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I'm sorry if this is a very basic question, I'm pretty new to C++. I'm trying to define my own vector class and an iterator for it. However, whenever I overload an operator the value that is returned is always an address.

For instance, the following code prints 0x7fb6dbc000e0 0x7fb6dbc000e0 when I want it to print 1 0

Since I've been messing around with the syntax for a while, some of the operators look a little different, this is just so that you can see a few things I've tried.

test.cc

#include <iostream>
#include "TwoWayVector.cc"
int main(){
    TwoWayVector<int> numbers;
    numbers.push_back(3);
    numbers.push_back(2);
        TwoWayVectorIterator<int>* beginning = numbers.begin();
    TwoWayVectorIterator<int>* beginning2 = numbers.begin();
    cout << beginning==beginning2;
    cout << beginning != beginning2;
    cout << endl;
return 0;
}

TwoWayVector.cc

using namespace std;
#include "TwoWayVectorIterator.cc"
template <class T> class TwoWayVector{
public:

T* data;
int capacity;
int nextFree;

TwoWayVector(){
    capacity = 10;
    nextFree = 0;
    data = new T[capacity];
}

~TwoWayVector(){
    delete data;
}

T& operator[](const int index){
    if( index >= capacity || capacity + index < 0){
        string number = static_cast<ostringstream*>( &(ostringstream() << index) )->str();
        string error = "index " + number + " is out of bounds";
        throw error;
    }
    else if(index < 0){
        return data[nextFree+index];
    }
    return  data[index];
}
bool operator==(const TwoWayVector* vector2){
    if(capacity != vector2->capacity){
        return false;
    }
    if(nextFree != vector2->nextFree){
        return false;
    }
    for(int i=0; i<nextFree ; i++){
        if(data[i] != vector2[i]){
            return false;
        }
    }
    return true;
}
 //memory leaks?
void push_back(T object){
    if(capacity <= nextFree){
        capacity = capacity*2;
        T* tmp = new T[capacity];
        for(int i=0; i<capacity; i++){
            tmp[i] = data[i];
        }
        delete data;
        data = tmp;
    }
    data[nextFree] = object;
    nextFree++;
}

T pop_back(){
    nextFree--;
    T result = data[nextFree];
    data[nextFree] = NULL;
    return result;
}

int size(){
    return nextFree;
}

TwoWayVectorIterator<T>* begin(){
    TwoWayVectorIterator<T>* i = new TwoWayVectorIterator<T>(0,this);
    return (i);
}
TwoWayVectorIterator<T>* end(){
    TwoWayVectorIterator<T>* i = new TwoWayVectorIterator<T>(nextFree,this);
    return(i);
}

};

TwoWayVectorIterator.cc

template<typename T> class TwoWayVector;

template <class T> class TwoWayVectorIterator{
public:
TwoWayVector<T>* vector;
int currentPosition;
TwoWayVectorIterator(TwoWayVector<T>& vec){
    currentPosition = 0;
    vector = vec;
}
TwoWayVectorIterator( int pos , TwoWayVector<T>* vec){
    currentPosition = pos;
    vector = vec;
}

bool operator==(const TwoWayVectorIterator* vector2){
    bool contents, position;
    contents = (vector == vector2) ? true : false;
    cout << contents << endl;
    position =(currentPosition == vector2->currentPosition) ? true : false;
    return (contents && position);
}

bool& operator!=(const TwoWayVectorIterator* vector2){
    bool contents, position;
    contents = (vector == vector2) ? false : true;
    position=(currentPosition == vector2->currentPosition) ? false : true;
    return (contents || position);
}

TwoWayVectorIterator& operator++(){
    return *this;
    currentPosition = (currentPosition+1);

}
TwoWayVectorIterator& operator++(int){
    currentPosition = (currentPosition+1);
    return *this;
}
TwoWayVectorIterator& operator=(TwoWayVectorIterator* vector2){
    &vector = vector2;
    currentPosition = vector2->currentPosition;
    return *this;
}
TwoWayVectorIterator& operator+(int n){
    currentPosition = currentPosition+n;
    return *this;
}
TwoWayVectorIterator& operator-(int n){
    currentPosition = currentPosition-n;
    return *this;
}
bool& operator<(TwoWayVectorIterator* vector2){
    return (currentPosition<vector2->currentPosition);
}
T& operator*(){
    return vector[currentPosition];
}
};
share|improve this question
    
what does those cout mean? –  gongzhitaao Apr 11 '13 at 15:21
    
    
If you wish to use the operator == you defined for your iterator class, you will have to dereference the instance pointer: (*beginning == beginning). –  didierc Apr 11 '13 at 15:38

2 Answers 2

up vote 9 down vote accepted
cout << beginning==beginning2;

does not mean

cout << (beginning==beginning2);

It does mean

(cout << beginning) == beginning2;

http://en.cppreference.com/w/cpp/language/operator_precedence

Therefore you are printing a TwoWayVectorIterator<int>*, not a bool.

share|improve this answer

The precedence of the << operator is higher then the precedence of the == and != operator. So

cout << beginning==beginning2;
cout << beginning != beginning2;

really means

(cout << beginning)==beginning2;
(cout << beginning) != beginning2;

Try cout << (beginning==beginning2); cout << (beginning) != beginning2);

share|improve this answer

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