比赛描述
The cook at the Frobbozz Magic Pancake House sometimes falls asleep on the job while cooking
pancakes. As a result, one side of a stack of pancakes is often burned. Clearly, it is bad business to
serve visibly burned pancakes to the patrons. Before serving, the waitress will arrange the stacks of
pancakes so that the burned sides are facing down. You must write a program to aid the waitress in
stacking the pancakes correctly.
We start with a stack of N pancakes of distinct sizes, each of which is burned on one side. The
problem is to convert the stack to one in which the pancakes are in size order with the smallest on the
top and the largest on the bottom and burned side down for each pancake. To do this, we are
allowed to flip the top k pancakes over as a unit (so the k-th pancake is now on top and the pancake
previously on top is now in the k-th position and the burned side goes from top to bottom and vice
versa).
For example (+ indicates burned bottom, - a burned top):
+1 -3 -2 [flip 2] → +3 -1 -2 [flip 1] → -3 -1 -2 [flip 3] →
+2 +1 +3 [flip 1] → -2 +1 +3 [flip 2] → -1 +2 +3 [flip 1] → +1 +2 +3
You must write a program which finds a sequence of at most (3n ? 2) flips, which converts a given
stack of pancakes to a sorted stack with burned sides down.
输入
The first line of the input contains a single decimal integer, N, the number of problem instances to
follow. Each of the following N lines gives a separate dataset as a sequence of numbers separated
by spaces. The first number on each line gives the number, M, of pancakes in the data set. The
remainder of the data set is the numbers 1 through M in some order, each with a plus or minus sign,
giving the initial pancake stack. The numbers indicate the relative sizes of the pancakes and the
signs indicate whether the burned side is up (-) or down (+). M will be, at most, 30.
输出
For each dataset, you should generate one line of output with the following values: The dataset
number as a decimal integer (start counting at one), a space, the number of flips (K, where K >= 0)
required to sort the pancakes and a sequence of K numbers, each of which gives the number of
pancakes to flip on the corresponding sorting step. There may be several correct solutions for some
datasets. For instance 3 2 3 is also a solution to the first problem below.
样例输入
3
3 +1 -3 -2
4 -3 +1 -2 -4
5 +1 +2 +3 +4 -5
样例输出
1 6 2 1 3 1 2 1
2 6 4 1 4 3 1 2
3 3 5 1 5
提示
undefined
题目来源
Greater New York Region 2007
/* WA1 #include<iostream> #define MAX_N 31 int a[MAX_N]; int op[MAX_N*3]; bool flag[MAX_N]; int flipNo,n; void flip(int k){ int i,temp; bool tempFlag; op[flipNo++] = k; for(i=0;i<k;i++){ flag[i] = !flag[i]; } for(i=0;(i<<1)<k;i++){ temp = a[i]; a[i] = a[k-1-i]; a[k-1-i] = temp; tempFlag = flag[i]; flag[i] = flag[k-1-i]; flag[k-1-i] = tempFlag; } } void init(){ int i; scanf("%d",&n); flipNo = 0; for(i=0;i<n;i++){ scanf("%d",a+i); if(a[i]<0){ flag[i] = 1; //为1表示负 a[i] = -a[i]; }else{ flag[i] = 0; } } } void handle(int k){ int i; for(i=0;i<k;i++){ if(a[i] == k){ break; } } if(i==k-1 && flag[i]==0){ //不需要处理 return; } if(i==0){ // WA k!=1 if(flag[0]==0){ flip(1); } return; } i++; flip(i); if(flag[0]==0){ flip(1); } flip(k); } void print(){ int i; printf("%d",flipNo); for(i=0;i<flipNo;i++){ printf(" %d",op[i]); } printf("\n"); } int main(){ // freopen("test.txt","r",stdin); int cas,ca,i; scanf("%d",&cas); for(ca=1;ca<=cas;ca++){ init(); for(i=n;i>0;i--){ handle(i); } printf("%d ",ca); print(); } } */ /* // AC 15MS #include<iostream> #define MAX_N 35 int a[MAX_N]; int op[MAX_N*3]; bool flag[MAX_N]; int flipNo,n; void flip(int k){ int i,temp; bool tempFlag; op[flipNo++] = k; for(i=0;i<k;i++){ flag[i] = !flag[i]; } for(i=0;(i<<1)<k;i++){ temp = a[i]; a[i] = a[k-1-i]; a[k-1-i] = temp; tempFlag = flag[i]; flag[i] = flag[k-1-i]; flag[k-1-i] = tempFlag; } } void init(){ int i; scanf("%d",&n); flipNo = 0; for(i=0;i<n;i++){ scanf("%d",a+i); if(a[i]<0){ flag[i] = 1; //为1表示负 a[i] = -a[i]; }else{ flag[i] = 0; } } } void handle(int k){ int i; if(a[k-1]==k && flag[k-1]==0){ return; } while(1){ for(i=0;i<k;i++){ if(a[i] == k){ break; } } if(i==0 && flag[i]==1){ flip(k); return; }else{ flip(i+1); } } } void print(){ int i; printf("%d",flipNo); for(i=0;i<flipNo;i++){ printf(" %d",op[i]); } printf("\n"); } int main(){ freopen("test.txt","r",stdin); int cas,ca,i; scanf("%d",&cas); for(ca=1;ca<=cas;ca++){ init(); for(i=n;i>0;i--){ handle(i); } printf("%d ",ca); print(); } } */ // AC 15MS #include<iostream> #define MAX_N 31 int a[MAX_N]; int op[MAX_N*3]; bool flag[MAX_N]; int flipNo,n; void flip(int k){ int i,temp; bool tempFlag; op[flipNo++] = k; for(i=0;i<k;i++){ flag[i] = !flag[i]; } for(i=0;(i<<1)<k;i++){ temp = a[i]; a[i] = a[k-1-i]; a[k-1-i] = temp; tempFlag = flag[i]; flag[i] = flag[k-1-i]; flag[k-1-i] = tempFlag; } } void init(){ int i; scanf("%d",&n); flipNo = 0; for(i=0;i<n;i++){ scanf("%d",a+i); if(a[i]<0){ flag[i] = 1; //为1表示负 a[i] = -a[i]; }else{ flag[i] = 0; } } } void handle(int k){ int i; for(i=0;i<k;i++){ if(a[i] == k){ break; } } if(i==k-1 && flag[i]==0){ //不需要处理 return; } if(k==1){ flip(1); return; } if(i){ flip(i+1); } if(flag[0]==0){ flip(1); } flip(k); } void print(){ int i; printf("%d",flipNo); for(i=0;i<flipNo;i++){ printf(" %d",op[i]); } printf("\n"); } int main(){ // freopen("test.txt","r",stdin); int cas,ca,i; scanf("%d",&cas); for(ca=1;ca<=cas;ca++){ init(); for(i=n;i>0;i--){ handle(i); } printf("%d ",ca); print(); } }