HashMaps/hm_include.py

############## Provided by Oregon State University ###############

# -------------- Used by both HashMaps (SC & OA)  -------------- #


class DynamicArrayException(Exception):
    pass


class DynamicArray:
    """
    Class implementing a Dynamic Array
    Supported methods are:
    append, pop, swap, get_at_index, set_at_index, length
    """

    def __init__(self, arr=None) -> None:
        """Initialize new dynamic array using a list."""
        self._data = arr.copy() if arr else []

    def __iter__(self):
        """
        Disable iterator capability for DynamicArray class
        This means loops and aggregate functions like
        those shown below won't work:

        da = DynamicArray()
        for value in da:        # will not work
        min(da)                 # will not work
        max(da)                 # will not work
        sort(da)                # will not work
        """
        return None

    def __str__(self) -> str:
        """Override string method to provide more readable output."""
        return str(self._data)

    def append(self, value: object) -> None:
        """Add new element at the end of the array."""
        self._data.append(value)

    def pop(self):
        """Remove element from end of the array and return it."""
        return self._data.pop()

    def swap(self, i: int, j: int) -> None:
        """Swap two elements in array given their indices."""
        self._data[i], self._data[j] = self._data[j], self._data[i]

    def get_at_index(self, index: int):
        """Return value of element at a given index."""
        if index < 0 or index >= self.length():
            raise DynamicArrayException
        return self._data[index]

    def __getitem__(self, index: int):
        """Return value of element at a given index using [] syntax."""
        return self.get_at_index(index)

    def set_at_index(self, index: int, value: object) -> None:
        """Set value of element at a given index."""
        if index < 0 or index >= self.length():
            raise DynamicArrayException
        self._data[index] = value

    def __setitem__(self, index: int, value: object) -> None:
        """Set value of element at a given index using [] syntax."""
        self.set_at_index(index, value)

    def length(self) -> int:
        """Return length of array."""
        return len(self._data)


def hash_function_1(key: str) -> int:
    """Sample Hash function #1 to be used with HashMap implementation"""
    hash = 0
    for letter in key:
        hash += ord(letter)
    return hash


def hash_function_2(key: str) -> int:
    """Sample Hash function #2 to be used with HashMap implementation"""
    hash, index = 0, 0
    index = 0
    for letter in key:
        hash += (index + 1) * ord(letter)
        index += 1
    return hash


# --------- For use in Separate Chaining (SC) HashMap  --------- #


class SLNode:
    """
    Singly Linked List node for use in a hash map
    """

    def __init__(self, key: str, value: object, next: "SLNode" = None) -> None:
        """Initialize node given a key and value."""
        self.key = key
        self.value = value
        self.next = next

    def __str__(self) -> str:
        """Override string method to provide more readable output."""
        return "(" + str(self.key) + ": " + str(self.value) + ")"


class LinkedListIterator:
    """
    Separate iterator class for LinkedList
    """

    def __init__(self, current_node: SLNode) -> None:
        """Initialize the iterator with a node."""
        self._node = current_node

    def __iter__(self) -> "LinkedListIterator":
        """Return the iterator."""
        return self

    def __next__(self) -> SLNode:
        """Obtain next node and advance iterator."""

        if not self._node:
            raise StopIteration

        current_node = self._node
        self._node = self._node.next
        return current_node


class LinkedList:
    """
    Class implementing a Singly Linked List
    Supported methods are: insert, remove, contains, length, iterator
    """

    def __init__(self) -> None:
        """
        Initialize new linked list;
        doesn't use a sentinel and keeps track of its size in a variable.
        """
        self._head = None
        self._size = 0

    def __str__(self) -> str:
        """Override string method to provide more readable output."""
        if not self._head:
            return "SLL []"

        content = str(self._head)
        node = self._head.next
        while node:
            content += " -> " + str(node)
            node = node.next
        return "SLL [" + content + "]"

    def __iter__(self) -> LinkedListIterator:
        """Return an iterator for the list, starting at the head."""
        return LinkedListIterator(self._head)

    def insert(self, key: str, value: object) -> None:
        """Insert new node at front of the list."""
        self._head = SLNode(key, value, self._head)
        self._size += 1

    def remove(self, key: str) -> bool:
        """
        Remove first node with matching key.
        Return True if removal was successful, False otherwise.
        """
        previous, node = None, self._head
        while node:

            if node.key == key:
                if previous:
                    previous.next = node.next
                else:
                    self._head = node.next
                self._size -= 1
                return True

            previous, node = node, node.next
        return False

    def contains(self, key: str) -> SLNode:
        """Return node with matching key, or None if no match"""
        node = self._head
        while node:
            if node.key == key:
                return node
            node = node.next
        return node

    def length(self) -> int:
        """Return the length of the list."""
        return self._size


# ---------- For use in Open Addressing (OA) HashMap  ---------- #


class HashEntry:
    def __init__(self, key: str, value: object) -> None:
        """Initialize an entry for use in a hash map."""
        self.key = key
        self.value = value
        self.is_tombstone = False

    def __str__(self) -> str:
        """Override string method to provide more readable output."""
        return f"K: {self.key} V: {self.value} TS: {self.is_tombstone}"
Rename file, add citation for Oregon State 2022-06-25 13:48:31 -04:00			`############## Provided by Oregon State University ###############`
Added skeleton code 2022-05-31 23:17:12 -04:00
			`# -------------- Used by both HashMaps (SC & OA) -------------- #`

Rename file, add citation for Oregon State 2022-06-25 13:48:31 -04:00
Added skeleton code 2022-05-31 23:17:12 -04:00			`class DynamicArrayException(Exception):`
			`pass`


			`class DynamicArray:`
			`"""`
			`Class implementing a Dynamic Array`
			`Supported methods are:`
			`append, pop, swap, get_at_index, set_at_index, length`
			`"""`

			`def __init__(self, arr=None) -> None:`
			`"""Initialize new dynamic array using a list."""`
			`self._data = arr.copy() if arr else []`

			`def __iter__(self):`
			`"""`
			`Disable iterator capability for DynamicArray class`
			`This means loops and aggregate functions like`
			`those shown below won't work:`

			`da = DynamicArray()`
			`for value in da: # will not work`
			`min(da) # will not work`
			`max(da) # will not work`
			`sort(da) # will not work`
			`"""`
			`return None`

			`def __str__(self) -> str:`
			`"""Override string method to provide more readable output."""`
			`return str(self._data)`

			`def append(self, value: object) -> None:`
			`"""Add new element at the end of the array."""`
			`self._data.append(value)`

			`def pop(self):`
			`"""Remove element from end of the array and return it."""`
			`return self._data.pop()`

			`def swap(self, i: int, j: int) -> None:`
			`"""Swap two elements in array given their indices."""`
			`self._data[i], self._data[j] = self._data[j], self._data[i]`

			`def get_at_index(self, index: int):`
			`"""Return value of element at a given index."""`
			`if index < 0 or index >= self.length():`
			`raise DynamicArrayException`
			`return self._data[index]`

			`def __getitem__(self, index: int):`
			`"""Return value of element at a given index using [] syntax."""`
			`return self.get_at_index(index)`

			`def set_at_index(self, index: int, value: object) -> None:`
			`"""Set value of element at a given index."""`
			`if index < 0 or index >= self.length():`
			`raise DynamicArrayException`
			`self._data[index] = value`

			`def __setitem__(self, index: int, value: object) -> None:`
			`"""Set value of element at a given index using [] syntax."""`
			`self.set_at_index(index, value)`

			`def length(self) -> int:`
			`"""Return length of array."""`
			`return len(self._data)`


			`def hash_function_1(key: str) -> int:`
			`"""Sample Hash function #1 to be used with HashMap implementation"""`
			`hash = 0`
			`for letter in key:`
			`hash += ord(letter)`
			`return hash`


			`def hash_function_2(key: str) -> int:`
			`"""Sample Hash function #2 to be used with HashMap implementation"""`
			`hash, index = 0, 0`
			`index = 0`
			`for letter in key:`
			`hash += (index + 1) * ord(letter)`
			`index += 1`
			`return hash`


			`# --------- For use in Separate Chaining (SC) HashMap --------- #`

Rename file, add citation for Oregon State 2022-06-25 13:48:31 -04:00
Added skeleton code 2022-05-31 23:17:12 -04:00			`class SLNode:`
			`"""`
			`Singly Linked List node for use in a hash map`
			`"""`

			`def __init__(self, key: str, value: object, next: "SLNode" = None) -> None:`
			`"""Initialize node given a key and value."""`
			`self.key = key`
			`self.value = value`
			`self.next = next`

			`def __str__(self) -> str:`
			`"""Override string method to provide more readable output."""`
Rename file, add citation for Oregon State 2022-06-25 13:48:31 -04:00			`return "(" + str(self.key) + ": " + str(self.value) + ")"`
Added skeleton code 2022-05-31 23:17:12 -04:00

			`class LinkedListIterator:`
			`"""`
			`Separate iterator class for LinkedList`
			`"""`

			`def __init__(self, current_node: SLNode) -> None:`
			`"""Initialize the iterator with a node."""`
			`self._node = current_node`

			`def __iter__(self) -> "LinkedListIterator":`
			`"""Return the iterator."""`
			`return self`

			`def __next__(self) -> SLNode:`
			`"""Obtain next node and advance iterator."""`

			`if not self._node:`
			`raise StopIteration`

			`current_node = self._node`
			`self._node = self._node.next`
			`return current_node`


			`class LinkedList:`
			`"""`
			`Class implementing a Singly Linked List`
			`Supported methods are: insert, remove, contains, length, iterator`
			`"""`

			`def __init__(self) -> None:`
			`"""`
			`Initialize new linked list;`
			`doesn't use a sentinel and keeps track of its size in a variable.`
			`"""`
			`self._head = None`
			`self._size = 0`

			`def __str__(self) -> str:`
			`"""Override string method to provide more readable output."""`
			`if not self._head:`
			`return "SLL []"`

			`content = str(self._head)`
			`node = self._head.next`
			`while node:`
Rename file, add citation for Oregon State 2022-06-25 13:48:31 -04:00			`content += " -> " + str(node)`
Added skeleton code 2022-05-31 23:17:12 -04:00			`node = node.next`
Rename file, add citation for Oregon State 2022-06-25 13:48:31 -04:00			`return "SLL [" + content + "]"`
Added skeleton code 2022-05-31 23:17:12 -04:00
			`def __iter__(self) -> LinkedListIterator:`
			`"""Return an iterator for the list, starting at the head."""`
			`return LinkedListIterator(self._head)`

			`def insert(self, key: str, value: object) -> None:`
			`"""Insert new node at front of the list."""`
			`self._head = SLNode(key, value, self._head)`
			`self._size += 1`

			`def remove(self, key: str) -> bool:`
			`"""`
			`Remove first node with matching key.`
			`Return True if removal was successful, False otherwise.`
			`"""`
			`previous, node = None, self._head`
			`while node:`

			`if node.key == key:`
			`if previous:`
			`previous.next = node.next`
			`else:`
			`self._head = node.next`
			`self._size -= 1`
			`return True`

			`previous, node = node, node.next`
			`return False`

			`def contains(self, key: str) -> SLNode:`
			`"""Return node with matching key, or None if no match"""`
			`node = self._head`
			`while node:`
			`if node.key == key:`
			`return node`
			`node = node.next`
			`return node`

			`def length(self) -> int:`
			`"""Return the length of the list."""`
			`return self._size`


			`# ---------- For use in Open Addressing (OA) HashMap ---------- #`


Rename file, add citation for Oregon State 2022-06-25 13:48:31 -04:00			`class HashEntry:`
Added skeleton code 2022-05-31 23:17:12 -04:00			`def __init__(self, key: str, value: object) -> None:`
			`"""Initialize an entry for use in a hash map."""`
			`self.key = key`
			`self.value = value`
			`self.is_tombstone = False`

			`def __str__(self) -> str:`
			`"""Override string method to provide more readable output."""`
			`return f"K: {self.key} V: {self.value} TS: {self.is_tombstone}"`