Update arrayToTree() and treeToArray() for C.

2025-02-02 22:43:50 +08:00 · 2023-10-27 01:04:17 +08:00 · 2023-10-27 01:04:17 +08:00 · 0e10274bb4
commit 0e10274bb4
parent 5b1a219b8b
4 changed files with 57 additions and 78 deletions
--- a/codes/c/utils/common_test.c
+++ b/codes/c/utils/common_test.c
@ -19,13 +19,13 @@ void testListNode() {
 void testTreeNode() {
    int nums[] = {1, 2, 3, INT_MAX, 5, 6, INT_MAX};
    int size = sizeof(nums) / sizeof(int);
-    TreeNode *root = arrToTree(nums, size);
+    TreeNode *root = arrayToTree(nums, size);
    // print tree
    printTree(root);
    // tree to arr
-    int *arr = treeToArr(root);
+    int *arr = treeToArray(root, size);
    printArray(arr, size);
 }
--- a/codes/c/utils/list_node.h
+++ b/codes/c/utils/list_node.h
@ -26,7 +26,7 @@ ListNode *newListNode(int val) {
    return node;
 }
-/* Generate a linked list with a vector */
+/* Generate a linked list with an array */
 ListNode *arrToLinkedList(const int *arr, size_t size) {
    if (size <= 0) {
        return NULL;
--- a/codes/c/utils/print_util.h
+++ b/codes/c/utils/print_util.h
@ -1,7 +1,7 @@
 /**
 * File: print_util.h
 * Created Time: 2022-12-21
- * Author: MolDum (moldum@163.com)、Reanon (793584285@qq.com)
+ * Author: MolDum (moldum@163.com), Reanon (793584285@qq.com)
 */
 #ifndef PRINT_UTIL_H
@ -133,7 +133,7 @@ static void printHeap(int arr[], int size) {
    printf("堆的数组表示：");
    printArray(arr, size);
    printf("堆的树状表示：\n");
-    root = arrToTree(arr, size);
+    root = arrayToTree(arr, size);
    printTree(root);
 }
--- a/codes/c/utils/tree_node.h
+++ b/codes/c/utils/tree_node.h
@ -23,6 +23,7 @@ typedef struct TreeNode {
    struct TreeNode *right; // 右子节点指针
 } TreeNode;
 /* 构造函数 */
 TreeNode *newTreeNode(int val) {
    TreeNode *node;
@ -34,93 +35,71 @@ TreeNode *newTreeNode(int val) {
    return node;
 }
-/* Generate a binary tree with an array */
+// 序列化编码规则请参考：
-TreeNode *arrToTree(const int *arr, size_t size) {
+// https://www.hello-algo.com/chapter_tree/array_representation_of_tree/
-    if (size <= 0) {
+// 二叉树的数组表示：
 // [1, 2, 3, 4, None, 6, 7, 8, 9, None, None, 12, None, None, 15]
 // 二叉树的链表表示：
 //             /——— 15
 //         /——— 7
 //     /——— 3
 //    |    \——— 6
 //    |        \——— 12
 // ——— 1
 //     \——— 2
 //        |    /——— 9
 //         \——— 4
 //             \——— 8
 /* 将列表反序列化为二叉树：递归 */
 TreeNode *arrayToTreeDFS(int *arr, int size, int i) {
    if (i < 0 || i >= size || arr[i] == INT_MAX) {
        return NULL;
    }
-
+    TreeNode *root = (TreeNode *)malloc(sizeof(TreeNode));
-    int front, rear, index;
+    root->val = arr[i];
-    TreeNode *root, *node;
+    root->left = arrayToTreeDFS(arr, size, 2 * i + 1);
-    TreeNode **queue;
+    root->right = arrayToTreeDFS(arr, size, 2 * i + 2);
    /* 根节点 */
    root = newTreeNode(arr[0]);
    /* 辅助队列 */
    queue = (TreeNode **)malloc(sizeof(TreeNode *) * MAX_NODE_SIZE);
    // 队列指针
    front = 0, rear = 0;
    // 将根节点放入队尾
    queue[rear++] = root;
    // 记录遍历数组的索引
    index = 0;
    while (front < rear) {
        // 取队列中的头节点，并让头节点出队
        node = queue[front++];
        index++;
        if (index < size) {
            // represent null with INT_MAX
            if (arr[index] != INT_MAX) {
                node->left = newTreeNode(arr[index]);
                queue[rear++] = node->left;
            }
        }
        index++;
        if (index < size) {
            if (arr[index] != INT_MAX) {
                node->right = newTreeNode(arr[index]);
                queue[rear++] = node->right;
            }
        }
    }
    // 释放辅助队列空间
    free(queue);
    return root;
 }
-/* Generate a binary tree with an array */
+/* 将列表反序列化为二叉树 */
-int *treeToArr(TreeNode *root) {
+TreeNode *arrayToTree(int *arr, int size) {
-    if (root == NULL) {
+    return arrayToTreeDFS(arr, size, 0);
        return NULL;
    }
    int front, rear;
    int index, *arr;
    TreeNode *node;
    TreeNode **queue;
    /* 辅助队列 */
    queue = (TreeNode **)malloc(sizeof(TreeNode) * MAX_NODE_SIZE);
    // 队列指针
    front = 0, rear = 0;
    // 将根节点放入队尾
    queue[rear++] = root;
    /* 辅助数组 */
    arr = (int *)malloc(sizeof(int) * MAX_NODE_SIZE);
    // 数组指针
    index = 0;
    while (front < rear) {
        // 取队列中的头节点，并让头节点出队
        node = queue[front++];
        if (node != NULL) {
            arr[index] = node->val;
            queue[rear++] = node->left;
            queue[rear++] = node->right;
        } else {
            arr[index] = INT_MAX;
        }
        index++;
    }
    return arr;
 }
-/* Free the memory allocated to a tree */
+/* 将二叉树序列化为列表：递归 */
 void treeToArrayDFS(TreeNode *root, int i, int *res, int *size) {
    if (root == NULL) {
        return;
    }
    while (i >= *size) {
        res = realloc(res, (*size + 1) * sizeof(int));
        res[*size] = INT_MAX;
        (*size)++;
    }
    res[i] = root->val;
    treeToArrayDFS(root->left, 2 * i + 1, res, size);
    treeToArrayDFS(root->right, 2 * i + 2, res, size);
 }
 /* 将二叉树序列化为列表 */
 int *treeToArray(TreeNode *root, int *size) {
    *size = 0;
    int *res = NULL;
    treeToArrayDFS(root, 0, res, size);
    return res;
 }
 /* 释放二叉树内存 */
 void freeMemoryTree(TreeNode *root) {
    if (root == NULL)
        return;
    freeMemoryTree(root->left);
    freeMemoryTree(root->right);
    // 释放内存
    free(root);
 }
 #ifdef __cplusplus
 }
 #endif