# Input_iterator, find_if and modulus

I implemented an iterator, which has Fibonacci numbers as output. In my main() I'd like to find a number which is dividable by 17 (it's 34). Why doesn't work my find_if statement.

Thank you!

  #include <boost/operators.hpp>
#include <algorithm>
#include <tr1/functional>

struct FibIter: boost::input_iterator_helper<FibIter,unsigned long long> {

//typedef value_type unsigned long long;
FibIter(value_type l=0):counter(0), fib0(0),fib1(1){
while(l!=counter)
++(*this);
}

value_type operator*() const {return fib0;}
FibIter& operator++() {
++counter;
value_type fnew = fib0+fib1;
fib0 = fib1;
fib1 = fnew;
return *this;
}
bool operator==(FibIter const &other)const {
return counter == other.counter;
}

private:
value_type counter;
value_type fib0, fib1;
};

using namespace std;
using namespace tr1;
using namespace placeholders;

int main() {
FibIter found = find_if(FibIter(), FibIter(100),bind(not2(modulus<unsigned long long>()),_1,17ULL));
}

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bind(not2(modulus<unsigned long long>()),_1,17ULL)


should be

not1(bind(modulus<unsigned long long>(),_1,17ULL))

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I tried it, but it doesn't work... –  melbic Aug 6 '10 at 10:45

I think if you start from first number which is 0, find will return it (modulus(0,17) = 0).

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ok thats true, but thats not the point. –  melbic Aug 6 '10 at 10:45

Ok I solved it by using !boost::bind(...) instead of tr1::bind.

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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).

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