#include #include #include #include // I referred to the follow // http://www.geocities.jp/m_hiroi/puzzle/puzdoc03.html #define SUCCESS 1 #define FAILURE 0 #define THOUSAND 1000 #define HUNDRED 100 void bit_map(); // main int next_go(int num, int goal); // int back_go(int num); int Is_already_reach(int reach_point); void bit_map() { // 先に進む中で到着する点までは行くことができる。いったん戻ってから先に進むと到着できる点には行けない。(11のデバッグ途中で力尽きる) //よくわからないまま終了。変更点は、back_pointを得る際に、len-1を配列の要素数にしただけ(next_pointに合わせた)。提出してみるとランタイムエラーと出たので無限ループしてるのかも int goal; int queue[HUNDRED][THOUSAND] = { }; // 要素数はfree!! int front, rear; int back_point, next_point; int length[THOUSAND] = { }; int i; // loop variable scanf("%d", &goal); if(goal == 1){ printf("%d", 1); exit(0); } front = 0; rear = 1; length[0] = 1; queue[0][0] = 1; i = 0; // infinite loop counter measure int debug = 0; while (front < rear && debug++ < 100) { int len = length[front]; // ex 1, 12, 123, 124 ...4 next_point = next_go(queue[front][len - 1], goal); if (next_point == goal) { printf("%d", len+1); exit(0); } else if (next_point == FAILURE) { } else { // new root add the queue memcpy(queue[rear], queue[front], sizeof(int) * len); queue[rear][len] = next_point; length[rear] = len + 1; rear++; } // follow is back back_point = back_go(queue[front][len-1]); if (back_point == FAILURE) { } else { // new back root add the queue memcpy(queue[rear], queue[front], sizeof(int) * len); queue[rear][len] = back_point; length[rear] = len + 1; rear++; } front++; } printf("-1"); } int next_go(int num, int goal) { //Outputs the point that arrived earlier from the given num int ad_re_num = 0; int next_point = num; while (num > 0) { ad_re_num += num % 2; num = num / 2; } next_point += ad_re_num; if (next_point > goal) { return FAILURE; } if (Is_already_reach(next_point) == SUCCESS) { return next_point; } else { return FAILURE; } } int back_go(int num) { //Proceed to the back from the given argument and output the arrival point int ad_re_num = 0; int back_point = num; while (num > 0) { ad_re_num += num % 2; num = num / 2; } back_point -= ad_re_num; if (back_point < 1) { return FAILURE; } if (Is_already_reach(back_point) == SUCCESS) { return back_point; } else { return FAILURE; } } int Is_already_reach(int reach_point) { static int already_reach[THOUSAND] = { }; int i = 0; already_reach[0] = 1; for (i = 0; already_reach[i] != '\0'; i++) { if (reach_point == already_reach[i]) { return FAILURE; } } already_reach[i] = reach_point; return SUCCESS; } int main(void) { // int ma1[2][5] = {{1,2,3,4,5},{6,7,8,9,0}}; // int ma2[2][5] = {}; // // // memcpy(ma2[1] , ma1[1], sizeof(int) * 2); bit_map(); // printf("%d %d",next_go(13,100),back_go(1)); return 0; }