hello-algo/codes/c/chapter_graph/graph_adjacency_list.c

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/**
* File: graph_adjacency_list.c
* Created Time: 2023-07-07
* Author: NI-SW (947743645@qq.com)
*/
#include "../utils/common.h"
// 假设节点最大数量为 100
#define MAX_SIZE 100
/* 节点结构体 */
typedef struct AdjListNode {
Vertex *vertex; // 顶点
struct AdjListNode *next; // 后继节点
} AdjListNode;
/* 基于邻接表实现的无向图类 */
typedef struct {
AdjListNode *heads[MAX_SIZE]; // 节点数组
int size; // 节点数量
} GraphAdjList;
/* 构造函数 */
GraphAdjList *newGraphAdjList() {
GraphAdjList *graph = (GraphAdjList *)malloc(sizeof(GraphAdjList));
if (!graph) {
return NULL;
}
graph->size = 0;
for (int i = 0; i < MAX_SIZE; i++) {
graph->heads[i] = NULL;
}
return graph;
}
/* 析构函数 */
void delGraphAdjList(GraphAdjList *graph) {
for (int i = 0; i < graph->size; i++) {
AdjListNode *cur = graph->heads[i];
while (cur != NULL) {
AdjListNode *next = cur->next;
if (cur != graph->heads[i]) {
free(cur);
}
cur = next;
}
free(graph->heads[i]->vertex);
free(graph->heads[i]);
}
free(graph);
}
/* 查找顶点对应的节点 */
AdjListNode *findNode(GraphAdjList *graph, Vertex *vet) {
for (int i = 0; i < graph->size; i++) {
if (graph->heads[i]->vertex == vet) {
return graph->heads[i];
}
}
return NULL;
}
/* 添加边辅助函数 */
void addEdgeHelper(AdjListNode *head, Vertex *vet) {
AdjListNode *node = (AdjListNode *)malloc(sizeof(AdjListNode));
node->vertex = vet;
// 头插法
node->next = head->next;
head->next = node;
}
/* 添加边 */
void addEdge(GraphAdjList *graph, Vertex *vet1, Vertex *vet2) {
AdjListNode *head1 = findNode(graph, vet1);
AdjListNode *head2 = findNode(graph, vet2);
assert(head1 != NULL && head2 != NULL && head1 != head2);
// 添加边 vet1 - vet2
addEdgeHelper(head1, vet2);
addEdgeHelper(head2, vet1);
}
/* 删除边辅助函数 */
void removeEdgeHelper(AdjListNode *head, Vertex *vet) {
AdjListNode *pre = head;
AdjListNode *cur = head->next;
// 在链表中搜索 vet 对应节点
while (cur != NULL && cur->vertex != vet) {
pre = cur;
cur = cur->next;
}
if (cur == NULL)
return;
// 将 vet 对应节点从链表中删除
pre->next = cur->next;
// 释放内存
free(cur);
}
/* 删除边 */
void removeEdge(GraphAdjList *graph, Vertex *vet1, Vertex *vet2) {
AdjListNode *head1 = findNode(graph, vet1);
AdjListNode *head2 = findNode(graph, vet2);
assert(head1 != NULL && head2 != NULL);
// 删除边 vet1 - vet2
removeEdgeHelper(head1, head2->vertex);
removeEdgeHelper(head2, head1->vertex);
}
/* 添加顶点 */
void addVertex(GraphAdjList *graph, Vertex *vet) {
assert(graph != NULL && graph->size < MAX_SIZE);
AdjListNode *head = (AdjListNode *)malloc(sizeof(AdjListNode));
head->vertex = vet;
head->next = NULL;
// 在邻接表中添加一个新链表
graph->heads[graph->size++] = head;
}
/* 删除顶点 */
void removeVertex(GraphAdjList *graph, Vertex *vet) {
AdjListNode *node = findNode(graph, vet);
assert(node != NULL);
// 在邻接表中删除顶点 vet 对应的链表
AdjListNode *cur = node, *pre = NULL;
while (cur) {
pre = cur;
cur = cur->next;
free(pre);
}
// 遍历其他顶点的链表,删除所有包含 vet 的边
for (int i = 0; i < graph->size; i++) {
cur = graph->heads[i];
pre = NULL;
while (cur) {
pre = cur;
cur = cur->next;
if (cur && cur->vertex == vet) {
pre->next = cur->next;
free(cur);
break;
}
}
}
// 将该顶点之后的顶点向前移动,以填补空缺
int i;
for (i = 0; i < graph->size; i++) {
if (graph->heads[i] == node)
break;
}
for (int j = i; j < graph->size - 1; j++) {
graph->heads[j] = graph->heads[j + 1];
}
graph->size--;
free(vet);
}
/* 打印邻接表 */
void printGraph(const GraphAdjList *graph) {
printf("邻接表 =\n");
for (int i = 0; i < graph->size; ++i) {
AdjListNode *node = graph->heads[i];
printf("%d: [", node->vertex->val);
node = node->next;
while (node) {
printf("%d, ", node->vertex->val);
node = node->next;
}
printf("]\n");
}
}