In this game, there is an N * M battle map, and every player has his own Moving Val (MV). In each round, every player can move in four directions as long as he has enough MV. To simplify the problem, you are given your position and asked to output which grids you can arrive.
In the map:
'Y' is your current position (there is one and only one Y in the given map).
'.' is a normal grid. It costs you 1 MV to enter in this gird.
'T' is a tree. It costs you 2 MV to enter in this gird.
'R' is a river. It costs you 3 MV to enter in this gird.
'#' is an obstacle. You can never enter in this gird.
'E's are your enemies. You cannot move across your enemy, because once you enter the grids which are adjacent with 'E', you will lose all your MV. Here “adjacent” means two grids share a common edge.
'P's are your partners. You can move across your partner, but you cannot stay in the same grid with him final, because there can only be one person in one grid.You can assume the Ps must stand on '.' . so ,it also costs you 1 MV to enter this grid.
Then T cases follow:
Each test case starts with a line contains three numbers N,M and MV (2<= N , M <=100,0<=MV<= 65536) which indicate the size of the map and Y's MV.Then a N*M two-dimensional array follows, which describe the whole map.
#include<cstdio>
#include<cstring>
#include<queue>
#include<iostream>
#include<algorithm>
using namespace std;
char map1[105][105],ans[105][105];
int m,n,mv;
int startx,starty;
int count1[105][105];
int NEXT[4][2]={1,0,0,-1,-1,0,0,1};
struct node
{
int x;
int y;
int s;
}q1,q2;
queue<node>qu;
int calulate(int x1,int y1,int v)
{
int tx,ty,ret;
if( map1[x1][y1]=='T')
ret=v-2;
else if( map1[x1][y1]=='R')
ret=v-3;
else
ret=v-1;
for(int i=0;i<=3;i++)
{
tx=x1+NEXT[i][0];
ty=y1+NEXT[i][1];
if(tx<1||tx>m||ty<1||ty>n)
continue;
if( map1[tx][ty]=='E')
{
if(ret>0)
return 0;
else
return ret;
}
}
return ret;
}
void bfs()
{
q1.x=startx;
q1.y=starty;
q1.s=mv;
qu.push(q1);
count1[startx][starty]=mv;
while(!qu.empty())
{
q1=qu.front();
qu.pop();
if(q1.s==0)
continue;
for(int k=0;k<=3;k++)
{
q2.x=q1.x+NEXT[k][0];
q2.y=q1.y+NEXT[k][1];
if(q2.x<1||q2.x>m||q2.y<1||q2.y>n)
continue;
if( map1[q2.x][q2.y]=='#'|| map1[q2.x][q2.y]=='Y'|| map1[q2.x][q2.y]=='E')
continue;
q2.s=calulate(q2.x,q2.y,q1.s);
if(q2.s<0)
continue;
if(q2.s>count1[q2.x][q2.y])
{
count1[q2.x][q2.y]=q2.s;
qu.push(q2);
if( map1[q2.x][q2.y]!='P')
ans[q2.x][q2.y]='*';
}
}
}
}
int main()
{
int t;
scanf("%d",&t);
while(t--)
{
memset(count1,-1,sizeof(count1));
memset( map1,0,sizeof( map1));
memset(ans,0,sizeof(ans));
scanf("%d%d%d",&m,&n,&mv);
getchar();
for(int i=1;i<=m;i++)
{
for(int j=1;j<=n;j++)
{
scanf("%c",&map1[i][j]);
ans[i][j]= map1[i][j];
if( map1[i][j]=='Y')
{
startx=i;
starty=j;
}
}
getchar();
}
bfs();
for(int i=1;i<=m;i++)
{
for(int j=1;j<=n;j++)
printf("%c",ans[i][j]);
printf("
");
}
printf("
");
}
return 0;
}