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I have a template class and I need to overload operator ==. I do this in the following way

template <typename T>
class Polynomial {
    vector<T> coefficients;

    Polynomial(vector<T> c);

    bool operator ==(const Polynomial& second) const {
            const typename vector<T>::iterator thisBegin = this->coefficients.begin();
            const typename vector<T>::iterator secondBegin = second.coefficients.begin();
            for ( ; ((thisBegin != this->coefficients.end()) &&
                                    (secondBegin != second.coefficients.end()));
                            ++thisBegin, ++secondBegin) {
                    if (*thisBegin != *secondBegin)
                            return false;
            while (thisBegin != this->coefficients.end()) {
                    if (*thisBegin != 0)
                            return false;
            while (secondBegin != second.coefficients.end()) {
                    if (*secondBegin != 0)
                            return false;
            return true;

However, when I create two objects of this class with T=int and try to apply this operator

Polynomial<int> first(firstVector);
Polynomial<int> second(secondVector);
std::cout << (first == second) << std::endl;

I got the error

problem2.cpp: In instantiation of ‘bool Polynomial<T>::operator==(const Polynomial<T>&)    const [with T = int; Polynomial<T> = Polynomial<int>]’:
problem2.cpp:63:32:   required from here
problem2.cpp:23:83: error: conversion from ‘std::vector<int, std::allocator<int> >::const_iterator {aka __gnu_cxx::__normal_iterator<const int*, std::vector<int, std::allocator<int> > >}’ to non-scalar type ‘std::vector<int, std::allocator<int> >::iterator {aka __gnu_cxx::__normal_iterator<int*, std::vector<int, std::allocator<int> > >}’ requested

Can someone point out what's wrong with this conversion? Thanks!

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2 Answers

You are trying to convert a const_iterator to an iterator:

const typename vector<T>::iterator thisBegin = this->coefficients.begin();

this is const in this context, so this->coefficients.begin(); returns a const_iterator. Try this:

typename vector<T>::const_iterator thisBegin = this->coefficients.begin();

Note also that thisBegin is not const, as in your example. This is because you then do this kind of thing:


which requires the const_iterator to be non-const (meaning you can modify the iterator, but not the thing it points to).

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  • your method is const that mean that you can only call const functions on this and
  • you passing const reference to method, so you can only call const functions on it

So, both


returns const iterators.

You cannot assign them to non-const ones.

There is a solution:

vector<T>::const_iterator& thisBegin = this->coefficients.begin();
vector<T>::const_iterator& secondBegin = second.coefficients.begin();

(use references to const_iterator)

Even better:

auto& thisBegin = this->coefficients.begin();
auto& secondBegin = second.coefficients.begin();

(use references to auto, C++11 feature)

BTW, you can simply compare two vectors using std::mismatch

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Your examples leave you with dangling references. –  juanchopanza Nov 4 '13 at 17:49
@juanchopanza Whoops! Where? =) –  Drop Nov 4 '13 at 17:51
vector<T>::const_iterator& thisBegin = this->coefficients.begin(); and others. –  juanchopanza Nov 4 '13 at 17:52
@juanchopanza Okay, I've guess it, but why? –  Drop Nov 4 '13 at 17:53
Because begin() and end() return rvalues. They are temporaries, so you must make copies of them. –  juanchopanza Nov 4 '13 at 17:56
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