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#include <iostream>
#include <string>
#include <cstdio>
#include <cstring>
#include <cstdlib>
#include <queue>
#include <stack>
using namespace std;
const int SIZE = 102;
//边界数组,四个方向,按照下、右、上、左的顺序
int coordinate[4][2] = {1,0, 0,1, -1,0, 0,-1};
stack<int> sx;
stack<int> sy;
stack<int> sxCopy;
stack<int> syCopy;
int mazeBfs[SIZE][SIZE]; //广搜用的迷宫
int mazeDfs[SIZE][SIZE]; //深搜用的迷宫
int oddEven[SIZE][SIZE]; //奇偶剪枝状态数组
int n; //迷宫行数
int m; //迷宫列数
int k; //封闭房间数
int kr, kl; //每个封闭房间的行号和列号
int p, q; //小鼠a的行号和列号
int r, s; //小鼠b的行号和列号
int ShortestPathLength; //最短路径的长度
int ShortestPahtNumber; //最短路径的条数
int ans = 1; //输出第ans条最短路径
//广搜求最短路径长度
//int BFS(int p, int q, int r, int s, int len, int n, int m);
int BFS();
//深搜求最短路径条数
//void DFS(int x, int y, int r, int s, int len, int n, int m, int shortlength);
void DFS(int x, int y, int len);
int main()
{
while (scanf("%d%d%d", &n, &m, &k) != EOF)
{
memset(mazeBfs, 0, sizeof(mazeBfs)); //初始化迷宫
memset(mazeDfs, 0, sizeof(mazeDfs));
//奇偶剪枝数组初始化
for (int i=0; i<=n; i++)
{
if (i%2 == 1)
{
for (int j=0; j<=m; j++)
{
if (j%2 == 1)
{
oddEven[i][j] = 1;
}
else
{
oddEven[i][j] = 0;
}
}
}
else
{
for (int j=0; j<=m; j++)
{
if (j%2 == 1)
{
oddEven[i][j] = 0;
}
else
{
oddEven[i][j] = 1;
}
}
}
}
for (int i=1; i<=k; i++)
{
scanf("%d%d", &kr, &kl); //输入封闭房间的坐标
//存入迷宫中,迷宫中,1代表封闭房间,0代表可以走
mazeBfs[kr][kl] = 1;
mazeDfs[kr][kl] = 1;
}
scanf("%d%d", &p, &q); //小鼠a的坐标
scanf("%d%d", &r, &s); //小鼠b的坐标
//求最短路径长度
ShortestPathLength = BFS();
if (ShortestPathLength == -1) //没路可走时
{
printf("No Solution!\n");
continue;
}
//求最短路径条数及输出所有的最短路径
ShortestPahtNumber = 0;
sx.push(p);
sy.push(q);
DFS(p, q, 0);
//输出结果
printf("最短路径长度: %d\n\n", ShortestPathLength);
printf("最短路径条数: %d\n\n", ShortestPahtNumber);
}
return 0;
}
int BFS()
{
queue<int> qx; //存横坐标的队列
queue<int> qy; //存纵坐标的队列
queue<int> qlen; //存长度的队列
int xa, ya; //当前节点坐标
int length; //到达当前节点长度
qx.push(p);
qy.push(q);
qlen.push(0);
mazeBfs[p][q] = 1;
while (!qx.empty())
{
if ((qx.front()==r) && (qy.front()==s)) //判断是否到达小鼠b
{
return qlen.front();
}
//临时保存队头值
int xx, yy ,ll;
xx = qx.front();
yy = qy.front();
ll = qlen.front();
//保存完之后,出队
qx.pop();
qy.pop();
qlen.pop();
for (int i=0; i<4; i++)
{
//算第i方向上的新值
xa = xx + coordinate[i][0];
ya = yy + coordinate[i][1];
length = ll;
//新的点在迷宫内,且没有走过
if ((xa>=1) && (xa<=n) && (ya>=1) && (ya<=m) && (mazeBfs[xa][ya]==0))
{
//入队
qx.push(xa);
qy.push(ya);
length += 1;
qlen.push(length);
//标记新点
mazeBfs[xa][ya] = 1;
}
}
}
return -1; //如果没有路,返回0
}
void DFS(int x, int y, int len)
{
if ((x==r) && (y==s) && (len==ShortestPathLength)) //找到一条最短路径
{
ShortestPahtNumber++;
//输出最短路径
printf("最短路径 %3d :\n", ans++);
int j = sx.size();
for (int i=1; i<=j; i++)
{
sxCopy.push(sx.top());
sx.pop();
syCopy.push(sy.top());
sy.pop();
}
for (int i=1; i<=j; i++)
{
printf("(%d, %d) ", sxCopy.top(), syCopy.top());
sx.push(sxCopy.top());
sxCopy.pop();
sy.push(syCopy.top());
syCopy.pop();
}
printf("\n\n");
return ;
}
//一般剪枝
int theoryShortestLength; //当前节点到终点的理论最小值
theoryShortestLength = (abs(x-r)) + (abs(y-s));
if ((len+theoryShortestLength) > ShortestPathLength) //当前长度+理论最小值>最短路径长度
{
return ;
}
//奇偶剪枝
if ((ShortestPathLength-len)%2 != ((abs(oddEven[x][y]-oddEven[r][s])) % 2))
{
return ;
}
for (int i=0; i<4; i++)
{
int xx, yy;
xx = x + coordinate[i][0];
yy = y + coordinate[i][1];
if ((xx>=1) && (xx<=n) && (yy>=1) && (yy<=m) && (mazeDfs[xx][yy]==0))
{
sx.push(xx);
sy.push(yy);
mazeDfs[xx][yy] = 1;
DFS(xx, yy, len+1);
//回溯
sx.pop();
sy.pop();
mazeDfs[xx][yy] = 0;
}
}
}
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原文地址:http://www.cnblogs.com/xiaogua918/p/4884014.html
