/** * File: array_binary_tree.c * Created Time: 2023-07-29 * Author: Gonglja (glj0@outlook.com) */ #include "../utils/common.h" /* Array-based binary tree structure */ typedef struct { int *tree; int size; } ArrayBinaryTree; /* Constructor */ ArrayBinaryTree *newArrayBinaryTree(int *arr, int arrSize) { ArrayBinaryTree *abt = (ArrayBinaryTree *)malloc(sizeof(ArrayBinaryTree)); abt->tree = malloc(sizeof(int) * arrSize); memcpy(abt->tree, arr, sizeof(int) * arrSize); abt->size = arrSize; return abt; } /* Destructor */ void delArrayBinaryTree(ArrayBinaryTree *abt) { free(abt->tree); free(abt); } /* List capacity */ int size(ArrayBinaryTree *abt) { return abt->size; } /* Get the value of the node at index i */ int val(ArrayBinaryTree *abt, int i) { // If index is out of bounds, return INT_MAX, representing a null if (i < 0 || i >= size(abt)) return INT_MAX; return abt->tree[i]; } /* Get the index of the left child of the node at index i */ int left(int i) { return 2 * i + 1; } /* Get the index of the right child of the node at index i */ int right(int i) { return 2 * i + 2; } /* Get the index of the parent of the node at index i */ int parent(int i) { return (i - 1) / 2; } /* Level-order traversal */ int *levelOrder(ArrayBinaryTree *abt, int *returnSize) { int *res = (int *)malloc(sizeof(int) * size(abt)); int index = 0; // Traverse array for (int i = 0; i < size(abt); i++) { if (val(abt, i) != INT_MAX) res[index++] = val(abt, i); } *returnSize = index; return res; } /* Depth-first traversal */ void dfs(ArrayBinaryTree *abt, int i, char *order, int *res, int *index) { // If it is an empty spot, return if (val(abt, i) == INT_MAX) return; // Pre-order traversal if (strcmp(order, "pre") == 0) res[(*index)++] = val(abt, i); dfs(abt, left(i), order, res, index); // In-order traversal if (strcmp(order, "in") == 0) res[(*index)++] = val(abt, i); dfs(abt, right(i), order, res, index); // Post-order traversal if (strcmp(order, "post") == 0) res[(*index)++] = val(abt, i); } /* Pre-order traversal */ int *preOrder(ArrayBinaryTree *abt, int *returnSize) { int *res = (int *)malloc(sizeof(int) * size(abt)); int index = 0; dfs(abt, 0, "pre", res, &index); *returnSize = index; return res; } /* In-order traversal */ int *inOrder(ArrayBinaryTree *abt, int *returnSize) { int *res = (int *)malloc(sizeof(int) * size(abt)); int index = 0; dfs(abt, 0, "in", res, &index); *returnSize = index; return res; } /* Post-order traversal */ int *postOrder(ArrayBinaryTree *abt, int *returnSize) { int *res = (int *)malloc(sizeof(int) * size(abt)); int index = 0; dfs(abt, 0, "post", res, &index); *returnSize = index; return res; } /* Driver Code */ int main() { // Initialize binary tree // Use INT_MAX to represent null position NULL int arr[] = {1, 2, 3, 4, INT_MAX, 6, 7, 8, 9, INT_MAX, INT_MAX, 12, INT_MAX, INT_MAX, 15}; int arrSize = sizeof(arr) / sizeof(arr[0]); TreeNode *root = arrayToTree(arr, arrSize); printf("\nInitialize binary tree\n"); printf("Binary tree in array representation:\n"); printArray(arr, arrSize); printf("Binary tree in linked list representation:\n"); printTree(root); ArrayBinaryTree *abt = newArrayBinaryTree(arr, arrSize); // Access node int i = 1; int l = left(i), r = right(i), p = parent(i); printf("\nCurrent node index = %d, value = %d\n", i, val(abt, i)); printf("Its left child index = %d, value = %d\n", l, l < arrSize ? val(abt, l) : INT_MAX); printf("Its right child index = %d, value = %d\n", r, r < arrSize ? val(abt, r) : INT_MAX); printf("Its parent index = %d, value = %d\n", p, p < arrSize ? val(abt, p) : INT_MAX); // Traverse tree int returnSize; int *res; res = levelOrder(abt, &returnSize); printf("\nLevel-order traversal is:"); printArray(res, returnSize); free(res); res = preOrder(abt, &returnSize); printf("Pre-order traversal is:"); printArray(res, returnSize); free(res); res = inOrder(abt, &returnSize); printf("In-order traversal is:"); printArray(res, returnSize); free(res); res = postOrder(abt, &returnSize); printf("Post-order traversal is:"); printArray(res, returnSize); free(res); // Free memory delArrayBinaryTree(abt); return 0; }