First of all, you can use `std::advance(*this,l);`

instead of that `while`

loop in your constructor. But! Your approach is **highly inefficient**, because it needs to compute the Fibonacci sequence *twice*: one to know what's the last Fibonacci number, and the second to actually get there when `++`

is used by the client code.

I think better approach would be to store the index of the `last`

Fibonacci number from the constructor in a private member and compare the counter with it after each `++`

. It could be reused from the `index`

field already present there, by making it this way:

Let a default constructor initialize the Fibonacci iterator to `fib0 = 0`

and `fib1 = 1`

, and `index = 0`

. The other constructor (parametric) will be to create a dummy iterator which holds only the last index for the sequence, and other fields are invalid. This one iterator will be the "one-past-the-end" iterator, only for index comparisons, not for reading values.

So here's my solution:

```
#include <iterator>
class Fibonacci : public iterator<input_iterator_tag, int>
{
unsigned index;
value_type fib0, fib1;
public:
Fibonacci(): index(0), fib0(0), fib1(1) { }
explicit Fibonacci(unsigned last): index(last), fib0(0), fib1(0) { }
bool operator == (const Fibonacci& other) { return index == other.index; }
bool operator != (const Fibonacci& other) { return !(*this == other); }
value_type operator * () const { return fib0; }
Fibonacci& operator ++ () {
++index;
value_type fnew = fib0 + fib1;
fib0 = fib1; fib1 = fnew;
return *this;
}
Fibonacci operator ++ (int) {
Fibonacci current(*this);
++(*this);
return current;
}
};
#include <iostream>
#include <algorithm>
int main()
{
using namespace std;
ostream_iterator<int> out(cout, "; ");
cout << "Fibonacci numbers from 0th to 19th:\n";
copy(Fibonacci(), Fibonacci(20), out);
cout << endl;
}
```

Output:

```
Fibonacci numbers from 0th to 19th:
0; 1; 1; 2; 3; 5; 8; 13; 21; 34; 55; 89; 144; 233; 377; 610; 987; 1597; 2584; 4181;
```

As you can see, there's also more code reuse in my example: I reuse operators inside other operators by calling them.

Of course it works only for numbers fitting into `int`

. It'd be better to rewrite it to use multiple precision numbers (eg. GMP library).