// Graph2.cpp : 定义控制台应用程序的入口点。
//
#include "stdafx.h"
#include<iostream>
#include<queue>
using namespace std;
typedef int Vertex;
#define NotAVertex 0
#define INF 65536
//定义链表节点////////////////////////////////////
typedef struct TreeNode *Position;
struct TreeNode {
int vertex;
int weight;
Position Next;
};
//定义邻接表结构/////////////////////////////////////
typedef struct adjaceency_list *adjaceency;
struct adjaceency_list {
int numVertex; //大小
Position* table; //表地址
};
//邻接表初始化函数////////////////////////////////////
adjaceency initAdjaceency_list(int numVertex)
{
//申请一个邻接表地址,给邻接表赋初值
adjaceency adja = (adjaceency)malloc(sizeof(adjaceency_list));
adja->numVertex = numVertex;
if (adja == NULL)
cout << "Error";
//申请一个table地址
adja->table = (Position*)malloc(sizeof(Position)*(adja->numVertex + 1));
if (adja->table == NULL)
cout << "Error";
//给邻接表每一个表项添加一个链表表头
for (int i = 1; i <= adja->numVertex; i++) {
adja->table[i] = (Position)malloc(sizeof(TreeNode));
if (adja->table[i] == NULL)
cout << "Error";
else {
adja->table[i]->vertex = i;
adja->table[i]->weight = 0; //给每个邻接表项的链表头的权重设为0
adja->table[i]->Next = NULL;
}
}
return adja;
}
//邻接表的插入函数,制定一个顶点per_ver,把邻接的顶点aft_ver插入其后//////////////////////////////////
void Insert(adjaceency adja, Vertex per_ver, Vertex aft_ver, int weight)
{
//申请一个链表节点地址
Position inser = (Position)malloc(sizeof(TreeNode));
if (inser == NULL)
cout << "Error";
//从头插入,修改指针
inser->vertex = aft_ver;
inser->weight = weight; //从per_ver指向aft_ver的权重
inser->Next = adja->table[per_ver]->Next;
adja->table[per_ver]->Next = inser;
}
//打印邻接表//////////////////////////////////////////
void print(adjaceency adja)
{
cout << "Vertex" << endl;
for (int i = 1; i <= adja->numVertex; i++)
{
Position p = adja->table[i];
while (p != NULL) {
cout << p->vertex << ' ';
p = p->Next;
}
cout << endl;
}
cout << endl;
}
//寻找通用汇点,通用汇点是指入度为V-1,出度为0的点
Vertex findUniversalSink(adjaceency adja)
{
Vertex UniversalSink;
Position p;
bool flag = false;
//先寻找有没有出度为0的点,若没有直接返回一个空点NotAVertex;
for (Vertex ver = 1; ver <= adja->numVertex; ver++)
if (adja->table[ver]->Next == NULL)
{
UniversalSink = ver;
flag = true;
//这个标志位是为了下面的循环服务的,若下面的循环没有修改这个标志位,说明所有点的邻接点都有UniversalSink;
}
if (!flag) return NotAVertex;
//能运行到这里说明有出度为0的点,有且只有一个,检查是不是所有邻接链表都有它
for (Vertex ver = 1; ver <= adja->numVertex; ver++)
{
if (ver == UniversalSink) //本身不检查
continue;
else
{
//每一个链表查找
p = adja->table[ver]->Next;
while (p)
{
if (p->vertex == UniversalSink)
break;
p = p->Next;
}
//如果P==NULL说明上面的循环没有提前退出,可见UniversalSink不在该链表里,所以可以直接退出大循环,并设标志位为假
if (p == NULL)
{
break;
flag = false;
}
}
}
return flag ? UniversalSink : NotAVertex;
}
int main()
{
//初始化邻接表////////////////////////////////////////
adjaceency adja = initAdjaceency_list(7);
Insert(adja, 1, 3, 4); Insert(adja, 1, 4, 1); Insert(adja, 1, 2, 2);
Insert(adja, 2, 5, 10); Insert(adja, 2, 4, 3);
Insert(adja, 3, 6, 5);
Insert(adja, 4, 3, 2); Insert(adja, 4, 7, 4); Insert(adja, 4, 6, 8);
Insert(adja, 5, 7, 6); Insert(adja, 5, 4, 2);
Insert(adja, 6, 4, 1);
Insert(adja, 7, 6, 1);
print(adja);
//寻找通用汇点
Vertex UniversalSink = findUniversalSink(adja);
if (findUniversalSink(adja))
cout << "本图的通用汇点为V" << UniversalSink << endl;
else
cout << "本图没有通用汇点" << endl;
while (1);
return 0;
}