The Donkey of Gui Zhou
Time Limit: 1000ms
Memory Limit: 32768KB
This problem will be judged on HDU. Original ID: 474064-bit integer IO format: %I64d Java class name: Main
There was no donkey in the province of Gui Zhou, China. A trouble maker shipped one and put it in the forest which could be considered as an N×N grid. The coordinates of the up-left cell is (0,0) , the down-right cell is (N-1,N-1) and the cell below the up-left cell is (1,0)..... A 4×4 grid is shown below:
The donkey lived happily until it saw a tiger far away. The donkey had never seen a tiger ,and the tiger had never seen a donkey. Both of them were frightened and wanted to escape from each other. So they started running fast. Because they were scared, they were running in a way that didn't make any sense. Each step they moved to the next cell in their running direction, but they couldn't get out of the forest. And because they both wanted to go to new places, the donkey would never stepped into a cell which had already been visited by itself, and the tiger acted the same way. Both the donkey and the tiger ran in a random direction at the beginning and they always had the same speed. They would not change their directions until they couldn't run straight ahead any more. If they couldn't go ahead any more ,they changed their directions immediately. When changing direction, the donkey always turned right and the tiger always turned left. If they made a turn and still couldn't go ahead, they would stop running and stayed where they were, without trying to make another turn. Now given their starting positions and directions, please count whether they would meet in a cell.
The donkey lived happily until it saw a tiger far away. The donkey had never seen a tiger ,and the tiger had never seen a donkey. Both of them were frightened and wanted to escape from each other. So they started running fast. Because they were scared, they were running in a way that didn't make any sense. Each step they moved to the next cell in their running direction, but they couldn't get out of the forest. And because they both wanted to go to new places, the donkey would never stepped into a cell which had already been visited by itself, and the tiger acted the same way. Both the donkey and the tiger ran in a random direction at the beginning and they always had the same speed. They would not change their directions until they couldn't run straight ahead any more. If they couldn't go ahead any more ,they changed their directions immediately. When changing direction, the donkey always turned right and the tiger always turned left. If they made a turn and still couldn't go ahead, they would stop running and stayed where they were, without trying to make another turn. Now given their starting positions and directions, please count whether they would meet in a cell.
Input
There are several test cases.
In each test case:
First line is an integer N, meaning that the forest is a N×N grid.
The second line contains three integers R, C and D, meaning that the donkey is in the cell (R,C) when they started running, and it's original direction is D. D can be 0, 1, 2 or 3. 0 means east, 1 means south , 2 means west, and 3 means north.
The third line has the same format and meaning as the second line, but it is for the tiger.
The input ends with N = 0. ( 2 <= N <= 1000, 0 <= R, C < N)
In each test case:
First line is an integer N, meaning that the forest is a N×N grid.
The second line contains three integers R, C and D, meaning that the donkey is in the cell (R,C) when they started running, and it's original direction is D. D can be 0, 1, 2 or 3. 0 means east, 1 means south , 2 means west, and 3 means north.
The third line has the same format and meaning as the second line, but it is for the tiger.
The input ends with N = 0. ( 2 <= N <= 1000, 0 <= R, C < N)
Output
For each test case, if the donkey and the tiger would meet in a cell, print the coordinate of the cell where they meet first time. If they would never meet, print -1 instead.
Sample Input
2 0 0 0 0 1 2 4 0 1 0 3 2 0 0
Sample Output
-1 1 3
Source
解题:模拟什么的最难搞了
1 #include <iostream> 2 #include <cstdio> 3 #include <cstring> 4 #include <cmath> 5 #include <algorithm> 6 #include <climits> 7 #include <vector> 8 #include <queue> 9 #include <cstdlib> 10 #include <string> 11 #include <set> 12 #include <stack> 13 #define LL long long 14 #define INF 0x3f3f3f3f 15 #define pii pair<int,int> 16 using namespace std; 17 const int maxn = 1005; 18 bool vd[maxn][maxn],vt[maxn][maxn]; 19 int n,dx,dy,dr,tx,ty,tr; 20 bool dstop,tstop; 21 const int dir[4][2] = {0,1,1,0,0,-1,-1,0}; 22 bool ismeet() { 23 return (tx == dx && ty == dy); 24 } 25 bool isIn(int x,int y) { 26 return (x >= 0 && y >= 0 && x < n && y < n); 27 } 28 bool go() { 29 dstop = false; 30 tstop = false; 31 while(true) { 32 int nx = dx + dir[dr][0]; 33 int ny = dy + dir[dr][1]; 34 if(!dstop&&isIn(nx,ny) && !vd[nx][ny]) { 35 dx = nx; 36 dy = ny; 37 vd[dx][dy] = true; 38 } else if(!dstop) { 39 int ddr = (dr + 1)%4; 40 nx = dx + dir[ddr][0]; 41 ny = dy + dir[ddr][1]; 42 if(isIn(nx,ny) && !vd[nx][ny]) { 43 dx = nx; 44 dy = ny; 45 dr = ddr; 46 vd[dx][dy] = true; 47 } else dstop = true; 48 } 49 50 nx = tx + dir[tr][0]; 51 ny = ty + dir[tr][1]; 52 if(!tstop && isIn(nx,ny) && !vt[nx][ny]) { 53 tx = nx; 54 ty = ny; 55 vt[tx][ty] = true; 56 } else if(!tstop) { 57 int ttr = (tr + 3)%4; 58 nx = tx + dir[ttr][0]; 59 ny = ty + dir[ttr][1]; 60 if(isIn(nx,ny) && !vt[nx][ny]) { 61 tx = nx; 62 ty = ny; 63 tr = ttr; 64 vt[tx][ty] = true; 65 } else tstop = true; 66 } 67 if(ismeet()) return true; 68 if(tstop && dstop) break; 69 } 70 return false; 71 } 72 int main() { 73 while(scanf("%d",&n),n) { 74 scanf("%d %d %d",&dx,&dy,&dr); 75 scanf("%d %d %d",&tx,&ty,&tr); 76 memset(vd,false,sizeof(vd)); 77 memset(vt,false,sizeof(vt)); 78 vd[dx][dy] = true; 79 vt[tx][ty] = true; 80 if(tx == dx && dy == ty) { 81 printf("%d %d ",tx,ty); 82 continue; 83 } 84 if(go()) printf("%d %d ",tx,ty); 85 else puts("-1"); 86 } 87 return 0; 88 }