Codeforces-A. Shortest path of the king(简单bfs记录路径)
A. Shortest path of the king
time limit per test
1 second
memory limit per test
64 megabytes
input
standard input
output
standard output
The king is left alone on the chessboard. In spite of this loneliness, he doesn't lose heart, because he has business of national importance. For example, he has to pay an official visit to square t. As the king is not in habit of wasting his time, he wants to get from his current position s to square t in the least number of moves. Help him to do this.
In one move the king can get to the square that has a common side or a common vertex with the square the king is currently in (generally there are 8 different squares he can move to).
Input
The first line contains the chessboard coordinates of square s, the second line — of square t.
Chessboard coordinates consist of two characters, the first one is a lowercase Latin letter (from a to h), the second one is a digit from 1 to 8.
Output
In the first line print n — minimum number of the king's moves. Then in n lines print the moves themselves. Each move is described with one of the 8: L, R, U, D, LU, LD, RU or RD.
L, R, U, D stand respectively for moves left, right, up and down (according to the picture), and 2-letter combinations stand for diagonal moves. If the answer is not unique, print any of them.
Examples
input
a8 h1
output
7 RD RD RD RD RD RD RD
解题思路:一个8*8的图,8个方向移动,字符转化为数字表示,bfs记录路径最短路径,到达目标点即遍历结束,记录路径,路径移动方向转变为题中的字符方向。
#include <iostream>
#include <string.h>
#include <stdlib.h>
#include <algorithm>
#include <stdio.h>
#include <queue>
using namespace std;
int d_x[4] = { 0, 1, -1 };
int d_y[4] = { 0, 1, -1 };
int e[10][10], book[10][10];
int next[2][10000];
int end_xx[10000],end_yy[10000];
int sum;
int start_x, start_y, end_x, end_y;
struct node {
int pre;
int x, y;
int step;
};
node qt[10000];
void conversion(int x,int y){
if(x==1){
cout<<"R";
}else if(x==-1){
cout<<"L";
}
if(y==-1){
cout<<"D";
}else if(y==1){
cout<<"U";
}
}
void bfs() {
int head = 1;
int tail = 1;
node q;
q.x = start_x;
q.y = start_y;
q.pre = head;
q.step = 0;
qt[tail] = q;
qt[tail].pre = head;
tail++;
queue<node> qq;
qq.push( q );
while( !qq.empty() ) {
node temp = qq.front();
head = temp.pre;
// cout<<"head = "<<head<<endl;
if( temp.x == end_x && temp.y == end_y ) {
int xx = temp.x;
int yy = temp.y;
sum = 0;
// cout<<"temp.pre = "<<temp.pre<<endl;
int t = qt[temp.pre].pre;
// cout<<"t ="<<t<<endl;
while(true){
// cout<<sum<<endl;
end_xx[sum] = xx-qt[t].x;
end_yy[sum] = yy-qt[t].y;
sum++;
xx = qt[t].x;
yy = qt[t].y;
if(t==1) break;
t = qt[t].pre;
}
break;
}
for(int i=0;i<3;i++){
for(int j =0;j<3;j++){
if(i==0 && j==0) continue;
int dx = temp.x + d_x[i];
int dy = temp.y + d_y[j];
if(dx>8 || dy>8 || dx<1 || dy<1) continue;
if(book[dx][dy]==0 ){
book[dx][dy] = 1;
node tt;
tt.x = dx;
tt.y = dy;
tt.pre = tail;
tt.step = temp.step+1;
qt[tail] = tt;
qt[tail].pre = head;
tail++;
qq.push(tt);
}
}
}
qq.pop();
}
return;
}
int main() {
char start[2];
char end[2];
while(cin>>start[0]>>start[1]>>end[0]>>end[1]){
start_x = start[0]-'a'+1;
start_y = start[1]-'0';
end_x = end[0]-'a'+1;
end_y = end[1]-'0';
// cout<<start_x<<" "<<end_x<<endl;
//
// cout<<start_y<<" "<<end_y<<endl;
if(start_x == end_x && start_y == end_y) {
cout<<"0"<<endl;
continue;
}
memset( book, 0, sizeof( book ) );
book[start_x][start_y] = 1;
bfs();
cout<<sum<<endl;
for( int i = sum-1 ; i >= 0; i-- ) {
// cout<<end_xx[i]<<" "<<end_yy[i]<<endl;
conversion( end_xx[i], end_yy[i] );
cout<<endl;
}
}
return 0;
}
