#include "binary_search_tree.h" #include #include int count_nodes(node_t *tree); void in_order_traversal(node_t *tree, int **ptr); node_t *build_tree(int *tree_data, size_t tree_data_len) { if (tree_data_len == 0) { return NULL; } node_t *root = malloc(sizeof(node_t)); root->data = tree_data[0]; root->left = NULL; root->right = NULL; for (size_t i = 1; i < tree_data_len; i++) { node_t *current = root; node_t *parent = NULL; while (current!= NULL) { parent = current; if (tree_data[i] < current->data) { current = current->left; } else { current = current->right; } } current = malloc(sizeof(node_t)); current->data = tree_data[i]; current->left = NULL; current->right = NULL; if (tree_data[i] < parent->data) { parent->left = current; } else { parent->right = current; } } return root; } void free_tree(node_t *tree) { if (tree == NULL) { return; } free_tree(tree->left); free_tree(tree->right); free(tree); } int *sorted_data(node_t *tree) { int *data = malloc(sizeof(int) * count_nodes(tree)); int *ptr = data; in_order_traversal(tree, &ptr); return data; } int count_nodes(node_t *tree) { if (tree == NULL) { return 0; } return 1 + count_nodes(tree->left) + count_nodes(tree->right); } void in_order_traversal(node_t *tree, int **ptr) { if (tree == NULL) { return; } in_order_traversal(tree->left, ptr); **ptr = tree->data; (*ptr)++; in_order_traversal(tree->right, ptr); }