I've got an assignment, which sounds like this : "An archer has black and white arrows, and he can only shoot white ducks with white arrows and black ducks only with black arrows. The ducks come in groups, which grow in size like this : one, then two, then three, then five, eight, etc., so basically Fibonacci numbers. The ducks in those groups are ordered so that you won't find two ducks of the same colour near each other, and each group starts with a white duck(for example, for the group which has 5 ducks in it: white black white black white). The archer can only kill the ducks if he can kill the entire group."

Being given the number of white arrows(ka) and black arrows(kb) I must say how many groups has the archer killed and how many arrows of each type has he got left.

int ka, kb;
cin >> ka >> kb;

int total_rows{0};
for(int current_group{1}, previous_group{1}; ka+kb >= current_group; ++total_rows)
    //see which of the arrows he shoots
    for(int i=1; i <= current_group; ++i)
        if(i%2 == 1)

    // swap the 2 fib numbers so we can get the next one
    swap(current_group, previous_group);

    current_group += previous_group;

cout << total_rows << ' ' << ka << ' ' << kb;  

If I typed, for example, 9 and 10, I should get 4,2,6. I'm getting something which has nothing to do with that...

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    int i{1}; is unusual just because it is kind of new. It will become regular if more people start to use it. So setting a trend? :-) – Bo Persson Dec 8 '17 at 19:08
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    It's not 1970 where your 4MHz CPU is barely able to swap two numbers, the speed difference is irrelevant. Do the simplest thing and let the compiler take over. If you have a measurable performance problem then optimize. Unless this iterates over a billion items I doubt you'd be able to benchmark the difference between the temp solution and this one. The standard initializer is = 1 not {1}, a notation often reserved for bitfields or structure initializers. – tadman Dec 8 '17 at 19:09
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    Yeah I know it's a new syntax but I don't think that's the problem here :)) – Semetg Dec 8 '17 at 19:10
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    @tadman Greybeards are used to kid each other ;-) ... – user0042 Dec 8 '17 at 19:16

Maybe a slightly different approach on calculating how many arrows will be used, that the one you are using. As we know the ducks are alternating, this means that for the odd group you will need extra white arrow, otherwise the number used will be N/2 for each color

#include <iostream>

int next_group()
    static int prev = 0;
    static int next = 1;

    int res = prev + next;
    prev = next;
    next = res;

    return next;

int main()
    int white, black;
    std::cin >> white >> black;

    int groups = 0;
    while (true)
        int n = next_group();
        int arrows = n % 2 == 0 ? n / 2 : (n - 1) / 2;

        if (n % 2 == 0)
            if (arrows > white || arrows > black)
            if (arrows + 1 > white || arrows > black)


        white -= arrows;
        black -= arrows;


        << "Complete groups eliminated: " << groups 
        << "\nWhite arrows left: " << white 
        << "\nBlack arrows left: " << black 
        << std::endl;

    return 0;

enter image description here

| improve this answer | |
  • Thanks a lot, apparently the algorithm was much simpler than I thought :)) – Semetg Dec 8 '17 at 20:03
  • Just a quick question, you used static in the function to keep the previous values of the size of the groups? – Semetg Dec 8 '17 at 20:07
  • @Semetg You don't have to use static, you can make both vars global and declare them outside of the function, or move the body of the function inside the loop if you want to. I just made the next_group function self contained so with every call to it it produces next number in sequence. – Killzone Kid Dec 8 '17 at 20:10

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