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apaki:master
apaki:map
apaki:dev-graph
apaki:v0.0.02
apaki:v0.0.01
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compare: apaki:40071507c4d1ebadd81c1c018138e39035bc754d
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apaki:map
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apaki:dev-graph
apaki:v0.0.02
apaki:v0.0.01

2 Commits
3c2ecd52b1 ... 40071507c4

Author SHA1 Message Date
wjf-hs
40071507c4 添加map的比较函数 2025-06-20 11:45:32 +08:00
wjf-hs
9d26afb817 修改tree的遍历参数 2025-06-20 11:14:59 +08:00
7 changed files with 115 additions and 117 deletions
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3
.vscode/settings.json vendored
View File

@ -30,6 +30,7 @@
"assert.h": "c",
"limits.h": "c",
"cstdint": "c",
"unicstl_internal.h": "c"
"unicstl_internal.h": "c",
"map.h": "c"
}
}

66
demo/demo_tree.c
View File

@ -55,7 +55,7 @@ void demo_avltree_num(void)
tree->print_obj(&temp);
printf("size = %2d : ", tree->size(tree));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -88,7 +88,7 @@ void demo_avltree_num(void)
}
printf("----- preorder -----\n");
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -97,7 +97,7 @@ void demo_avltree_num(void)
printf("\n");
printf("----- inorder -----\n");
iter = tree->iter(tree, ORDER_IN);
iter = tree->iter(tree, TREE_DFS_IN);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -106,7 +106,7 @@ void demo_avltree_num(void)
printf("\n");
printf("----- postorder -----\n");
iter = tree->iter(tree, ORDER_POST);
iter = tree->iter(tree, TREE_DFS_POST);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -115,7 +115,7 @@ void demo_avltree_num(void)
printf("\n");
printf("----- breadth -----\n");
iter = tree->iter(tree, ORDER_BREADTH);
iter = tree->iter(tree, TREE_BFS);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -124,7 +124,7 @@ void demo_avltree_num(void)
printf("\n");
printf("----- preorder(right) -----\n");
iter = tree->iter(tree, ORDER_PRE_R);
iter = tree->iter(tree, TREE_DFS_PRE_R);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -133,7 +133,7 @@ void demo_avltree_num(void)
printf("\n");
printf("----- inorder(right) -----\n");
iter = tree->iter(tree, ORDER_IN_R);
iter = tree->iter(tree, TREE_DFS_IN_R);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -142,7 +142,7 @@ void demo_avltree_num(void)
printf("\n");
printf("----- postorder(right) -----\n");
iter = tree->iter(tree, ORDER_POST_R);
iter = tree->iter(tree, TREE_DFS_POST_R);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -151,7 +151,7 @@ void demo_avltree_num(void)
printf("\n");
printf("----- breadth(right) -----\n");
iter = tree->iter(tree, ORDER_BREADTH_R);
iter = tree->iter(tree, TREE_BFS_R);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -161,7 +161,7 @@ void demo_avltree_num(void)
printf("----- preorder(left) -----\n");
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -179,7 +179,7 @@ void demo_avltree_num(void)
tree->print_obj(&temp);
printf("size = %2d : ", tree->size(tree));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -279,7 +279,7 @@ void demo_rbtree_num(void)
tree->print_obj(&temp);
printf("size = %2d : ", tree->size(tree));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -318,7 +318,7 @@ void demo_rbtree_num(void)
}
printf("----- preorder -----\n");
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -327,7 +327,7 @@ void demo_rbtree_num(void)
printf("\n");
printf("----- inorder -----\n");
iter = tree->iter(tree, ORDER_IN);
iter = tree->iter(tree, TREE_DFS_IN);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -336,7 +336,7 @@ void demo_rbtree_num(void)
printf("\n");
printf("----- postorder -----\n");
iter = tree->iter(tree, ORDER_POST);
iter = tree->iter(tree, TREE_DFS_POST);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -345,7 +345,7 @@ void demo_rbtree_num(void)
printf("\n");
printf("----- breadth -----\n");
iter = tree->iter(tree, ORDER_BREADTH);
iter = tree->iter(tree, TREE_BFS);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -354,7 +354,7 @@ void demo_rbtree_num(void)
printf("\n");
printf("----- preorder(right) -----\n");
iter = tree->iter(tree, ORDER_PRE_R);
iter = tree->iter(tree, TREE_DFS_PRE_R);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -363,7 +363,7 @@ void demo_rbtree_num(void)
printf("\n");
printf("----- inorder(right) -----\n");
iter = tree->iter(tree, ORDER_IN_R);
iter = tree->iter(tree, TREE_DFS_IN_R);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -372,7 +372,7 @@ void demo_rbtree_num(void)
printf("\n");
printf("----- postorder(right) -----\n");
iter = tree->iter(tree, ORDER_POST_R);
iter = tree->iter(tree, TREE_DFS_POST_R);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -381,7 +381,7 @@ void demo_rbtree_num(void)
printf("\n");
printf("----- breadth(right) -----\n");
iter = tree->iter(tree, ORDER_BREADTH_R);
iter = tree->iter(tree, TREE_BFS_R);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -390,7 +390,7 @@ void demo_rbtree_num(void)
printf("\n");
printf("----- preorder -----\n");
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -409,7 +409,7 @@ void demo_rbtree_num(void)
printf("size = %2d : ", tree->size(tree));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(int *)iter->next(iter);
@ -461,7 +461,7 @@ void demo_rbtree_struct(void)
tree->print_obj(&temp);
printf("size = %2d : ", tree->size(tree));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -500,7 +500,7 @@ void demo_rbtree_struct(void)
}
printf("----- preorder -----\n");
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -509,7 +509,7 @@ void demo_rbtree_struct(void)
printf("\n");
printf("----- inorder -----\n");
iter = tree->iter(tree, ORDER_IN);
iter = tree->iter(tree, TREE_DFS_IN);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -518,7 +518,7 @@ void demo_rbtree_struct(void)
printf("\n");
printf("----- postorder -----\n");
iter = tree->iter(tree, ORDER_POST);
iter = tree->iter(tree, TREE_DFS_POST);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -527,7 +527,7 @@ void demo_rbtree_struct(void)
printf("\n");
printf("----- breadth -----\n");
iter = tree->iter(tree, ORDER_BREADTH);
iter = tree->iter(tree, TREE_BFS);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -536,7 +536,7 @@ void demo_rbtree_struct(void)
printf("\n");
printf("----- preorder(right) -----\n");
iter = tree->iter(tree, ORDER_PRE_R);
iter = tree->iter(tree, TREE_DFS_PRE_R);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -545,7 +545,7 @@ void demo_rbtree_struct(void)
printf("\n");
printf("----- inorder(right) -----\n");
iter = tree->iter(tree, ORDER_IN_R);
iter = tree->iter(tree, TREE_DFS_IN_R);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -554,7 +554,7 @@ void demo_rbtree_struct(void)
printf("\n");
printf("----- postorder(right) -----\n");
iter = tree->iter(tree, ORDER_POST_R);
iter = tree->iter(tree, TREE_DFS_POST_R);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -563,7 +563,7 @@ void demo_rbtree_struct(void)
printf("\n");
printf("----- breadth(right) -----\n");
iter = tree->iter(tree, ORDER_BREADTH_R);
iter = tree->iter(tree, TREE_BFS_R);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -572,7 +572,7 @@ void demo_rbtree_struct(void)
printf("\n");
printf("----- preorder -----\n");
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);
@ -591,7 +591,7 @@ void demo_rbtree_struct(void)
printf("size = %2d : ", tree->size(tree));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
while(iter->hasnext(iter))
{
temp = *(struct _student *)iter->next(iter);

10
include/map.h
View File

@ -18,17 +18,16 @@ struct _map_node
{
char* key;
void* value;
size_t key_sz;
size_t value_sz;
};
typedef struct _map_node * map_node_t;
struct _map
{
// -------------------- private --------------------
tree_t _tree;
// uint32_t _size;
uint32_t _obj_size;
// uint32_t _capacity;
// uint32_t _ratio;
// -------------------- public --------------------
// kernel
@ -46,9 +45,6 @@ struct _map
// iter
iterator_t(*iter)(struct _map* self, enum _tree_order);
// config
compare_fun_t compare; // !!! you have to implement this function
// -------------------- debug --------------------
void (*print_obj)(void* obj);
};

21
include/tree.h
View File

@ -16,23 +16,22 @@
#include "stack.h"
#include "queue.h"
typedef enum {
typedef enum _rbt_color{
RBT_RED,
RBT_BLACK,
}rbt_color;
// dfs and bfs traversal order
enum _tree_order{
ORDER_PRE, // pre-order
ORDER_IN, // in-order
ORDER_POST, // post-order
ORDER_BREADTH, // breadth-first search [BFS]
TREE_DFS_PRE, // pre-order
TREE_DFS_IN, // in-order
TREE_DFS_POST, // post-order
TREE_BFS, // breadth-first search [BFS]
ORDER_PRE_R, // right-first pre-order
ORDER_IN_R, // right-first in-order
ORDER_POST_R, // right-first post-order
ORDER_BREADTH_R,// right-first breadth-first search [BFS]
TREE_DFS_PRE_R, // right-first pre-order
TREE_DFS_IN_R, // right-first in-order
TREE_DFS_POST_R, // right-first post-order
TREE_BFS_R, // right-first breadth-first search [BFS]
};
struct _tree_node
@ -45,7 +44,7 @@ struct _tree_node
union
{
int32_t balance;
uint32_t color;
rbt_color color;
};
};

73
src/map.c
View File

@ -17,24 +17,22 @@ struct _map_node* map_node_new(struct _map *self, const char* key, void* value)
{
return NULL;
}
uint32_t keylen = strlen(key) + 1;
node->key = (char*)malloc(sizeof(char) * keylen);
// Allocating memory for key and value only once can improve performance.
node->key_sz = strlen(key) + 1;
node->value_sz = self->_obj_size;
node->key = (char*)malloc(node->key_sz + node->value_sz);
if (!node->key)
{
free(node);
return NULL;
}
node->value = node->key + node->key_sz;
node->value = malloc(self->_obj_size);
if (!node->value)
{
free(node->key);
free(node);
return NULL;
}
memcpy(node->key, key, keylen);
memcpy(node->value, value, self->_obj_size);
// copy
memcpy(node->key, key, node->key_sz);
node->key[node->key_sz] = '\0';
memcpy(node->value, value, node->value_sz);
return node;
}
@ -46,29 +44,11 @@ static void map_node_free(struct _map_node** node)
{
free((*node)->key);
}
if ((*node)->value != NULL)
{
free((*node)->value);
}
free(*node);
*node = NULL;
}
}
bool map_clear(struct _map* self)
{
struct _map_node* node = NULL;
iterator_t iter = self->_tree->iter(self->_tree, ORDER_IN);
while(iter->hasnext(&iter))
{
// tree & map malloc memory independently, so free them one by one.
node = (struct _map_node*)iter->next(&iter);
map_node_free(&node);
}
return self->_tree->clear(self->_tree);
}
bool map_empty(struct _map* self)
{
return self->_tree->empty(self->_tree);
@ -79,6 +59,20 @@ uint32_t map_size(struct _map* self)
return self->_tree->size(self->_tree);
}
bool map_clear(struct _map* self)
{
struct _map_node* node = NULL;
iterator_t iter = self->_tree->iter(self->_tree, TREE_DFS_IN);
while(iter->hasnext(iter))
{
// tree & map malloc memory independently, so free them one by one.
node = (struct _map_node*)iter->next(iter);
map_node_free(&node);
}
return self->_tree->clear(self->_tree);
}
bool map_insert(struct _map* self, const char* key, void* value)
{
struct _map_node* node = NULL;
@ -92,8 +86,8 @@ bool map_insert(struct _map* self, const char* key, void* value)
bool map_delete(struct _map* self, const char* key, void* value)
{
struct _map_node node = {.key = key, .value = value};
return self->_tree->delete(self->_tree, &node);
// struct _map_node node = {.key = key, .value = value};
// return self->_tree->delete(self->_tree, &node);
}
void map_contains(struct _map* self, const char* key)
@ -113,6 +107,15 @@ bool map_set(struct _map* self, const char* key, void* value)
return false;
}
static int map_compare(void* obj1, void* obj2)
{
assert(obj1 != NULL && obj2 != NULL);
map_node_t node1 = (map_node_t)obj1;
map_node_t node2 = (map_node_t)obj2;
return strcmp(node1->key, node2->key);
}
bool map_init(struct _map* self, uint32_t obj_size)
{
assert(self != NULL);
@ -129,6 +132,7 @@ bool map_init(struct _map* self, uint32_t obj_size)
{
return false;
}
self->_tree->compare = map_compare;
// -------------------- public --------------------
// kernel
@ -145,9 +149,8 @@ bool map_init(struct _map* self, uint32_t obj_size)
self->size = map_size;
// -------------------- default --------------------
self->compare = default_compare;
// self->compare = default_compare;
self->print_obj = default_print_obj;
self->_tree->compare = self->compare;
return true;
}
@ -157,7 +160,7 @@ bool map_destory(struct _map* self)
self->clear(self);
if(self->_tree != NULL)
{
tree_rb_free(self->_tree);
tree_free(&self->_tree);
self->_tree = NULL;
}
return true;

43
src/tree.c
View File

@ -12,8 +12,7 @@
#include "queue.h"
#include "stack.h"
// #define TREE_RECURSIVE_ENABLED
// #define TREE_RECURSIVE_ENABLED
static struct _tree_node* tree_node_new(struct _tree* self, void* obj)
{
assert(self != NULL);
@ -1151,11 +1150,11 @@ static const void* tree_iter_next(struct _iterator* iter)
struct _tree_node* target_node = NULL;
switch (iter->_order)
{
case ORDER_PRE:
case ORDER_PRE_R:
case TREE_DFS_PRE:
case TREE_DFS_PRE_R:
{
struct _tree_node* node = NULL;
if (iter->_order == ORDER_PRE)
if (iter->_order == TREE_DFS_PRE)
{
while (!self->stack->empty(self->stack) || cur_node != NULL)
{
@ -1194,10 +1193,10 @@ static const void* tree_iter_next(struct _iterator* iter)
}
}
}break;
case ORDER_IN:
case ORDER_IN_R:
case TREE_DFS_IN:
case TREE_DFS_IN_R:
{
if (iter->_order == ORDER_IN)
if (iter->_order == TREE_DFS_IN)
{
while (!self->stack->empty(self->stack) || cur_node != NULL)
{
@ -1236,8 +1235,8 @@ static const void* tree_iter_next(struct _iterator* iter)
}
}
}break;
case ORDER_POST:
case ORDER_POST_R:
case TREE_DFS_POST:
case TREE_DFS_POST_R:
{
if (!self->stack->empty(self->stack))
{
@ -1245,8 +1244,8 @@ static const void* tree_iter_next(struct _iterator* iter)
target_node = cur_node;
}
}break;
case ORDER_BREADTH:
case ORDER_BREADTH_R:
case TREE_BFS:
case TREE_BFS_R:
{
queue_t queue = self->queue;
if (!queue->empty(queue) && cur_node != NULL)
@ -1254,7 +1253,7 @@ static const void* tree_iter_next(struct _iterator* iter)
queue->pop(queue, &cur_node);
target_node = cur_node;
if (iter->_order == ORDER_BREADTH)
if (iter->_order == TREE_BFS)
{
if (cur_node->left != NULL)
{
@ -1307,24 +1306,24 @@ static iterator_t tree_iter(struct _tree* self, enum _tree_order order)
switch (iter->_order)
{
case ORDER_PRE:
case ORDER_PRE_R:
case TREE_DFS_PRE:
case TREE_DFS_PRE_R:
{
// pass
}break;
case ORDER_IN:
case ORDER_IN_R:
case TREE_DFS_IN:
case TREE_DFS_IN_R:
{
// pass
}break;
case ORDER_POST:
case ORDER_POST_R:
case TREE_DFS_POST:
case TREE_DFS_POST_R:
{
struct _tree_node* node = self->_root;
self->stack->clear(self->stack);
stack_t stack = stack_new(sizeof(struct _tree_node*));
if (iter->_order == ORDER_POST)
if (iter->_order == TREE_DFS_POST)
{
while (!stack->empty(stack) || node != NULL)
{
@ -1362,8 +1361,8 @@ static iterator_t tree_iter(struct _tree* self, enum _tree_order order)
}
stack_free(&stack);
}break;
case ORDER_BREADTH:
case ORDER_BREADTH_R:
case TREE_BFS:
case TREE_BFS_R:
{
// pass
self->queue->push(self->queue, &self->_root);

16
test/test_tree.c
View File

@ -68,8 +68,8 @@ static const int expected_int_array_orderpre_delete[15][15] = {
};
static const enum _tree_order order[8] = {
ORDER_PRE, ORDER_IN, ORDER_POST, ORDER_BREADTH,
ORDER_PRE_R, ORDER_IN_R, ORDER_POST_R, ORDER_BREADTH_R
TREE_DFS_PRE, TREE_DFS_IN, TREE_DFS_POST, TREE_BFS,
TREE_DFS_PRE_R, TREE_DFS_IN_R, TREE_DFS_POST_R, TREE_BFS_R
};
static uint32_t iter2array_num(iterator_t iter, int *data)
@ -104,7 +104,7 @@ static void test_avltree_iter(void)
temp = data[i];
TEST_ASSERT_TRUE(tree->insert(tree, &temp));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
count = iter2array_num(iter, buff);
TEST_ASSERT_EQUAL_INT_ARRAY(expected_int_array_orderpre_insert[i], buff, count);
}
@ -145,7 +145,7 @@ static void test_avltree_insert(void)
temp = data[i];
TEST_ASSERT_TRUE(tree->insert(tree, &temp));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
count = iter2array_num(iter, buff);
TEST_ASSERT_EQUAL_INT_ARRAY(expected_int_array_orderpre_insert[i], buff, count);
}
@ -185,7 +185,7 @@ static void test_avltree_delete(void)
for (i = 0; i < len; i++)
{
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
count = iter2array_num(iter, buff);
TEST_ASSERT_EQUAL_INT_ARRAY(expected_int_array_orderpre_delete[i], buff, count);
@ -270,7 +270,7 @@ static void test_rbtree_iter(void)
temp = data[i];
TEST_ASSERT_TRUE(tree->insert(tree, &temp));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
count = iter2array_num(iter, buff);
TEST_ASSERT_EQUAL_INT_ARRAY(rbt_expected_int_array_orderpre_insert[i], buff, count);
}
@ -310,7 +310,7 @@ static void test_rbtree_insert(void)
temp = data[i];
TEST_ASSERT_TRUE(tree->insert(tree, &temp));
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
count = iter2array_num(iter, buff);
TEST_ASSERT_EQUAL_INT_ARRAY(rbt_expected_int_array_orderpre_insert[i], buff, count);
}
@ -349,7 +349,7 @@ static void test_rbtree_delete(void)
for (i = 0; i < len; i++)
{
iter = tree->iter(tree, ORDER_PRE);
iter = tree->iter(tree, TREE_DFS_PRE);
count = iter2array_num(iter, buff);
TEST_ASSERT_EQUAL_INT_ARRAY(rbt_expected_int_array_orderpre_delete[i], buff, count);