2026-rff_mp/KuznetsovYuM/docs/data/1-st-exercise/phonebook_structures.py

def linked_list_add(head, name, phone):
    curr = head
    while curr is not None:
        if curr['name'] == name:
            curr['phone'] = phone
            return head
        curr = curr['next']

    new_node = {'name': name, 'phone': phone, 'next': None}
    if head is None:
        return new_node

    curr = head
    while curr['next'] is not None:
        curr = curr['next']
    curr['next'] = new_node
    return head


def linked_list_find(head, name):
    curr = head
    while curr is not None:
        if curr['name'] == name:
            return curr['phone']
        curr = curr['next']
    return None


def linked_list_remove(head, name):
    if head is None:
        return None
    if head['name'] == name:
        return head['next']
    prev = head
    curr = head['next']
    while curr is not None:
        if curr['name'] == name:
            prev['next'] = curr['next']
            return head
        prev = curr
        curr = curr['next']
    return head


def linked_list_collect_all(head):
    records = []
    curr = head
    while curr is not None:
        records.append((curr['name'], curr['phone']))
        curr = curr['next']
    records.sort(key=lambda pair: pair[0])
    return records


#HASH
def _hash_bucket_index(key, table_size):
    return hash(key) % table_size


def hash_table_create(bucket_count=10):
    return [None] * bucket_count


def hash_table_put(table, name, phone):
    idx = _hash_bucket_index(name, len(table))
    table[idx] = linked_list_add(table[idx], name, phone)
    return table


def hash_table_get(table, name):
    idx = _hash_bucket_index(name, len(table))
    return linked_list_find(table[idx], name)


def hash_table_remove(table, name):
    idx = _hash_bucket_index(name, len(table))
    table[idx] = linked_list_remove(table[idx], name)
    return table


def hash_table_collect_all(table):
    all_records = []
    for head in table:
        curr = head
        while curr is not None:
            all_records.append((curr['name'], curr['phone']))
            curr = curr['next']
    all_records.sort(key=lambda pair: pair[0])
    return all_records


#BST
def _bst_new_node(name, phone):
    return {'name': name, 'phone': phone, 'left': None, 'right': None}


def bst_add(root, name, phone):
    """Insert or update. Returns (possibly new) root."""
    if root is None:
        return _bst_new_node(name, phone)

    if name == root['name']:
        root['phone'] = phone
    elif name < root['name']:
        root['left'] = bst_add(root['left'], name, phone)
    else:
        root['right'] = bst_add(root['right'], name, phone)
    return root


def bst_find(root, name):
    if root is None:
        return None
    if name == root['name']:
        return root['phone']
    elif name < root['name']:
        return bst_find(root['left'], name)
    else:
        return bst_find(root['right'], name)


def _bst_find_minimum(node):
    while node['left'] is not None:
        node = node['left']
    return node


def bst_remove(root, name):
    if root is None:
        return None

    if name < root['name']:
        root['left'] = bst_remove(root['left'], name)
    elif name > root['name']:
        root['right'] = bst_remove(root['right'], name)
    else:
        if root['left'] is None:
            return root['right']
        if root['right'] is None:
            return root['left']

        successor = _bst_find_minimum(root['right'])
        root['name'] = successor['name']
        root['phone'] = successor['phone']
        root['right'] = bst_remove(root['right'], successor['name'])
    return root


def bst_collect_inorder(root):
    result = []
    def inorder(node):
        if node is None:
            return
        inorder(node['left'])
        result.append((node['name'], node['phone']))
        inorder(node['right'])
    inorder(root)
    return result


if __name__ == '__main__':
    tree = None
    tree = bst_add(tree, 'Zoe', '111')
    tree = bst_add(tree, 'Alice', '222')
    tree = bst_add(tree, 'Bob', '333')
    tree = bst_add(tree, 'Alice', '444')
    print(bst_find(tree, 'Alice'))   # 444
    tree = bst_remove(tree, 'Bob')
    print(bst_collect_inorder(tree)) # [('Alice','444'), ('Zoe','111')]
[1] Implement linked list phonebook 2026-05-22 17:11:40 +00:00			`def linked_list_add(head, name, phone):`
			`curr = head`
			`while curr is not None:`
			`if curr['name'] == name:`
			`curr['phone'] = phone`
			`return head`
			`curr = curr['next']`

			`new_node = {'name': name, 'phone': phone, 'next': None}`
			`if head is None:`
			`return new_node`

			`curr = head`
			`while curr['next'] is not None:`
			`curr = curr['next']`
			`curr['next'] = new_node`
			`return head`


			`def linked_list_find(head, name):`
			`curr = head`
			`while curr is not None:`
			`if curr['name'] == name:`
			`return curr['phone']`
			`curr = curr['next']`
			`return None`


			`def linked_list_remove(head, name):`
			`if head is None:`
			`return None`
			`if head['name'] == name:`
			`return head['next']`
			`prev = head`
			`curr = head['next']`
			`while curr is not None:`
			`if curr['name'] == name:`
			`prev['next'] = curr['next']`
			`return head`
			`prev = curr`
			`curr = curr['next']`
			`return head`


			`def linked_list_collect_all(head):`
			`records = []`
			`curr = head`
			`while curr is not None:`
			`records.append((curr['name'], curr['phone']))`
			`curr = curr['next']`
			`records.sort(key=lambda pair: pair[0])`
			`return records`


[1] Implement binary search tree phonebook 2026-05-22 17:14:10 +00:00
			`#HASH`
[1] Implement hash table based on linked list buckets 2026-05-22 17:13:03 +00:00			`def _hash_bucket_index(key, table_size):`
			`return hash(key) % table_size`


			`def hash_table_create(bucket_count=10):`
			`return [None] * bucket_count`


			`def hash_table_put(table, name, phone):`
			`idx = _hash_bucket_index(name, len(table))`
			`table[idx] = linked_list_add(table[idx], name, phone)`
			`return table`


			`def hash_table_get(table, name):`
			`idx = _hash_bucket_index(name, len(table))`
			`return linked_list_find(table[idx], name)`


			`def hash_table_remove(table, name):`
			`idx = _hash_bucket_index(name, len(table))`
			`table[idx] = linked_list_remove(table[idx], name)`
			`return table`


			`def hash_table_collect_all(table):`
			`all_records = []`
			`for head in table:`
			`curr = head`
			`while curr is not None:`
			`all_records.append((curr['name'], curr['phone']))`
			`curr = curr['next']`
			`all_records.sort(key=lambda pair: pair[0])`
			`return all_records`


[1] Implement binary search tree phonebook 2026-05-22 17:14:10 +00:00			`#BST`
			`def _bst_new_node(name, phone):`
			`return {'name': name, 'phone': phone, 'left': None, 'right': None}`


			`def bst_add(root, name, phone):`
			`"""Insert or update. Returns (possibly new) root."""`
			`if root is None:`
			`return _bst_new_node(name, phone)`

			`if name == root['name']:`
			`root['phone'] = phone`
			`elif name < root['name']:`
			`root['left'] = bst_add(root['left'], name, phone)`
			`else:`
			`root['right'] = bst_add(root['right'], name, phone)`
			`return root`


			`def bst_find(root, name):`
			`if root is None:`
			`return None`
			`if name == root['name']:`
			`return root['phone']`
			`elif name < root['name']:`
			`return bst_find(root['left'], name)`
			`else:`
			`return bst_find(root['right'], name)`


			`def _bst_find_minimum(node):`
			`while node['left'] is not None:`
			`node = node['left']`
			`return node`


			`def bst_remove(root, name):`
			`if root is None:`
			`return None`

			`if name < root['name']:`
			`root['left'] = bst_remove(root['left'], name)`
			`elif name > root['name']:`
			`root['right'] = bst_remove(root['right'], name)`
			`else:`
			`if root['left'] is None:`
			`return root['right']`
			`if root['right'] is None:`
			`return root['left']`

			`successor = _bst_find_minimum(root['right'])`
			`root['name'] = successor['name']`
			`root['phone'] = successor['phone']`
			`root['right'] = bst_remove(root['right'], successor['name'])`
			`return root`


			`def bst_collect_inorder(root):`
			`result = []`
			`def inorder(node):`
			`if node is None:`
			`return`
			`inorder(node['left'])`
			`result.append((node['name'], node['phone']))`
			`inorder(node['right'])`
			`inorder(root)`
			`return result`


[1] Implement linked list phonebook 2026-05-22 17:11:40 +00:00			`if __name__ == '__main__':`
[1] Implement binary search tree phonebook 2026-05-22 17:14:10 +00:00			`tree = None`
			`tree = bst_add(tree, 'Zoe', '111')`
			`tree = bst_add(tree, 'Alice', '222')`
			`tree = bst_add(tree, 'Bob', '333')`
			`tree = bst_add(tree, 'Alice', '444')`
			`print(bst_find(tree, 'Alice')) # 444`
			`tree = bst_remove(tree, 'Bob')`
			`print(bst_collect_inorder(tree)) # [('Alice','444'), ('Zoe','111')]`