include <stdlib.h>
using namespace std;

//Create node class
class Node
{
private:
    float value;         
    Node *back;        
    Node *next;       
public:
    Node *set_value (Node *x, float element) { x->value=element; return x; }
    float get_value (Node *x) { return x->value; }
    Node *set_back (Node *x) { return x->back; }
    Node *set_next (Node *x) { return x->next; }
    Node *set_back_nod (Node *x, Node *y) { x->back=y; return x; }
    Node *set_next_nod (Node *x, Node *y) { x->next=y; return x; }
    void next_to_2next (Node *x) { x->next=x->next->next; }
    void next_back_to_origins (Node *x) { x->next->back=x; }
};

//Create list class
class DoubleChainedList : public Node
{
private:
    Node *prim;       
    Node *ultim;    
public:
    DoubleChainedList() { prim=NULL; ultim=prim; }           //Constructor
    ~DoubleChainedList();                                    //Destructor
    void insert_back(float element);                         //Inserts an element at the end of the list
    void delete_element_from_position(int delete_position);  //Deletes from the list the element whose position is equal to "delete_position"
    void show_left_right();                                  //Shows the list from the first element to the last one
    void show_right_left();                                  //Shows the list from the last element to the first one
    Nod *get_prim (DoubleChainedList myList) { return this->prim; };    //Intended to obtain the address of the first element from "myList"
    Nod *get_current (Node *x) { return set_next(x); };                  //Intended to move me through the list
};

DoubleChainedList operator+ (DoubleChainedList myList1, DoubleChainedList myList2)
{
    DoubleChainedList myList3;
    Nod *current1,*current2;
    current1=get_prim(myList1); // ERROR OVER HERE!
    current2=get_prim(myList2);
    cout<<get_value(current1)<<" "; // ERROR OVER HERE!
    cout<<get_value(current2)<<" ";
    return myList3;
}

int main()
{
    int i,number_elem_myList1,number_elem_myList2,element;
    DoubleChainedList myList1,myList2,myList3;
    cin>>number_elem_myList1;
    for (i=0;i<number_elem_myList1;i++)
    {
        cin>>element;
        myList1.insert_back(element);
    }
    cin>>number_elem_myList2;
    for (i=0;i<number_elem_myList2;i++)
    {
        cin>>element;
        myList2.insert_back(element);
    }
    myList3=myList1+myList2;
    return 0;
}
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When you try to compile that code, you get a lot more errors than just those two... –  Dukeling Mar 31 '13 at 17:48
    
@Dukeling: Of course I get a lot more errors on the code posted above, but I cut it off just to make it easier to understand for another person. I specified that all the other things are working fine and also tried to comment the essential parts. If you don't understand something, ask me. Also, the function for overloading the "+" operator isn't finished yet because I'm stuck on this part. –  Alexandru Andrei Mar 31 '13 at 17:55

3 Answers 3

If you implement operator+= as a member function, you can have access to the other list's variables.

I would implement operator+=, then traverse the other list, appending the other list's nodes to this list.

And pass the other list as const &.

share|improve this answer
    
I have to concatenate them in a third list, not to modify the first one. –  Alexandru Andrei Mar 31 '13 at 17:54
    
Try this: 1) Create empty list_3. 2) Use list_3 += list_1. 3) Use list_3 += list_2. –  Thomas Matthews Mar 31 '13 at 18:00
    
This seems a good solution, but harder to implement (at least for me). Using my idea, I would obtain the address of the first element from the first list, add the element to third list using the method "insert_back" and repeat that until the first list ends, then the same for the second list. Isn't it possible? –  Alexandru Andrei Mar 31 '13 at 18:14

Functions called with e.g. someObject.function(...) or someObject->function(...) (where someObject is respectively either an object or a pointer to an object of some class that has a function(...) function) have direct access to the members of someObject.

So functions that are members of a class doesn't need to be passed an object of that class as parameter, unless you want to work with 2 objects in that function.

The functions of Node should probably look more like:

void set_value (float element) { value = element; }
float get_value () { return value; }
Node *set_back () { return back; }
Node *set_next () { return next; }
void set_back_nod (Node *y) { back = y; }
void set_next_nod (Node *y) { next = y; }
void next_to_2next () { next = next->next; }
void next_back_to_origins () { next->back = this; }

Also, get_prim:

Node *get_prim() { return prim; };

Which then leads to a operator+ which looks more like: (const & as Thomas suggested)

DoubleChainedList operator+ (const DoubleChainedList &myList1,
                             const DoubleChainedList &myList2)
{
    DoubleChainedList myList3;
    Node *current1, *current2;
    current1 = myList1.get_prim();
    current2 = myList2.get_prim();
    cout << current1->get_value() << " ";
    cout << current2->get_value() << " ";
    // ...
    return myList3;
}

Using operator+= as Thomas suggested is probably also a better idea.

share|improve this answer

Modified the program as follows, but I still have a problem. If I try to display the list outside the procedure "operator+", I get "Segmentation fault" (when I debugged the program it happened immediately after this instruction: "myList3=myList1+myList2;"). If I display it inside that procedure, everything's OK. I think that this is happening because of that "return" statement and because I return a temporary object which will no longer exists after the "operator+" procedure ends, but I don't know how to fix that.

#include <iostream>
using namespace std;

//Create node class
class Node
{
private:
    float value;         
    Node *back;        
    Node *next;       
public:
    Node *set_value (float element) { value=element; return this; }
    float get_value () { return value; }
    Node *set_back () { return back; }
    Node *set_next () { return next; }
    Nod *set_back_node (Node *y) { back=y; return this; }
    Nod *set_next_node (Node *y) { next=y; return this; }
    void next_to_2next () { next=next->next; }
    void next_back_to_origins () { next->back=this; }
};

//Create list class
class DoubleChainedList : public Node
{
private:
    Node *prim;       
    Node *ultim;    
public:
    DoubleChainedList() { prim=NULL; ultim=prim; }           //Constructor
    ~DoubleChainedList();                                    //Destructor
    void insert_back(float element);                         //Inserts an element at the end of the list
    void delete_element_from_position(int delete_position);  //Deletes from the list the element whose position is equal to "delete_position"
    void show_left_right();                                  //Shows the list from the first element to the last one
    void show_right_left();                                  //Shows the list from the last element to the first one
    Node *get_prim () { return prim; }                       //Intended to obtain the address of the first element from a list
};

DoubleChainedList operator+ (DoubleChainedList myList1, DoubleChainedList myList2)
{
    DoubleChainedList myList3;
    Node *current1,*current2,*current3;
    current1=myList1.get_prim();
    current2=myList2.get_prim();
    while ((current1!=NULL)||(current2!=NULL))
    {
        if (current1!=NULL)
        {
            myList3.insert_back(current1->get_value());
            current1=current1->set_next();
        }
        else
            if (current2!=NULL)
            {
                myList3.insert_back(current2->get_value());
                current2=current2->set_next();
            }
    }
    //myList3.show_left_right();
    //cout<<endl;
    //myList3.show_right_left();
    return myList3;
}

int main()
{
    int i,number_elem_myList1,number_elem_myList2,element;
    DoubleChainedList myList1,myList2,myList3;
    cin>>nr_elem_lista1;
    for (i=0;i<number_elem_myList1;i++)
    {
        cin>>element;
        myList1.insert_back(element);
    }
    cin>>number_elem_myList2;
    for (i=0;i<number_elem_myList2;i++)
    {
        cin>>element;
        myList2.insert_back(element);
    }
    myList3=myList1+myList2;
    myList3.show_left_right();
    myList3.show_right_left();
    return 0;
}

@Dukeling modified the methods of the "Node" class as you said (and of course the program where necessary) and it's OK, too.

I can post the full code if is someone interested, but it has more than 200 lines, the name of variables/dates, procedures/methods and also some comments wrote in Romanian (my natural language) and it would be harder for someone new to understand it.

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