Python/data_structures/linked_list/__init__.py
Saksham Saha c9b4b8002f
Added an add at position subroutiune to linked list (#9020)
* added addAtPosition to simple linked list

* added addAtPosition to simple linked list

* modified the add function to take an optional position command

* fixed type safety errors:

* fixed type safety errors:

* fixed type safety errors:

* fixed type safety errors:

* fixed size error

* fixed size error

* added doctest and updates the else after checking if posiiton argument less than 0 or not

* added doctest and updates the else after checking if posiiton argument less than 0 or not

* fixed the contributing.md mistake

* added doctest for out of bounds position value, both negative and positive
2023-09-08 08:20:28 -04:00

133 lines
3.7 KiB
Python

"""
Linked Lists consists of Nodes.
Nodes contain data and also may link to other nodes:
- Head Node: First node, the address of the
head node gives us access of the complete list
- Last node: points to null
"""
from __future__ import annotations
from typing import Any
class Node:
def __init__(self, item: Any, next: Any) -> None: # noqa: A002
self.item = item
self.next = next
class LinkedList:
def __init__(self) -> None:
self.head: Node | None = None
self.size = 0
def add(self, item: Any, position: int = 0) -> None:
"""
Add an item to the LinkedList at the specified position.
Default position is 0 (the head).
Args:
item (Any): The item to add to the LinkedList.
position (int, optional): The position at which to add the item.
Defaults to 0.
Raises:
ValueError: If the position is negative or out of bounds.
>>> linked_list = LinkedList()
>>> linked_list.add(1)
>>> linked_list.add(2)
>>> linked_list.add(3)
>>> linked_list.add(4, 2)
>>> print(linked_list)
3 --> 2 --> 4 --> 1
# Test adding to a negative position
>>> linked_list.add(5, -3)
Traceback (most recent call last):
...
ValueError: Position must be non-negative
# Test adding to an out-of-bounds position
>>> linked_list.add(5,7)
Traceback (most recent call last):
...
ValueError: Out of bounds
>>> linked_list.add(5, 4)
>>> print(linked_list)
3 --> 2 --> 4 --> 1 --> 5
"""
if position < 0:
raise ValueError("Position must be non-negative")
if position == 0 or self.head is None:
new_node = Node(item, self.head)
self.head = new_node
else:
current = self.head
for _ in range(position - 1):
current = current.next
if current is None:
raise ValueError("Out of bounds")
new_node = Node(item, current.next)
current.next = new_node
self.size += 1
def remove(self) -> Any:
# Switched 'self.is_empty()' to 'self.head is None'
# because mypy was considering the possibility that 'self.head'
# can be None in below else part and giving error
if self.head is None:
return None
else:
item = self.head.item
self.head = self.head.next
self.size -= 1
return item
def is_empty(self) -> bool:
return self.head is None
def __str__(self) -> str:
"""
>>> linked_list = LinkedList()
>>> linked_list.add(23)
>>> linked_list.add(14)
>>> linked_list.add(9)
>>> print(linked_list)
9 --> 14 --> 23
"""
if self.is_empty():
return ""
else:
iterate = self.head
item_str = ""
item_list: list[str] = []
while iterate:
item_list.append(str(iterate.item))
iterate = iterate.next
item_str = " --> ".join(item_list)
return item_str
def __len__(self) -> int:
"""
>>> linked_list = LinkedList()
>>> len(linked_list)
0
>>> linked_list.add("a")
>>> len(linked_list)
1
>>> linked_list.add("b")
>>> len(linked_list)
2
>>> _ = linked_list.remove()
>>> len(linked_list)
1
>>> _ = linked_list.remove()
>>> len(linked_list)
0
"""
return self.size