Full Stack Software Engineering studies at ALX School. learn about what is a binary tree, the different traversal methods and the different types of binary trees (complete, full, perfect and balanced).
Filename | Description |
---|---|
0-binary_tree_node.c |
Function that creates a binary tree node |
1-binary_tree_insert_left.c |
Function that inserts a node as the left-child of another node |
2-binary_tree_insert_right.c |
Function that inserts a node as the right-child of another node |
3-binary_tree_delete.c |
Function that deletes an entire binary tree |
4-binary_tree_is_leaf.c |
Funciton that checks if a node is a leaf |
5-binary_tree_is_root.c |
Function that checks if a given node is a root |
6-binary_tree_preorder.c |
Function that goes through a binary tree using pre-order traversal |
7-binary_tree_inorder.c |
Function that goes through a binary tree using in-order traversal |
8-binary_tree_postorder.c |
Function that goes through a binary tree using post-order traversal |
9-binary_tree_height.c |
Function that measures the height of a binary tree |
10-binary_tree_depth.c |
Function that measures the depth of a node in a binary tree |
11-binary_tree_size.c |
Funciton that measures the size of a binary tree |
12-binary_tree_leaves.c |
Function that counts the leaves in a binary tree |
13-binary_tree_nodes.c |
Function that counts the nodes with at least 1 child in a binary tree |
14-binary_tree_balance.c |
Function that measures the balance factor of a binary tree |
15-binary_tree_is_full.c |
Function that checks if a binary tree is full |
16-binary_tree_is_perfect.c |
Function that checks if a binary tree is perfect |
17-binary_tree_sibling.c |
Function that finds the sibling of a node |
18-binary_tree_uncle.c |
Function that finds the uncle of a node |
100-binary_trees_ancestor.c |
Funciton that finds the lowest common ancestor of two nodes |
101-binary_tree_levelorder.c |
Function that goes through a binary tree using level-order traversal |
102-binary_tree_is_complete.c |
Function that checks if a binary tree is complete |
103-binary_tree_rotate_left.c |
Function that performs a left-rotation on a binary tree |
104-binary_tree_rotate_right.c |
Function that performs a right-rotation on a binary tree |
110-binary_tree_is_bst.c |
Function that checks if a binary tree is a valid Binary Search Tree |
111-bst_insert.c |
Function that inserts a value in a Binary Search Tree |
112-array_to_bst.c |
Funciton that builds a Binary Search Tree from an array |
113-bst_search.c |
Function that searches for a value in a Binary Search Tree |
114-bst_remove.c |
Function that removes a node from a Binary Search Tree |
115-O |
File with the average time complexities of inserting a value, removing and searching a node on a Binary Search Tree |
120-binary_tree_is_avl.c |
Function that checks if a binary tree is a valid AVL Tree |
121-avl_insert.c |
Function that inserts a value in an AVL Tree |
122-array_to_avl.c |
Function that builds an AVL tree from an array |
123-avl_remove.c |
Function that removes a node from an AVL tree |
124-sorted_array_to_avl.c |
Funciton that builds an AVL tree from an array |
125-O |
File with the average time complexities of inserting a value, removing and searching a node on a AVL Tree |
130-binary_tree_is_heap.c |
Function that checks if a binary tree is a valid Max Binary Heap |
131-heap_insert.c |
Function that inserts a value in Max Binary Heap |
132-array_to_heap.c |
Function that builds a Max Binary Heap tree from an array |
133-heap_extract.c |
Write a function that extracts the root node of a Max Binary Heap |
134-heap_to_sorted_array.c |
Write a function that converts a Binary Max Heap to a sorted array of integers |
135-O |
File with the average time complexities of inserting a value, removing and searching a node on a Binary Heap |
- Musa Abraham - Musa