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Here's a fun exercise.


Who can write the most elegant yet performant code to win this game? My solution is in C/C++.


#define N 64

std::vector<int> numbers(N+1);

void init()
    for(int i = 0; i < N+1; ++i)
    	numbers[i] = 1;

int getbest()
    int max_difference = -9999999;
    int best_number = -1;

    for(int i = 1; i <= N; ++i)
    	// if the number is available for choosing, check how many points it's worth
    		int sum_factors = 0;

    		for(int j = 1; j < i; ++j)
    			if(numbers[j] && i%j == 0)
    				sum_factors += j;

    		// if we found any factors
    		if(sum_factors != 0 && (i - sum_factors) > max_difference)
    			max_difference = i - sum_factors;
    			best_number = i;

    std::cout<<"max difference: "<<max_difference<<"\n";
    std::cout<<"best choice: "<<best_number<<"\n";

    for(int i = 1; i < best_number; ++i)
    	if(best_number % i == 0)
    		numbers[i] = 0;

    return best_number;

int main()

    int n;
    	n = getbest();
    } while(n != -1);
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closed as not constructive by Nicol Bolas, Greg Bacon, Rachel, casperOne May 2 '12 at 15:29

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Can anyone prove picking the current "best number" results in an overall win (or draw)? –  Jon Smock Nov 17 '08 at 3:53
I would regard this as a C only solution. –  Loki Astari Nov 17 '08 at 4:27
Adn I would regard this as a C++ solution, since it doesn't compile in C. But maybe that is what "C/C++" means: C code that requires C++ to compile! –  Thomas Padron-McCarthy Nov 18 '08 at 19:24

3 Answers 3

Every move clears at least two numbers, more like 3-4 including then-invalidated choices (a first move of "61" seems ideal, and reduces the number of available valid moves by 18). I expect the entire state space to be smaller than 10^15, significantly smaller with even simple pruning. This game can be Solved in reasonably small run time, so the optimal-performing solution would probably just be a state table with responses to the <10^7 possible branches of the the tree. Not very elegant, though.

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Your code will be more efficient if you start from the biggest number, and also zero out the numbers picked, not just their factors.

Also, I'm not convinced that picking the optimum number in a turn will result in optimum gameplay.

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Not picking the optimum number lets the opponent have it. If you remove factors in such a way that the opponent cannot take it anymore, why not do it with the optimum number? The only part where a difference may occur is at the end, when the question arises who gets the last move. –  Svante Nov 17 '08 at 3:22
{16 18 27 32 36 54} 36 nets me 18 points, then 54 nets opponent 27 points, net relative loss of 9 points for me for the round, because 54 got better when 18 was removed from the list. 54 nets me 9 points, then 32 nets opponent 16 points, net relative loss of 7 points for me for the round. –  Sparr Nov 22 '08 at 0:19
good catch, @Sparr. You've confirmed my suspicions. This also makes your answer more relevant; a definite vote up. –  aib Nov 22 '08 at 3:34

A quick Common Lisp version:

;;; helpers                                                                                                          

(defun list-range (start end &optional (step 1))
  "Makes a list from start (inclusive) to end (exclusive)."
  (labels ((lr-h (z acc)
             (if (>= z end)
                 (nreverse acc)
                 (lr-h (+ z step) (cons z acc)))))
    (lr-h start ())))

(defun remove-list (r-liste liste)
  "Returns a list where all elements in r-liste are removed from liste."
  (if r-liste
      (remove-list (cdr r-liste) (remove (car r-liste) liste))

;;; calculations

(defun faktoren (zahl verfuegbare-tests)
  "Returns the list of zahl's factors that are in verfuegbare-tests."
  (labels ((f-h (tests max acc)
             (cond ((or (not (car tests))
                        (> (car tests) max))
                   ((integerp (/ zahl (car tests)))
                    (f-h (cdr tests) max (cons (car tests) acc)))
                    (f-h (cdr tests) max acc)))))
    (f-h verfuegbare-tests (/ zahl 2) ())))

(defun faktoren-summe (zahl verfuegbare-tests)
  (reduce #'+ (faktoren zahl verfuegbare-tests)))

(defun beste-zahl (liste)
  (let ((v-liste (remove-if #'(lambda (x) (zerop (faktoren-summe x liste))) liste)))
    (if v-liste
        (reduce #'(lambda (a b)
                    (if (> (- a (faktoren-summe a liste))
                           (- b (faktoren-summe b liste)))

;;; main loop                                                                                                        

(defun hugh ()
  (labels ((h-h (liste)
             (when liste
               (let ((b (beste-zahl liste)))
                 (format t "Best: ~a~%" b)
                 (if b
                     (h-h (remove-list (cons b (faktoren b liste))
    (h-h (list-range 1 65))))
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Hey, very cool Harelqin. I haven't tried it out but I mostly worked through the logic in my head. Very apropos since I am just starting to learn about functional programming. –  Gaius Nov 17 '08 at 7:59