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varch/test/test_graph.c
Lamdonn a390743342 add graph, add windows vscode debug config
2024-08-11 02:56:16 +08:00

385 lines
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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "init.h"
#include "tool.h"
#include "valloc.h"
#include "graph.h"
#include "arg.h"
#define la(type, value) ((type[1]){value})
void graph_traverse_int(int index, void *data, int size)
{
printf("graph[%d] %d\r\n", index, *(int *)data);
}
static void test_create(void)
{
graph_t graph = NULL;
int i = 25;
int index = -1;
graph = graph_create(100, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
index = graph_add_vertex(graph, la(int, 12), sizeof(int));
printf("index %d\r\n", index);
index = graph_add_vertex(graph, la(int, 13), sizeof(int));
printf("index %d\r\n", index);
index = graph_add_vertex(graph, la(int, 15), sizeof(int));
printf("index %d\r\n", index);
index = graph_add_vertex(graph, la(int, 23), sizeof(int));
printf("index %d\r\n", index);
printf("graph_add_edge %d\r\n", graph_add_edge(graph, 0, 1, 0));
printf("graph_add_edge %d\r\n", graph_add_edge(graph, 0, 2, 0));
printf("graph_add_edge %d\r\n", graph_add_edge(graph, 2, 3, 0));
// graph_remove_edge(graph, 0, 2);
// graph_remove_vertex(graph, 0);
printf("ret %d\r\n", graph_vertex_set_data(graph, 1, la(int, 1024), sizeof(int)));
printf("graph_vertex_data %d\r\n", *(int *)graph_vertex_data(graph, 1, NULL));
graph_dfs(graph, 0, graph_traverse_int);
printf("----------------------\r\n");
graph_bfs(graph, 0, graph_traverse_int);
graph_delete(graph);
}
static void test_add_vertex(void)
{
graph_t graph = NULL;
graph = graph_create(10, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 12), sizeof(int));
graph_add_vertex(graph, la(int, 13), sizeof(int));
graph_add_vertex(graph, la(int, 15), sizeof(int));
graph_add_vertex(graph, la(int, 23), sizeof(int));
graph_ls(graph, graph_traverse_int);
graph_delete(graph);
}
static void test_add_edge(void)
{
graph_t graph = NULL;
graph = graph_create(10, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 12), sizeof(int));
graph_add_vertex(graph, la(int, 13), sizeof(int));
graph_add_vertex(graph, la(int, 15), sizeof(int));
graph_add_vertex(graph, la(int, 23), sizeof(int));
printf("---------------\r\n");
graph_dfs(graph, 0, graph_traverse_int);
printf("---------------\r\n");
graph_add_edge(graph, 0, 1, 0);
graph_add_edge(graph, 0, 2, 0);
graph_add_edge(graph, 0, 3, 0);
graph_add_edge(graph, 1, 0, 0);
graph_add_edge(graph, 1, 2, 0);
graph_add_edge(graph, 1, 3, 0);
graph_add_edge(graph, 2, 3, 0);
graph_dfs(graph, 0, graph_traverse_int);
printf("---------------\r\n");
graph_delete(graph);
}
static void test_degree(void)
{
graph_t graph = NULL;
graph = graph_create(10, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 100), sizeof(int));
graph_add_vertex(graph, la(int, 200), sizeof(int));
graph_add_vertex(graph, la(int, 300), sizeof(int));
graph_add_vertex(graph, la(int, 500), sizeof(int));
graph_add_edge(graph, 0, 1, 0);
graph_add_edge(graph, 0, 2, 0);
graph_add_edge(graph, 0, 3, 0);
graph_add_edge(graph, 1, 0, 0);
graph_add_edge(graph, 1, 2, 0);
graph_add_edge(graph, 1, 3, 0);
graph_add_edge(graph, 2, 3, 0);
printf("graph_out_degree %d\r\n", graph_out_degree(graph, 3));
printf("graph_out_degree %d\r\n", graph_out_degree(graph, 2));
printf("graph_in_degree %d\r\n", graph_in_degree(graph, 0));
printf("graph_in_degree %d\r\n", graph_in_degree(graph, 2));
graph_delete(graph);
}
static void test_remove(void)
{
graph_t graph = NULL;
graph = graph_create(100, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 100), sizeof(int));
graph_add_vertex(graph, la(int, 200), sizeof(int));
graph_add_vertex(graph, la(int, 300), sizeof(int));
graph_add_vertex(graph, la(int, 500), sizeof(int));
graph_add_edge(graph, 0, 1, 0);
graph_add_edge(graph, 0, 2, 0);
graph_add_edge(graph, 0, 3, 0);
graph_add_edge(graph, 1, 0, 0);
graph_add_edge(graph, 1, 2, 0);
graph_add_edge(graph, 1, 3, 0);
graph_add_edge(graph, 2, 3, 0);
graph_remove_vertex(graph, 1);
graph_remove_edge(graph, 0, 2);
graph_dfs(graph, 0, graph_traverse_int);
graph_delete(graph);
}
static void test_search(void)
{
graph_t graph = NULL;
graph = graph_create(100, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 100), sizeof(int));
graph_add_vertex(graph, la(int, 200), sizeof(int));
graph_add_vertex(graph, la(int, 300), sizeof(int));
graph_add_vertex(graph, la(int, 500), sizeof(int));
graph_add_edge(graph, 0, 1, 0);
graph_add_edge(graph, 0, 2, 0);
graph_add_edge(graph, 0, 3, 0);
graph_add_edge(graph, 1, 0, 0);
graph_add_edge(graph, 1, 2, 0);
graph_add_edge(graph, 1, 3, 0);
graph_add_edge(graph, 2, 3, 0);
graph_remove_vertex(graph, 1);
graph_remove_edge(graph, 0, 2);
printf("graph_ls ----------------------\r\n");
graph_ls(graph, graph_traverse_int);
printf("graph_dfs ----------------------\r\n");
graph_dfs(graph, 0, graph_traverse_int);
printf("graph_bfs ----------------------\r\n");
graph_bfs(graph, 0, graph_traverse_int);
graph_delete(graph);
}
static void test_data(void)
{
graph_t graph = NULL;
graph = graph_create(100, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 100), sizeof(int));
graph_add_vertex(graph, la(int, 200), sizeof(int));
graph_add_vertex(graph, la(int, 300), sizeof(int));
graph_add_vertex(graph, la(int, 500), sizeof(int));
graph_vertex_set_data(graph, 2, la(int, 1024), sizeof(int));
int size = 0;
printf("graph_vertex_data[3].data = %d\r\n", *(int *)graph_vertex_data(graph, 3, &size));
printf("graph_vertex_data[3].size = %d\r\n", size);
graph_ls(graph, graph_traverse_int);
graph_delete(graph);
}
static void test_weight(void)
{
graph_t graph = NULL;
graph = graph_create(100, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 100), sizeof(int));
graph_add_vertex(graph, la(int, 200), sizeof(int));
graph_add_vertex(graph, la(int, 300), sizeof(int));
graph_add_vertex(graph, la(int, 500), sizeof(int));
graph_add_edge(graph, 0, 1, 0);
graph_add_edge(graph, 0, 2, 0);
graph_add_edge(graph, 0, 3, 10);
graph_add_edge(graph, 1, 0, 0);
graph_add_edge(graph, 1, 2, 0);
graph_add_edge(graph, 1, 3, 0);
graph_add_edge(graph, 2, 3, 0);
printf("graph_get_edge_weight = %d\r\n", graph_get_edge_weight(graph, 0, 3));
graph_set_edge_weight(graph, 0, 3, 1024);
printf("graph_get_edge_weight = %d\r\n", graph_get_edge_weight(graph, 0, 3));
graph_delete(graph);
}
static void test_shortest_path(void)
{
graph_t graph = NULL;
graph = graph_create(100, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 100), sizeof(int));
graph_add_vertex(graph, la(int, 200), sizeof(int));
graph_add_vertex(graph, la(int, 300), sizeof(int));
graph_add_vertex(graph, la(int, 500), sizeof(int));
graph_add_edge(graph, 0, 1, 3);
graph_add_edge(graph, 0, 2, 2);
graph_add_edge(graph, 0, 3, 5);
graph_add_edge(graph, 1, 0, 6);
graph_add_edge(graph, 1, 2, 3);
graph_add_edge(graph, 1, 3, 2);
graph_add_edge(graph, 2, 3, 1);
graph_shortest_path(graph, 0);
graph_delete(graph);
}
static void test_min_cover(void)
{
graph_t graph = NULL;
graph = graph_create(100, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 100), sizeof(int));
graph_add_vertex(graph, la(int, 200), sizeof(int));
graph_add_vertex(graph, la(int, 300), sizeof(int));
graph_add_vertex(graph, la(int, 500), sizeof(int));
graph_add_edge(graph, 0, 1, 3);
graph_add_edge(graph, 0, 2, 2);
graph_add_edge(graph, 0, 3, 5);
graph_add_edge(graph, 1, 0, 6);
graph_add_edge(graph, 1, 2, 3);
graph_add_edge(graph, 1, 3, 2);
graph_add_edge(graph, 2, 3, 1);
graph_min_vertex_cover(graph);
graph_delete(graph);
}
static void test_others(void)
{
graph_t graph = NULL;
graph = graph_create(100, 1);
if (!graph)
{
printf("graph_create fail!\r\n");
}
graph_add_vertex(graph, la(int, 100), sizeof(int));
graph_add_vertex(graph, la(int, 200), sizeof(int));
graph_add_vertex(graph, la(int, 300), sizeof(int));
graph_add_vertex(graph, la(int, 500), sizeof(int));
graph_add_edge(graph, 0, 1, 3);
graph_add_edge(graph, 0, 2, 2);
graph_add_edge(graph, 0, 3, 5);
graph_add_edge(graph, 1, 0, 6);
graph_add_edge(graph, 1, 2, 3);
graph_add_edge(graph, 1, 3, 2);
graph_add_edge(graph, 2, 3, 1);
// graph_topological_sort(graph);
// graph_shortest_path(graph, 0);
// graph_minimum_spanning_tree(graph);
// printf("graph_is_connected %d\r\n", graph_is_connected(graph));
// printf("graph_is_complete %d\r\n", graph_is_complete(graph));
// printf("graph_is_bipartite %d\r\n", graph_is_bipartite(graph));
// printf("graph_is_eulerian %d\r\n", graph_is_eulerian(graph));
// printf("graph_is_eulerian %d\r\n", graph_max_flow(graph, 0, 3));
// graph_articulation_points(graph);
// graph_bridges(graph);
graph_min_vertex_cover(graph);
graph_dfs(graph, 0, graph_traverse_int);
graph_delete(graph);
}
static void test(void)
{
printf("graph test!\r\n");
// test_create();
// test_add_vertex();
// test_add_edge();
// test_remove();
// test_search();
// test_data();
// test_degree();
// test_weight();
// test_shortest_path();
test_min_cover();
v_check_unfree();
}
init_export_app(test);
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