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5 Commits
3ac92de18e ... 5e83dc2917

Author SHA1 Message Date
jf-home
5e83dc2917 思路楼乱了 2025-04-26 17:27:05 +08:00
jf-home
43b237487a 无边的节点没有被压到栈中去 2025-04-26 16:02:16 +08:00
jf-home
43706105bb graph的迭代器bfs遍历模式调试通过 2025-04-26 15:12:43 +08:00
jf-home
98eb005a4a bfs的遍历还存在问题 2025-04-26 15:01:15 +08:00
jf-home
ce973043d8 graph默认只对顶点进行遍历,后续实现bfs和dfs 2025-04-26 13:40:23 +08:00
3 changed files with 373 additions and 74 deletions
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17
include/graph.h
View File

@ -13,6 +13,9 @@
#include "common.h"
#include "stack.h"
#include "queue.h"
enum _graph_type
{
GRAPH_UNDIRECTED,
@ -21,6 +24,13 @@ enum _graph_type
// GRAPH_DIRECTED_WEIGHT,
};
enum _graph_search
{
GRAPH_DFS,
GRAPH_BFS,
};
struct _graph_edge
{
uint32_t weight;
@ -47,6 +57,11 @@ struct _graph
uint32_t _ratio;
enum _graph_type _type;
enum _graph_search _search;
stack_t stack;
queue_t queue;
struct _iterator _iter;
void (*_destory)(struct _graph* self);
@ -77,7 +92,7 @@ struct _graph
bool (*full)(struct _graph* self);
// iter
iterator_t (*iter)(struct _graph* self);
iterator_t (*iter)(struct _graph* self, enum _graph_search search_type, void *obj);
// config
compare_fun_t compare; // !!! you have to implement this function

358
src/graph.c
View File

@ -310,20 +310,16 @@ void graph_free(graph_t* graph)
#endif
static struct _graph_node* graph_node_new(void* obj, uint32_t obj_size)
static struct _graph_node *graph_node_new(void *obj, uint32_t obj_size)
{
void* new_obj = (void*)calloc(1, obj_size);
void *new_obj = (void *)calloc(1, obj_size);
if (new_obj == NULL)
{
return NULL;
}
memmove(new_obj, obj, obj_size);
struct _graph_node* new_node = (struct _graph_node*)malloc(sizeof(struct _graph_node));
struct _graph_node *new_node = (struct _graph_node *)malloc(sizeof(struct _graph_node));
if (new_node == NULL)
{
free(new_obj);
@ -337,7 +333,7 @@ static struct _graph_node* graph_node_new(void* obj, uint32_t obj_size)
return new_node;
}
static void greph_node_free(struct _graph_node** node)
static void greph_node_free(struct _graph_node **node)
{
if (node != NULL && *node != NULL)
{
@ -359,9 +355,9 @@ static void greph_node_free(struct _graph_node** node)
}
}
static struct _graph_edge* graph_edge_new(void *target, uint32_t weight)
static struct _graph_edge *graph_edge_new(void *target, uint32_t weight)
{
struct _graph_edge* new_edge = (struct _graph_edge*)malloc(sizeof(struct _graph_edge));
struct _graph_edge *new_edge = (struct _graph_edge *)malloc(sizeof(struct _graph_edge));
if (new_edge == NULL)
{
return NULL;
@ -372,7 +368,7 @@ static struct _graph_edge* graph_edge_new(void *target, uint32_t weight)
return new_edge;
}
static void graph_edge_free(struct _graph_edge** edge)
static void graph_edge_free(struct _graph_edge **edge)
{
if (edge != NULL && *edge != NULL)
{
@ -381,7 +377,7 @@ static void graph_edge_free(struct _graph_edge** edge)
}
}
static uint32_t graph_size(struct _graph* self)
static uint32_t graph_size(struct _graph *self)
{
if (self == NULL)
{
@ -390,7 +386,7 @@ static uint32_t graph_size(struct _graph* self)
return self->_size;
}
static bool graph_empty(struct _graph* self)
static bool graph_empty(struct _graph *self)
{
if (self == NULL)
{
@ -399,7 +395,7 @@ static bool graph_empty(struct _graph* self)
return self->size(self) == 0;
}
static uint32_t graph_capacity(struct _graph* self)
static uint32_t graph_capacity(struct _graph *self)
{
if (self == NULL)
{
@ -408,15 +404,15 @@ static uint32_t graph_capacity(struct _graph* self)
return self->_capacity;
}
static bool graph_clear(struct _graph* self)
static bool graph_clear(struct _graph *self)
{
if (self == NULL && self->_head == NULL)
{
return 0;
}
struct _graph_node* cur = self->_head->next;
struct _graph_node* next = NULL;
struct _graph_node *cur = self->_head->next;
struct _graph_node *next = NULL;
while (cur != NULL)
{
next = cur->next;
@ -429,7 +425,7 @@ static bool graph_clear(struct _graph* self)
return true;
}
static void graph_destory(struct _graph* self)
static void graph_destory(struct _graph *self)
{
if (self == NULL)
{
@ -441,9 +437,18 @@ static void graph_destory(struct _graph* self)
free(self->_head);
self->_head = NULL;
}
if (self->stack != NULL)
{
stack_free(&self->stack);
}
if (self->queue != NULL)
{
queue_free(&self->queue);
}
}
static void graph_print(struct _graph* self)
static void graph_print(struct _graph *self)
{
if (self == NULL || self->_head == NULL || self->print_obj == NULL)
{
@ -451,7 +456,7 @@ static void graph_print(struct _graph* self)
}
printf("vertex : \n");
struct _graph_node* cur = self->_head->next;
struct _graph_node *cur = self->_head->next;
while (cur != NULL)
{
self->print_obj(cur->obj);
@ -463,13 +468,13 @@ static void graph_print(struct _graph* self)
cur = self->_head->next;
while (cur != NULL)
{
if(cur->edgehead != NULL)
if (cur->edgehead != NULL)
{
// struct _graph_edge* edge = cur->edgehead->next;
struct _graph_edge* edge = cur->edgehead;
struct _graph_edge *edge = cur->edgehead;
while (edge != NULL)
{
struct _graph_node* target = (struct _graph_node*)edge->target;
struct _graph_node *target = (struct _graph_node *)edge->target;
printf("from ");
self->print_obj(cur->obj);
@ -488,13 +493,13 @@ static void graph_print(struct _graph* self)
printf("print done.\n");
}
static bool graph_add_vertex(struct _graph* self, void* obj)
static bool graph_add_vertex(struct _graph *self, void *obj)
{
assert(self != NULL);
if (self->_head->next == NULL)
{
// no vertex
struct _graph_node* new_node = graph_node_new(obj, self->_obj_size);
struct _graph_node *new_node = graph_node_new(obj, self->_obj_size);
if (new_node == NULL)
{
return false;
@ -503,7 +508,7 @@ static bool graph_add_vertex(struct _graph* self, void* obj)
}
else
{
struct _graph_node* cur = self->_head->next;
struct _graph_node *cur = self->_head->next;
// find if exist
while (cur != NULL)
@ -515,7 +520,7 @@ static bool graph_add_vertex(struct _graph* self, void* obj)
cur = cur->next;
}
struct _graph_node* new_node = graph_node_new(obj, self->_obj_size);
struct _graph_node *new_node = graph_node_new(obj, self->_obj_size);
if (new_node == NULL)
{
return false;
@ -534,7 +539,7 @@ static bool graph_add_vertex(struct _graph* self, void* obj)
return true;
}
static bool graph_del_vertex(struct _graph* self, void* obj)
static bool graph_del_vertex(struct _graph *self, void *obj)
{
assert(self != NULL);
if (obj == NULL)
@ -546,8 +551,8 @@ static bool graph_del_vertex(struct _graph* self, void* obj)
return false;
}
struct _graph_node* cur = self->_head->next;
struct _graph_node* pre = self->_head;
struct _graph_node *cur = self->_head->next;
struct _graph_node *pre = self->_head;
while (cur != NULL)
{
if (self->compare(cur->obj, obj) == 0)
@ -568,7 +573,7 @@ static bool graph_del_vertex(struct _graph* self, void* obj)
return true;
}
static bool graph_find_vertex(struct _graph* self, void* obj)
static bool graph_find_vertex(struct _graph *self, void *obj)
{
assert(self != NULL);
if (obj == NULL)
@ -579,7 +584,7 @@ static bool graph_find_vertex(struct _graph* self, void* obj)
{
return false;
}
struct _graph_node* cur = self->_head->next;
struct _graph_node *cur = self->_head->next;
while (cur != NULL)
{
if (self->compare(cur->obj, obj) == 0)
@ -593,9 +598,9 @@ static bool graph_find_vertex(struct _graph* self, void* obj)
return cur == NULL ? false : true;
}
static struct _graph_node* find_node(struct _graph* self, void* obj)
static struct _graph_node *find_node(struct _graph *self, void *obj)
{
struct _graph_node* cur = self->_head->next;
struct _graph_node *cur = self->_head->next;
while (cur != NULL)
{
if (self->compare(cur->obj, obj) == 0)
@ -608,8 +613,7 @@ static struct _graph_node* find_node(struct _graph* self, void* obj)
return cur;
}
static bool graph_add_edge(struct _graph* self, void* from, void* to, uint32_t weight)
static bool graph_add_edge(struct _graph *self, void *from, void *to, uint32_t weight)
{
assert(self != NULL);
if (self->empty(self))
@ -617,8 +621,8 @@ static bool graph_add_edge(struct _graph* self, void* from, void* to, uint32_t w
return false;
}
struct _graph_node* from_node = self->_head->next;
struct _graph_node* to_node = self->_head->next;
struct _graph_node *from_node = self->_head->next;
struct _graph_node *to_node = self->_head->next;
from_node = find_node(self, from);
if (from_node == NULL)
{
@ -632,7 +636,7 @@ static bool graph_add_edge(struct _graph* self, void* from, void* to, uint32_t w
}
// from_node add edge
struct _graph_edge* new_edge = graph_edge_new(to_node, weight);
struct _graph_edge *new_edge = graph_edge_new(to_node, weight);
if (new_edge == NULL)
{
return false;
@ -647,11 +651,11 @@ static bool graph_add_edge(struct _graph* self, void* from, void* to, uint32_t w
from_node->edgehead->next = new_edge;
}
if(self->_type == GRAPH_UNDIRECTED)
if (self->_type == GRAPH_UNDIRECTED)
{
// if graph is undirected
// to_node add edge
struct _graph_edge* new_edge2 = graph_edge_new(from_node, weight);
struct _graph_edge *new_edge2 = graph_edge_new(from_node, weight);
if (new_edge2 == NULL)
{
return false;
@ -671,7 +675,7 @@ static bool graph_add_edge(struct _graph* self, void* from, void* to, uint32_t w
return true;
}
static bool graph_del_edge(struct _graph* self, void* from, void* to)
static bool graph_del_edge(struct _graph *self, void *from, void *to)
{
assert(self != NULL);
if (self->empty(self))
@ -679,8 +683,8 @@ static bool graph_del_edge(struct _graph* self, void* from, void* to)
return false;
}
struct _graph_node* from_node = self->_head->next;
struct _graph_node* to_node = self->_head->next;
struct _graph_node *from_node = self->_head->next;
struct _graph_node *to_node = self->_head->next;
from_node = find_node(self, from);
if (from_node == NULL)
{
@ -693,14 +697,14 @@ static bool graph_del_edge(struct _graph* self, void* from, void* to)
return false;
}
struct _graph_edge* cur = from_node->edgehead;
struct _graph_edge* pre = from_node->edgehead;
while(cur != NULL)
struct _graph_edge *cur = from_node->edgehead;
struct _graph_edge *pre = from_node->edgehead;
while (cur != NULL)
{
if(cur->target == to_node)
if (cur->target == to_node)
{
pre->next = cur->next;
if(pre == cur)
if (pre == cur)
{
from_node->edgehead = cur->next;
}
@ -711,16 +715,16 @@ static bool graph_del_edge(struct _graph* self, void* from, void* to)
cur = cur->next;
}
if(self->_type == GRAPH_UNDIRECTED)
if (self->_type == GRAPH_UNDIRECTED)
{
struct _graph_edge* cur2 = to_node->edgehead;
struct _graph_edge* pre2 = to_node->edgehead;
while(cur2 != NULL)
struct _graph_edge *cur2 = to_node->edgehead;
struct _graph_edge *pre2 = to_node->edgehead;
while (cur2 != NULL)
{
if(cur2->target == from_node)
if (cur2->target == from_node)
{
pre2->next = cur2->next;
if(pre2 == cur2)
if (pre2 == cur2)
{
to_node->edgehead = cur2->next;
}
@ -734,15 +738,15 @@ static bool graph_del_edge(struct _graph* self, void* from, void* to)
return true;
}
static bool graph_find_edge(struct _graph* self, void* from, void* to)
static bool graph_find_edge(struct _graph *self, void *from, void *to)
{
assert(self != NULL);
if (self->empty(self))
{
return false;
}
struct _graph_node* from_node = self->_head->next;
struct _graph_node* to_node = self->_head->next;
struct _graph_node *from_node = self->_head->next;
struct _graph_node *to_node = self->_head->next;
from_node = find_node(self, from);
if (from_node == NULL)
{
@ -755,24 +759,227 @@ static bool graph_find_edge(struct _graph* self, void* from, void* to)
return false;
}
struct _graph_edge* cur = from_node->edgehead;
while(cur != NULL)
struct _graph_edge *cur = from_node->edgehead;
while (cur != NULL)
{
if(cur->target == to_node)
if (cur->target == to_node)
{
// found edge
break;
}
cur = cur->next;
}
if(cur == NULL)
if (cur == NULL)
{
return false;
}
return true;
}
static bool graph_init(struct _graph* self, uint32_t obj_size)
iterator_t graph_iter(struct _graph *self, enum _graph_search search_type, void *start)
{
assert(self != NULL);
iterator_t iter = &self->_iter;
iter->_parent = self;
iter->_cur = 0;
iter->_cur_node = self->_head->next;
struct _graph_node *start_node = find_node(self, start);
if (start_node == NULL)
{
goto done;
}
iter->_cur_node = start_node;
struct _graph_node *node = self->_head->next;
while (node != NULL)
{
node->visited = false;
node = node->next;
}
self->_search = search_type;
switch (self->_search)
{
case GRAPH_BFS:
{
self->queue->push(self->queue, &iter->_cur_node);
}
break;
case GRAPH_DFS:
{
// pass
}
break;
default:
{
}
break;
}
done:
return iter;
}
bool graph_iter_hasnext(struct _iterator *iter)
{
assert(iter != NULL);
assert(iter->parent != NULL);
graph_t self = (graph_t)iter->_parent;
if (iter->_cur < self->size(self))
{
return true;
}
return false;
}
const void *graph_iter_next(struct _iterator *iter)
{
assert(iter != NULL);
assert(iter->parent != NULL);
graph_t self = (graph_t)iter->_parent;
void *obj = NULL;
iter->_cur += 1;
switch (self->_search)
{
case GRAPH_BFS:
{
struct _graph_node *cur_node = iter->_cur_node;
struct _graph_edge *cur_edge = cur_node->edgehead;
struct _graph_node *target = NULL;
struct _graph_node *node = cur_node;
queue_t queue = self->queue;
if (queue->empty(queue))
{
cur_node = self->_head->next;
while (cur_node != NULL)
{
if (cur_node->visited != true)
{
queue->push(queue, &cur_node);
break;
}
cur_node = cur_node->next;
}
}
if (!queue->empty(queue) && node != NULL)
{
queue->pop(queue, &node);
node->visited = true;
cur_edge = node->edgehead;
while (cur_edge != NULL)
{
target = cur_edge->target;
if (target != NULL && target->visited != true)
{
queue->push(queue, &target);
// self->print_obj(node->obj);
// printf(" -> ");
// self->print_obj(target->obj);
}
cur_edge = cur_edge->next;
}
cur_node = node;
}
iter->_cur_node = cur_node;
obj = cur_node->obj;
}
break;
case GRAPH_DFS:
{
// self->stack->push(self->stack, iter->_cur_node);
struct _graph_node *cur_node = self->_iter._cur_node;
struct _graph_node *node = NULL;
struct _graph_edge *cur_edge = cur_node->edgehead;
struct _graph_node *target = NULL;
stack_t stack = self->stack;
// while (!self->stack->empty(self->stack) || cur_node != NULL)
do
{
if(cur_node == NULL)
{
break;
}
if(cur_node->visited == true)
{
stack->pop(stack, &cur_node);
cur_node->visited = true;
node = cur_node;
break;
}
bool accessible_vertex_exists = false;
// 1. add cur_node to stack
stack->push(stack, &cur_node);
// 2. find the first unvisited vertex
cur_edge = cur_node->edgehead;
while(cur_edge != NULL)
{
target = cur_edge->target;
if(target != NULL && target->visited != true)
{
accessible_vertex_exists = true;
cur_node = target;
break;
}
cur_edge = cur_edge->next;
}
iterator_t iter = stack->iter(stack);
struct _graph_node *temp_node = NULL;
while (iter->hasnext(iter))
{
temp_node = *(struct _graph_node **)iter->next(iter);
self->print_obj(temp_node->obj);
}
printf("\n");
if(accessible_vertex_exists != true ||
cur_edge == NULL)
{
// if no accessible vertex, pop from stack
stack->pop(stack, &node);
node->visited = true;
stack->peek(stack, &cur_node);
break;
}
}while(!stack->empty(stack));
printf("--- end ---\n");
iter->_cur_node = cur_node;
printf("--- end1 ---\n");
obj = node->obj;
printf("--- end2 ---\n");
}
break;
default:
{
}
break;
}
return obj;
}
static bool graph_init(struct _graph *self, uint32_t obj_size)
{
assert(self != NULL);
if (self == NULL)
@ -786,9 +993,23 @@ static bool graph_init(struct _graph* self, uint32_t obj_size)
self->_capacity = UINT32_MAX;
self->_ratio = 1;
self->_head = (struct _graph_node*)malloc(sizeof(struct _graph_node));
self->stack = stack_new(sizeof(struct _graph_node *));
if (self->stack == NULL)
{
return false;
}
self->queue = queue_new(sizeof(struct _graph_node *));
if (self->queue == NULL)
{
stack_free(&self->stack);
return false;
}
self->_head = (struct _graph_node *)malloc(sizeof(struct _graph_node));
if (self->_head == NULL)
{
stack_free(&self->stack);
queue_free(&self->queue);
return false;
}
self->_head->visited = false;
@ -799,6 +1020,9 @@ static bool graph_init(struct _graph* self, uint32_t obj_size)
self->_type = GRAPH_UNDIRECTED;
// self->_type = GRAPH_DIRECTED;
self->_iter.hasnext = graph_iter_hasnext;
self->_iter.next = graph_iter_next;
self->_destory = graph_destory;
// -------------------- public --------------------
@ -818,6 +1042,10 @@ static bool graph_init(struct _graph* self, uint32_t obj_size)
self->empty = graph_empty;
self->capacity = graph_capacity;
// iter
self->iter = graph_iter;
// others
self->from_matrix = NULL;
self->bfs = NULL;
self->dfs = NULL;
@ -848,7 +1076,7 @@ graph_t graph_new(uint32_t obj_size)
return graph;
}
void graph_free(graph_t* graph)
void graph_free(graph_t *graph)
{
if (graph == NULL || *graph == NULL)
{

64
test/test_graph.c
View File

@ -90,7 +90,7 @@ void test_graph_add_edge(void)
{
TEST_ASSERT_TRUE(graph->add_vertex(graph, &data[i]));
}
graph->print(graph);
//graph->print(graph);
// test add_edge
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[0], &data[1], 12));
@ -98,7 +98,7 @@ void test_graph_add_edge(void)
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[1], &data[3], 24));
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[5], &data[6], 67));
TEST_ASSERT_FALSE(graph->add_edge(graph, &temp, &data[1], 0));
graph->print(graph);
//graph->print(graph);
// test find_edge
TEST_ASSERT_TRUE(graph->find_edge(graph, &data[0], &data[1]));
@ -109,16 +109,71 @@ void test_graph_add_edge(void)
// test del_edge
TEST_ASSERT_TRUE(graph->del_edge(graph, &data[0], &data[1]));
graph->print(graph);
//graph->print(graph);
TEST_ASSERT_FALSE(graph->find_edge(graph, &data[0], &data[1]));
TEST_ASSERT_TRUE(graph->del_edge(graph, &data[5], &data[6]));
graph->print(graph);
//graph->print(graph);
graph_free(&graph);
TEST_ASSERT_NULL(graph);
}
void test_graph_iter(void)
{
const int size = 10;
int data[10] = {
0, 1, 2, 3, 4, 5, 6, 7, 8, 9,
};
int temp = 11;
uint32_t i = 0;
graph_t graph = graph_new(sizeof(int));
TEST_ASSERT_NOT_NULL(graph);
graph->compare = compare_num;
graph->print_obj = print_num;
// test add_vertex
for(i = 0; i < size; i++)
{
TEST_ASSERT_TRUE(graph->add_vertex(graph, &data[i]));
}
// graph->print(graph);
// test add_edge
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[0], &data[1], 12));
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[0], &data[2], 13));
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[1], &data[3], 24));
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[5], &data[6], 67));
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[7], &data[6], 87));
TEST_ASSERT_TRUE(graph->add_edge(graph, &data[8], &data[2], 92));
TEST_ASSERT_FALSE(graph->add_edge(graph, &temp, &data[1], 0));
// graph->print(graph);
iterator_t iter_vertex = NULL;
iter_vertex = graph->iter(graph, GRAPH_BFS, &data[0]);
TEST_ASSERT_NOT_NULL(iter_vertex);
while(iter_vertex->hasnext(iter_vertex))
{
temp = *(int *)iter_vertex->next(iter_vertex);
// graph->print_obj(&temp);
}
iter_vertex = graph->iter(graph, GRAPH_DFS, &data[0]);
TEST_ASSERT_NOT_NULL(iter_vertex);
while(iter_vertex->hasnext(iter_vertex))
{
temp = *(int *)iter_vertex->next(iter_vertex);
printf("temp = %d\n", temp);
}
graph_free(&graph);
TEST_ASSERT_NULL(graph);
}
#if 0
void test_graph_print(void)
{
@ -167,6 +222,7 @@ void test_graph(void)
RUN_TEST(test_graph_new);
RUN_TEST(test_graph_add_vertex);
RUN_TEST(test_graph_add_edge);
RUN_TEST(test_graph_iter);
// RUN_TEST(test_graph_print);
// RUN_TEST(test_graph_from_matrix);