| Time Limit: 1000MS | Memory Limit: 65536K | |||
| Total Submissions: 13545 | Accepted: 5717 | Special Judge | ||
Description
You are given two pots, having the volume of A and B liters respectively. The following operations can be performed:
- FILL(i) fill the pot i (1 ≤ i ≤ 2) from the tap;
- DROP(i) empty the pot i to the drain;
- POUR(i,j) pour from pot i to pot j; after this operation either the pot j is full (and there may be some water left in the pot i), or the pot i is empty (and all its contents have been moved to the pot j).
Write a program to find the shortest possible sequence of these operations that will yield exactly C liters of water in one of the pots.
Input
On the first and only line are the numbers A, B, and C. These are all integers in the range from 1 to 100 and C≤max(A,B).
Output
The first line of the output must contain the length of the sequence of operations K. The following K lines must each describe one operation. If there are several sequences of minimal length, output any one of them. If the desired result can’t be achieved, the first and only line of the file must contain the word ‘impossible’.
Sample Input
3 5 4
Sample Output
6 FILL(2) POUR(2,1) DROP(1) POUR(2,1) FILL(2) POUR(2,1)
Source
Poj3414
题目大意: 有二个水壶,对水壶有三种操作,1)FILL(i),将i水壶的水填满,2)DROP(i),将水壶i中的水全部倒掉,3)POUR(i,j)将水壶i中的水倒到水壶j中,若水壶 j 满了,则 i 剩下的就不倒了,问进行多少步操作,并且怎么操作,输出操作的步骤,两个水壶中的水可以达到C这个水量。如果不可能则输出impossible。初始时两个水壶是空的,没有水。
#include<stdio.h> #include<string.h> const int maxn = 110; int vis[maxn][maxn]; //标记状态是否入队过 int a,b,c; //容器大小 int step; //最终的步数 int flag; //纪录是否能够成功 /* 状态纪录 */ struct Status{ int k1,k2; //当前水的状态 int op; //当前操作 int step; //纪录步数 int pre; //纪录前一步的下标 }q[maxn*maxn]; int id[maxn*maxn]; //纪录最终操作在队列中的编号 int lastIndex; //最后一个的编号 void bfs() { Status now, next; int head, tail; head = tail = 0; q[tail].k1 = 0; q[tail].k2 = 0; q[tail].op = 0; q[tail].step = 0; q[tail].pre = 0; tail++; memset(vis,0,sizeof(vis)); vis[0][0] = 1; //标记初始状态已入队 while(head < tail) //当队列非空 { now = q[head]; //取出队首 head++; //弹出队首 if(now.k1 == c || now.k2 == c) //应该不会存在这样的情况, c=0 { flag = 1; step = now.step; lastIndex = head-1; //纪录最后一步的编号 } for(int i = 1; i <= 6; i++) //分别遍历 6 种情况 { if(i == 1) //fill(1) { next.k1 = a; next.k2 = now.k2; } else if(i == 2) //fill(2) { next.k1 = now.k1; next.k2 = b; } else if(i == 3) //drop(1) { next.k1 = 0; next.k2 = now.k2; } else if(i == 4) // drop(2); { next.k1 = now.k1; next.k2 = 0; } else if(i == 5) //pour(1,2) { if(now.k1+now.k2 <= b) //如果不能够装满 b { next.k1 = 0; next.k2 = now.k1+now.k2; } else //如果能够装满 b { next.k1 = now.k1+now.k2-b; next.k2 = b; } } else if(i == 6) // pour(2,1) { if(now.k1+now.k2 <= a) //如果不能够装满 a { next.k1 = now.k1+now.k2; next.k2 = 0; } else //如果能够装满 b { next.k1 = a; next.k2 = now.k1+now.k2-a; } } next.op = i; //纪录操作 if(!vis[next.k1][next.k2]) //如果当前状态没有入队过 { vis[next.k1][next.k2] = 1; //标记当前状态入队 next.step = now.step+1; //步数 +1 next.pre = head-1; //纪录前一步的编号 //q.push(next); //q[tail] = next; 加入队尾 q[tail].k1 = next.k1; q[tail].k2 = next.k2; q[tail].op = next.op; q[tail].step = next.step; q[tail].pre = next.pre; tail++; //队尾延长 if(next.k1 == c || next.k2 == c) //如果达到目标状态 { flag = 1; //标记成功 step = next.step; //纪录总步骤数 lastIndex = tail-1; //纪录最后一步在模拟数组中的编号 return; } } } } } int main() { while(scanf("%d%d%d", &a,&b,&c) != EOF) { flag = 0; //初始化不能成功 step = 0; bfs(); if(flag) { printf("%d ", step); id[step] = lastIndex; //最后一步在模拟数组中的编号 for(int i = step-1; i >= 1; i--) { id[i] = q[id[i+1]].pre; //向前找前一步骤在模拟数组中的编号 } for(int i = 1; i <= step; i++) { if(q[id[i]].op == 1) printf("FILL(1) "); else if(q[id[i]].op == 2) printf("FILL(2) "); else if(q[id[i]].op == 3) printf("DROP(1) "); else if(q[id[i]].op == 4) printf("DROP(2) "); else if(q[id[i]].op == 5) printf("POUR(1,2) "); else if(q[id[i]].op == 6) printf("POUR(2,1) "); } } else printf("impossible "); } return 0; }