tree的迭代器怎么算结束了，我没有想明白！

2025-05-18 03:51:35 +08:00 · 2024-09-02 01:54:53 +08:00 · 2024-09-02 01:54:53 +08:00 · c9a971971a
commit c9a971971a
parent c4ea040660
3 changed files with 348 additions and 33 deletions
--- a/include/tree.h
+++ b/include/tree.h
@ -13,11 +13,32 @@

 #include "common.h"

+#include "stack.h"
+#include "queue.h"
+
+
 typedef enum {
    RBT_RED = 0x00,
    RBT_BLACK = 0x01,
 }rbt_color;

+enum _order{
+    ORDER_LEFT_PRE = 0x00,
+    ORDER_LEFT_IN = 0x01,
+    ORDER_LEFT_POST = 0x02,
+    ORDER_LEFT_BREADTH = 0x03,
+
+    ORDER_RIGHT_PRE = 0x04,
+    ORDER_RIGHT_IN = 0x05,
+    ORDER_RIGHT_POST = 0x06,
+    ORDER_RIGHT_BREADTH = 0x07,
+
+    ORDER_PRE = ORDER_LEFT_PRE,
+    ORDER_IN = ORDER_LEFT_IN,
+    ORDER_POST = ORDER_LEFT_POST,
+    ORDER_BREADTH = ORDER_LEFT_BREADTH,
+};
+
 struct _tree_node
 {
    void *obj;
@ -41,8 +62,13 @@ struct _tree
    uint32_t _capacity;
    uint32_t _ratio;

+    enum _order _order;
    bool _right_priority;

+    stack_t stack;
+    queue_t queue;
+    struct _tree_node * cur_node;
+
    // kernel
    bool (*insert)(struct _tree* self, void* obj);
    bool (*delete)(struct _tree* self, void* obj);
@ -57,10 +83,21 @@ struct _tree
    bool (*min)(struct _tree* self, void* obj);
    bool (*max)(struct _tree* self, void* obj);

+    // base
    bool (*clear)(struct _tree* self);
    bool (*empty)(struct _tree* self);
    uint32_t (*size)(struct _tree* self);

+    // iter
+    /**
+     * @brief 
+     * 
+     */
+    void (*set_order)(struct _tree* self, enum _order order);
+    void* (*begin)(struct _tree* self);
+    void* (*next)(struct _tree* self);
+    void* (*end)(struct _tree* self);
+
    /**
     * @brief obj compare with obj2
     * 
--- a/src/tree.c
+++ b/src/tree.c
@ -611,6 +611,15 @@ void tree_destory(struct _tree* self)
    assert(self != NULL);
    self->clear(self);
    self->_root = NULL;
+
+    if(self->stack != NULL)
+    {
+        stack_free(&self->stack);
+    }
+    if(self->queue != NULL)
+    {
+        queue_free(&self->queue);
+    }
 }

 void tree_order(struct _tree* self, bool right_priority)
@ -1013,40 +1022,7 @@ bool tree_max(struct _tree* self, void* obj)
    return true;
 }

-bool tree_avl_init(struct _tree *self, uint32_t obj_size)
-{
-    assert(self != NULL);

-    self->_obj_size = obj_size;
-    self->_size = 0;
-    // self->_capacity = 64;
-    // self->_ratio = 2;
-
-    self->_right_priority = false;
-
-    self->insert = tree_avl_insert;
-    self->delete = tree_avl_delete;
-    self->clear = tree_clear;
-    self->empty = tree_empty;
-    self->size = tree_size;
-    self->destory = tree_destory;
-    self->preorder = tree_preorder;
-    self->inorder = tree_inorder;
-    self->postorder = tree_postorder;
-    self->breadth = tree_breadth;
-    self->order = tree_order;
-    self->find = tree_find;
-    self->height = tree_height;
-    self->rebalance = tree_avl_rebalance;
-    self->find_max = tree_find_max;
-    self->find_min = tree_find_min;
-    self->max = tree_max;
-    self->min = tree_min;
-
-    self->_root = NULL;
-
-    return true;
-}

 rbt_color tree_color(struct _tree_node* node)
 {
@ -1493,6 +1469,234 @@ bool tree_rb_delete(struct _tree* self, void* obj)
    return true;
 }

+void tree_set_order(struct _tree* self, enum _order order)
+{
+    assert(self != NULL);
+    self->_order = order;
+}
+
+void* tree_begin(struct _tree* self)
+{
+    assert(self != NULL);
+    switch (self->_order)
+    {
+    case ORDER_LEFT_PRE:
+    {
+        struct _tree_node* node = NULL;
+
+        self->cur_node = self->_root;
+        if(!self->stack->empty(self->stack) || self->cur_node != NULL)
+        {
+            if(self->cur_node != NULL)
+            {
+                node = self->cur_node;
+                self->stack->push(self->stack, &self->cur_node);
+            }
+            else
+            {
+                self->stack->pop(self->stack, &self->cur_node);
+                self->cur_node = self->cur_node->right;
+            }
+        }
+        return node;
+    }break;
+    case ORDER_LEFT_IN:
+    {
+
+    }break;
+    case ORDER_LEFT_POST:
+    {
+
+    }break;
+    case ORDER_LEFT_BREADTH:
+    {
+
+    }break;
+    case ORDER_RIGHT_PRE:
+    {
+
+    }break;
+    case ORDER_RIGHT_IN:
+    {
+
+    }break;
+    case ORDER_RIGHT_POST:
+    {
+
+    }break;
+    case ORDER_RIGHT_BREADTH:
+    {
+
+    }break;
+    default:
+    {
+    }break;
+    }
+}
+
+void* tree_next(struct _tree* self)
+{
+    assert(self != NULL);
+    switch (self->_order)
+    {
+    case ORDER_LEFT_PRE:
+    {
+        struct _tree_node* node = NULL;
+        if(!self->stack->empty(self->stack) || self->cur_node != NULL)
+        {
+            if(self->cur_node != NULL)
+            {
+                node = self->cur_node;
+                self->stack->push(self->stack, &self->cur_node);
+            }
+            else
+            {
+                self->stack->pop(self->stack, &self->cur_node);
+                self->cur_node = self->cur_node->right;
+            }
+        }
+        return node;
+    }break;
+    case ORDER_LEFT_IN:
+    {
+
+    }break;
+    case ORDER_LEFT_POST:
+    {
+
+    }break;
+    case ORDER_LEFT_BREADTH:
+    {
+
+    }break;
+    case ORDER_RIGHT_PRE:
+    {
+
+    }break;
+    case ORDER_RIGHT_IN:
+    {
+
+    }break;
+    case ORDER_RIGHT_POST:
+    {
+
+    }break;
+    case ORDER_RIGHT_BREADTH:
+    {
+
+    }break;
+    default:
+    {
+    }break;
+    }
+}
+
+void* tree_end(struct _tree* self)
+{
+    assert(self != NULL);
+    switch (self->_order)
+    {
+    case ORDER_LEFT_PRE:
+    {
+        struct _tree_node* node = NULL;
+        return node;
+    }break;
+    case ORDER_LEFT_IN:
+    {
+
+    }break;
+    case ORDER_LEFT_POST:
+    {
+
+    }break;
+    case ORDER_LEFT_BREADTH:
+    {
+
+    }break;
+    case ORDER_RIGHT_PRE:
+    {
+
+    }break;
+    case ORDER_RIGHT_IN:
+    {
+
+    }break;
+    case ORDER_RIGHT_POST:
+    {
+
+    }break;
+    case ORDER_RIGHT_BREADTH:
+    {
+
+    }break;
+    default:
+    {
+    }break;
+    }
+}
+
+
+
+bool tree_avl_init(struct _tree *self, uint32_t obj_size)
+{
+    assert(self != NULL);
+
+    self->_obj_size = obj_size;
+    self->_size = 0;
+    // self->_capacity = 64;
+    // self->_ratio = 2;
+
+    self->_right_priority = false;
+
+    self->insert = tree_avl_insert;
+    self->delete = tree_avl_delete;
+    self->clear = tree_clear;
+    self->empty = tree_empty;
+    self->size = tree_size;
+    self->destory = tree_destory;
+    self->preorder = tree_preorder;
+    self->inorder = tree_inorder;
+    self->postorder = tree_postorder;
+    self->breadth = tree_breadth;
+    self->order = tree_order;
+    self->find = tree_find;
+    self->height = tree_height;
+    self->rebalance = tree_avl_rebalance;
+    self->find_max = tree_find_max;
+    self->find_min = tree_find_min;
+    self->max = tree_max;
+    self->min = tree_min;
+
+    self->set_order = tree_set_order;
+    self->begin = tree_begin;
+    self->next = tree_next;
+    self->end = tree_end;
+
+    self->_root = NULL;
+
+    self->stack = stack_new();
+    if(self->stack == NULL)
+    {
+        goto done;
+    }
+    stack_init(self->stack, sizeof(struct _tree_node*));
+    self->queue = queue_new();
+    if(self->queue == NULL)
+    {
+        goto done1;
+    }
+    queue_init(self->queue, sizeof(struct _tree_node*));
+    self->cur_node = NULL;
+
+    return true;
+done1:
+    stack_free(&self->stack);
+done:
+    return false;
+
+    return true;
+}
+
 bool tree_rb_init(struct _tree *self, uint32_t obj_size)
 {
    assert(self != NULL);
@ -1502,6 +1706,7 @@ bool tree_rb_init(struct _tree *self, uint32_t obj_size)
    // self->_ratio = 2;

    self->_right_priority = false;
+    self->_order = ORDER_PRE;

    self->insert = tree_rb_insert;
    self->delete = tree_rb_delete;
@ -1523,8 +1728,32 @@ bool tree_rb_init(struct _tree *self, uint32_t obj_size)
    self->max = tree_max;
    self->min = tree_min;

+    self->set_order = tree_set_order;
+    self->begin = tree_begin;
+    self->next = tree_next;
+    self->end = tree_end;
+
    self->_root = NULL;
+
+    self->stack = stack_new();
+    if(self->stack == NULL)
+    {
+        goto done;
+    }
+    stack_init(self->stack, sizeof(struct _tree_node*));
+    self->queue = queue_new();
+    if(self->queue == NULL)
+    {
+        goto done1;
+    }
+    queue_init(self->queue, sizeof(struct _tree_node*));
+    self->cur_node = NULL;
+
    return true;
+done1:
+    stack_free(&self->stack);
+done:
+    return false;
 }

 tree_t tree_new(void)
--- a/test/test_tree.c
+++ b/test/test_tree.c
@ -463,9 +463,58 @@ void test_rbtree_struct(void)
 }
 #endif

+
+static void test_tree_iter(void)
+{
+    uint32_t i = 0;
+    // int data[] = { 2,1,3,4};
+    // int data[] = { 1,2,3,4,5,6};
+    // int data[] = { 5,2,3,1,7,8,6 };
+    int data[] = { 5,2,3,1,7,8,6,4,9,10,12,11,15,14,13 };
+    int buff[32];
+    int count = 0;
+    int temp = 0;
+    uint32_t len = sizeof(data) / sizeof(data[0]);
+
+    tree_t tree = tree_new();
+    tree_avl_init(tree, sizeof(int));
+    tree->print_obj = print_num;
+    tree->compare = compare_num;
+
+    for (i = 0; i < len; i++)
+    {
+        temp = data[i];
+        tree->insert(tree, &temp);
+
+        // printf("insert = ");
+        // tree->print_obj(&temp);
+        // printf("size = %2d : ", tree->size(tree));
+        // tree->preorder(tree, tree->_root);
+        // printf("\n");
+    }
+
+    int * iter = NULL;
+    for(iter = tree->begin(tree); iter != tree->end(tree); iter = tree->next(tree))
+    {
+        printf("%d ", *iter);
+
+        buff[count++] = *iter;
+    }
+    TEST_ASSERT_EQUAL_INT_ARRAY(data, buff, count);
+
+    TEST_ASSERT_FALSE(tree->empty(tree));
+    TEST_ASSERT_TRUE(tree->clear(tree));
+    TEST_ASSERT_TRUE(tree->empty(tree));
+    TEST_ASSERT_TRUE(tree->clear(tree));
+    tree_free(&tree);
+    TEST_ASSERT_NULL(tree);
+}
+
 void test_tree(void)
 {
    // RUN_TEST(test_avltree_num);
    // RUN_TEST(test_rbtree_num);
    // RUN_TEST(test_rbtree_struct);
+
+    RUN_TEST(test_tree_iter);
 }