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Binary tree implementation in c++
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| #include <iostream> | |
| using namespace std; | |
| struct node{ | |
| int value; | |
| node *left; | |
| node *right; | |
| }; | |
| class btree{ | |
| public: | |
| btree(); | |
| ~btree(); | |
| void insert(int key); | |
| node *search(int key); | |
| void destroy_tree(); | |
| void inorder_print(); | |
| void postorder_print(); | |
| void preorder_print(); | |
| private: | |
| void destroy_tree(node *leaf); | |
| void insert(int key, node *leaf); | |
| node *search(int key, node *leaf); | |
| void inorder_print(node *leaf); | |
| void postorder_print(node *leaf); | |
| void preorder_print(node *leaf); | |
| node *root; | |
| }; | |
| btree::btree(){ | |
| root = NULL; | |
| } | |
| btree::~btree(){ | |
| destroy_tree(); | |
| } | |
| void btree::destroy_tree(node *leaf){ | |
| if(leaf != NULL){ | |
| destroy_tree(leaf->left); | |
| destroy_tree(leaf->right); | |
| delete leaf; | |
| } | |
| } | |
| void btree::insert(int key, node *leaf){ | |
| if(key < leaf->value){ | |
| if(leaf->left != NULL){ | |
| insert(key, leaf->left); | |
| }else{ | |
| leaf->left = new node; | |
| leaf->left->value = key; | |
| leaf->left->left = NULL; | |
| leaf->left->right = NULL; | |
| } | |
| }else if(key >= leaf->value){ | |
| if(leaf->right != NULL){ | |
| insert(key, leaf->right); | |
| }else{ | |
| leaf->right = new node; | |
| leaf->right->value = key; | |
| leaf->right->right = NULL; | |
| leaf->right->left = NULL; | |
| } | |
| } | |
| } | |
| void btree::insert(int key){ | |
| if(root != NULL){ | |
| insert(key, root); | |
| }else{ | |
| root = new node; | |
| root->value = key; | |
| root->left = NULL; | |
| root->right = NULL; | |
| } | |
| } | |
| node *btree::search(int key, node *leaf){ | |
| if(leaf != NULL){ | |
| if(key == leaf->value){ | |
| return leaf; | |
| } | |
| if(key < leaf->value){ | |
| return search(key, leaf->left); | |
| }else{ | |
| return search(key, leaf->right); | |
| } | |
| }else{ | |
| return NULL; | |
| } | |
| } | |
| node *btree::search(int key){ | |
| return search(key, root); | |
| } | |
| void btree::destroy_tree(){ | |
| destroy_tree(root); | |
| } | |
| void btree::inorder_print(){ | |
| inorder_print(root); | |
| cout << "\n"; | |
| } | |
| void btree::inorder_print(node *leaf){ | |
| if(leaf != NULL){ | |
| inorder_print(leaf->left); | |
| cout << leaf->value << ","; | |
| inorder_print(leaf->right); | |
| } | |
| } | |
| void btree::postorder_print(){ | |
| postorder_print(root); | |
| cout << "\n"; | |
| } | |
| void btree::postorder_print(node *leaf){ | |
| if(leaf != NULL){ | |
| inorder_print(leaf->left); | |
| inorder_print(leaf->right); | |
| cout << leaf->value << ","; | |
| } | |
| } | |
| void btree::preorder_print(){ | |
| preorder_print(root); | |
| cout << "\n"; | |
| } | |
| void btree::preorder_print(node *leaf){ | |
| if(leaf != NULL){ | |
| cout << leaf->value << ","; | |
| inorder_print(leaf->left); | |
| inorder_print(leaf->right); | |
| } | |
| } | |
| int main(){ | |
| //btree tree; | |
| btree *tree = new btree(); | |
| tree->insert(10); | |
| tree->insert(6); | |
| tree->insert(14); | |
| tree->insert(5); | |
| tree->insert(8); | |
| tree->insert(11); | |
| tree->insert(18); | |
| tree->preorder_print(); | |
| tree->inorder_print(); | |
| tree->postorder_print(); | |
| delete tree; | |
| } |
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