/** * File: graph_dfs.c * Created Time: 2023-07-13 * Author: NI-SW (947743645@qq.com) */ #include "graph_adjacency_list.c" // Assume maximum number of nodes is 100 #define MAX_SIZE 100 /* Check if vertex has been visited */ int isVisited(Vertex **res, int size, Vertex *vet) { // Traversal search node, using O(n) time for (int i = 0; i < size; i++) { if (res[i] == vet) { return 1; } } return 0; } /* Depth-first traversal helper function */ void dfs(GraphAdjList *graph, Vertex **res, int *resSize, Vertex *vet) { // Record visited vertex res[(*resSize)++] = vet; // Traverse all adjacent vertices of that vertex AdjListNode *node = findNode(graph, vet); while (node != NULL) { // Skip already visited vertices if (!isVisited(res, *resSize, node->vertex)) { // Recursively visit adjacent vertices dfs(graph, res, resSize, node->vertex); } node = node->next; } } /* Depth-first traversal */ // Use adjacency list to represent the graph, to obtain all adjacent vertices of a specified vertex void graphDFS(GraphAdjList *graph, Vertex *startVet, Vertex **res, int *resSize) { dfs(graph, res, resSize, startVet); } /* Driver Code */ int main() { // Initialize undirected graph int vals[] = {0, 1, 2, 3, 4, 5, 6}; int size = sizeof(vals) / sizeof(vals[0]); Vertex **v = valsToVets(vals, size); Vertex *edges[][2] = {{v[0], v[1]}, {v[0], v[3]}, {v[1], v[2]}, {v[2], v[5]}, {v[4], v[5]}, {v[5], v[6]}}; int egdeSize = sizeof(edges) / sizeof(edges[0]); GraphAdjList *graph = newGraphAdjList(); // Add all vertices and edges for (int i = 0; i < size; i++) { addVertex(graph, v[i]); } for (int i = 0; i < egdeSize; i++) { addEdge(graph, edges[i][0], edges[i][1]); } printf("\nAfter initialization, the graph is\n"); printGraph(graph); // Depth-first traversal Vertex *res[MAX_SIZE]; int resSize = 0; graphDFS(graph, v[0], res, &resSize); printf("\nDepth-first search (DFS) vertex sequence is\n"); printArray(vetsToVals(res, resSize), resSize); // Free memory delGraphAdjList(graph); free(v); return 0; }