判断从顶点u到v是否有路径
void ExistPath(AdjGraph* G, int u, int v, bool& has)
{
int w;
ArcNode* p;
visit[u] = 1;
if (u == v)
{
has = true;
return;
}
p = G->adjlist[u].firstarc;
while (p != NULL)
{
w = p->adjvex;
if (visit[w] == 0)
ExistPath(G, w, v, has);
p = p->nextarc;
}
}
输出u到v的一条简单路径
void FindPath(AdjGraph* G, int u, int v, int path[], int d)
{
path[++d] = u;
visit[u] = 1;
if (u == v)
{
for (int i = 0; i <= d; i++)
printf("%d ", path[i]);
printf("\n");
return;
}
ArcNode* p = G->adjlist[u].firstarc;
while (p != NULL)
{
if (visit[p->adjvex] == 0)
FindPath(G, p->adjvex, v, path, d);
p = p->nextarc;
}
}
输出u到v的所有简单路径,回溯的深度优先搜索算法
void FindAllPath(AdjGraph* G, int u, int v, int path[], int d)
{
path[++d] = u;
visit[u] = 1;
if (u == v)
{
for (int i = 0; i <= d; i++)
printf("%2d", path[i]);
printf("\n");
}
ArcNode* p = G->adjlist[u].firstarc;
while (p!=NULL)
{
if (visit[p->adjvex] == 0)
FindAllPath(G, p->adjvex, v, path, d);
p = p->nextarc;
}
visit[u] = 0;
}
输出u到v长度为l的路径
void FindlenPath(AdjGraph* G, int u, int v, int l, int path[], int d)
{
path[++d] = u;
visit[u] = 1;
if (u == v && d == l)
{
for (int i = 0; i <= d; i++)
printf("%2d", path[i]);
printf("\n");
}
ArcNode* p = G->adjlist[u].firstarc;
while (p != NULL)
{
if (visit[p->adjvex] == 0)
FindlenPath(G, p->adjvex, v, l, path, d);
p = p->nextarc;
}
visit[u] = 0;
}
输出u到v的最短路径
typedef struct {
int data;
int parent;
}Queue;
void ShortPath(AdjGraph* G, int u, int v)
{
int w;
ArcNode* p;
Queue qu[MAXV];
int front = -1, rear = -1;
int visit[MAXV] = { 0 };
rear++;
qu[rear].data = u;
qu[rear].parent = -1;
visit[u] = 1;
while (front != rear)
{
front++;
w = qu[front].data;
if (w == v)
{
int i = front;
while (qu[i].parent != -1)
{
printf("%2d", qu[i].data);
i = qu[i].parent;
}
printf("%2d\n", qu[i].data);
return;
}
p = G->adjlist[w].firstarc;
while (p != NULL)
{
if (visit[p->adjvex] == 0)
{
rear++;
qu[rear].data = p->adjvex;
qu[rear].parent = front;
visit[p->adjvex] = 1;
}
p = p->nextarc;
}
}
}
求距离u最短的一个顶点
int Maxdist(AdjGraph* G, int v)
{
ArcNode* p;
int qu[MAXV];
int rear = 0, front = 0;
int visit[MAXV] = { 0 };
int i, j, k;
qu[++rear] = v;
visit[v] = 1;
while (rear != front)
{
front = (front + 1) % MAXV;
k = qu[front];
p = G->adjlist[k].firstarc;
while (p != NULL)
{
if (visit[p->adjvex] == 0)
{
rear = (rear + 1) % MAXV;
qu[rear] = p->adjvex;
visit[p->adjvex] = 1;
}
p = p->nextarc;
}
}
return k;
}
输出经过k的所有简单路径
void DFSPath(AdjGraph* G, int u, int v, int path[], int d)
{
int w, i;
visit[u] = 1;
path[++d] = u;
ArcNode* p = G->adjlist[u].firstarc;
while (p != NULL)
{
w = p->adjvex;
if (w == v && d > 1)
{
printf(" ");
for (i = 0; i <= d; i++)
printf("%d ", path[i]);
printf("%d\n",v);
}
if (visit[w] == 0)
DFSPath(G, w, v, path, d);
p = p->nextarc;
}
visit[u] = 0;
}
void FindCirclePath(AdjGraph* G, int k)
{
int path[MAXV];
DFSPath(G, k, k, path, -1);
}