一步一步学数据结构之n--n(图遍历--深度优先遍历--非递归实现)

时间:2023-03-09 17:51:27
一步一步学数据结构之n--n(图遍历--深度优先遍历--非递归实现)

前面已经说了图的深度优先遍历算法,是用递归实现的,而在这里就讲一下用非递归实现,需要借助栈:

算法思想:

       1. 栈初始化

       2. 输出起始顶点,起始顶点改为“已访问”标志,将起始顶点进栈

       3. 重复下列操作直到栈为空:

                 3.1 取栈顶元素顶点

                 3.2 栈顶元素顶点存在未被访问过的邻接点w,则:

                                3.2.1  输出顶点w

                                3.2.2  将顶点w改为“已访问”标志

                                3.2.3  将顶点w进栈

                 3.3 否则,当前顶点出栈

        非递归实现深度优先遍历(邻接链表法)

static void orther_dfs(TLGraph* tGraph, int v, int visited[], LGraph_Printf* pFunc)

{

	LinkStack* stack = LinkStack_Create();

	LinkStack_Push(stack, tGraph->v + v);

	while(!LinkStack_Empty(stack))

	{

		int w = (LVertex**)LinkStack_Top(stack) - tGraph->v;

		LinkStack_Pop(stack);

		if(!visited[w])

		{

			int i = 0;

			pFunc(tGraph->v[w]);

			visited[w] = 1;

			for(i=0; i<LinkList_Length(tGraph->la[v]); i++)

			{

				if(!visited[i])

				{

					LinkStack_Push(stack, tGraph->v + i);

				}

			}

		}

	}

	LinkStack_Destroy(stack);

}

void LGraph_DFS_Orther(LGraph* graph, int v, LGraph_Printf* pFunc)

{

	TLGraph* tGraph = (TLGraph*)graph;

	int* visited = NULL;

	int condition = (NULL != tGraph);

	condition = condition && (0 <= v) && (v < tGraph->count);

	condition = condition && (NULL != pFunc);

	condition = condition && (NULL != (visited = (int*)calloc(tGraph->count, sizeof(int))));

	if(condition)

	{

		int i = 0;

		orther_dfs(tGraph, v, visited, pFunc);

		for(i=0; i<tGraph->count; i++)

		{

			if(!visited[i])

			{

				orther_dfs(tGraph, i, visited, pFunc);

			}

		}

		printf("\n");

	}

	free(visited);

}

        非递归实现深度优先遍历(邻接矩阵法)

        

static void orther_dfs(TMGraph* tGraph, int v, int visited[], MGraph_Printf* pFunc)

{

	LinkStack* stack = LinkStack_Create();

	LinkStack_Push(stack, tGraph->v + v);

	while(!LinkStack_Empty(stack))

	{

		int w = (MVertex**)LinkStack_Top(stack) - tGraph->v;

		LinkStack_Pop(stack);

		if(!visited[w])

		{

			int i = 0;

			pFunc(tGraph->v[w]);

			visited[w] = 1;

			for(i=0; i<LinkList_Length(tGraph->count); i++)

			{

				if((0!=tGraph->matrix[v][i]) && (!visited[i]))

				{

					LinkStack_Push(stack, tGraph->v + i);

				}

			}

		}

	}

	LinkStack_Destroy(stack);

}

void MGraph_DFS_Orther(MGraph* graph, int v, MGraph_Printf* pFunc)

{

	TMGraph* tGraph = (TMGraph*)graph;

	int* visited = NULL;

	int condition = (NULL != tGraph);

	condition = condition && (0 <= v) && (v < tGraph->count);

	condition = condition && (NULL != pFunc);

	condition = condition && (NULL != (visited = (int*)calloc(tGraph->count, sizeof(int))));

	if(condition)

	{

		int i = 0;

		orther_dfs(tGraph, v, visited, pFunc);

		for(i=0; i<tGraph->count; i++)

		{

			if(!visited[i])

			{

				orther_dfs(tGraph, i, visited, pFunc);

			}

		}

		printf("\n");

	}

	free(visited);

}