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hash_map_oa_OG.py
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# Name:
# OSU Email:
# Course: CS261 - Data Structures
# Assignment:
# Due Date:
# Description:
from a6_include import (DynamicArray, DynamicArrayException, HashEntry,
hash_function_1, hash_function_2)
class HashMap:
def __init__(self, capacity: int, function) -> None:
"""
Initialize new HashMap that uses
quadratic probing for collision resolution
DO NOT CHANGE THIS METHOD IN ANY WAY
"""
self._buckets = DynamicArray()
# capacity must be a prime number
self._capacity = self._next_prime(capacity)
for _ in range(self._capacity):
self._buckets.append(None)
self._hash_function = function
self._size = 0
def __str__(self) -> str:
"""
Override string method to provide more readable output
DO NOT CHANGE THIS METHOD IN ANY WAY
"""
out = ''
for i in range(self._buckets.length()):
out += str(i) + ': ' + str(self._buckets[i]) + '\n'
return out
def _next_prime(self, capacity: int) -> int:
"""
Increment from given number to find the closest prime number
DO NOT CHANGE THIS METHOD IN ANY WAY
"""
if capacity % 2 == 0:
capacity += 1
while not self._is_prime(capacity):
capacity += 2
return capacity
@staticmethod
def _is_prime(capacity: int) -> bool:
"""
Determine if given integer is a prime number and return boolean
DO NOT CHANGE THIS METHOD IN ANY WAY
"""
if capacity == 2 or capacity == 3:
return True
if capacity == 1 or capacity % 2 == 0:
return False
factor = 3
while factor ** 2 <= capacity:
if capacity % factor == 0:
return False
factor += 2
return True
def get_size(self) -> int:
"""
Return size of map
DO NOT CHANGE THIS METHOD IN ANY WAY
"""
return self._size
def get_capacity(self) -> int:
"""
Return capacity of map
DO NOT CHANGE THIS METHOD IN ANY WAY
"""
return self._capacity
# ------------------------------------------------------------------ #
def put(self, key: str, value: object) -> None:
"""
TODO: Write this implementation
"""
pass
def table_load(self) -> float:
"""
TODO: Write this implementation
"""
pass
def empty_buckets(self) -> int:
"""
TODO: Write this implementation
"""
pass
def resize_table(self, new_capacity: int) -> None:
"""
TODO: Write this implementation
"""
pass
def get(self, key: str) -> object:
"""
TODO: Write this implementation
"""
pass
def contains_key(self, key: str) -> bool:
"""
TODO: Write this implementation
"""
pass
def remove(self, key: str) -> None:
"""
TODO: Write this implementation
"""
pass
def clear(self) -> None:
"""
TODO: Write this implementation
"""
pass
def get_keys_and_values(self) -> DynamicArray:
"""
TODO: Write this implementation
"""
pass
def __iter__(self):
"""
TODO: Write this implementation
"""
pass
def __next__(self):
"""
TODO: Write this implementation
"""
pass
# ------------------- BASIC TESTING ---------------------------------------- #
if __name__ == "__main__":
print("\nPDF - put example 1")
print("-------------------")
m = HashMap(53, hash_function_1)
for i in range(150):
m.put('str' + str(i), i * 100)
if i % 25 == 24:
print(m.empty_buckets(), round(m.table_load(), 2), m.get_size(),
m.get_capacity())
print("\nPDF - put example 2")
print("-------------------")
m = HashMap(41, hash_function_2)
for i in range(50):
m.put('str' + str(i // 3), i * 100)
if i % 10 == 9:
print(m.empty_buckets(), round(m.table_load(), 2), m.get_size(),
m.get_capacity())
print("\nPDF - table_load example 1")
print("--------------------------")
m = HashMap(101, hash_function_1)
print(round(m.table_load(), 2))
m.put('key1', 10)
print(round(m.table_load(), 2))
m.put('key2', 20)
print(round(m.table_load(), 2))
m.put('key1', 30)
print(round(m.table_load(), 2))
print("\nPDF - table_load example 2")
print("--------------------------")
m = HashMap(53, hash_function_1)
for i in range(50):
m.put('key' + str(i), i * 100)
if i % 10 == 0:
print(round(m.table_load(), 2), m.get_size(), m.get_capacity())
print("\nPDF - empty_buckets example 1")
print("-----------------------------")
m = HashMap(101, hash_function_1)
print(m.empty_buckets(), m.get_size(), m.get_capacity())
m.put('key1', 10)
print(m.empty_buckets(), m.get_size(), m.get_capacity())
m.put('key2', 20)
print(m.empty_buckets(), m.get_size(), m.get_capacity())
m.put('key1', 30)
print(m.empty_buckets(), m.get_size(), m.get_capacity())
m.put('key4', 40)
print(m.empty_buckets(), m.get_size(), m.get_capacity())
print("\nPDF - empty_buckets example 2")
print("-----------------------------")
m = HashMap(53, hash_function_1)
for i in range(150):
m.put('key' + str(i), i * 100)
if i % 30 == 0:
print(m.empty_buckets(), m.get_size(), m.get_capacity())
print("\nPDF - resize example 1")
print("----------------------")
m = HashMap(23, hash_function_1)
m.put('key1', 10)
print(m.get_size(), m.get_capacity(), m.get('key1'),
m.contains_key('key1'))
m.resize_table(30)
print(m.get_size(), m.get_capacity(), m.get('key1'),
m.contains_key('key1'))
print("\nPDF - resize example 2")
print("----------------------")
m = HashMap(79, hash_function_2)
keys = [i for i in range(1, 1000, 13)]
for key in keys:
m.put(str(key), key * 42)
print(m.get_size(), m.get_capacity())
for capacity in range(111, 1000, 117):
m.resize_table(capacity)
if m.table_load() > 0.5:
print(f"Check that the load factor is acceptable after the call to resize_table().\n"
f"Your load factor is {round(m.table_load(), 2)} and should be less than or equal to 0.5")
m.put('some key', 'some value')
result = m.contains_key('some key')
m.remove('some key')
for key in keys:
# all inserted keys must be present
result &= m.contains_key(str(key))
# NOT inserted keys must be absent
result &= not m.contains_key(str(key + 1))
print(capacity, result, m.get_size(), m.get_capacity(), round(m.table_load(), 2))
print("\nPDF - get example 1")
print("-------------------")
m = HashMap(31, hash_function_1)
print(m.get('key'))
m.put('key1', 10)
print(m.get('key1'))
print("\nPDF - get example 2")
print("-------------------")
m = HashMap(151, hash_function_2)
for i in range(200, 300, 7):
m.put(str(i), i * 10)
print(m.get_size(), m.get_capacity())
for i in range(200, 300, 21):
print(i, m.get(str(i)), m.get(str(i)) == i * 10)
print(i + 1, m.get(str(i + 1)), m.get(str(i + 1)) == (i + 1) * 10)
print("\nPDF - contains_key example 1")
print("----------------------------")
m = HashMap(11, hash_function_1)
print(m.contains_key('key1'))
m.put('key1', 10)
m.put('key2', 20)
m.put('key3', 30)
print(m.contains_key('key1'))
print(m.contains_key('key4'))
print(m.contains_key('key2'))
print(m.contains_key('key3'))
m.remove('key3')
print(m.contains_key('key3'))
print("\nPDF - contains_key example 2")
print("----------------------------")
m = HashMap(79, hash_function_2)
keys = [i for i in range(1, 1000, 20)]
for key in keys:
m.put(str(key), key * 42)
print(m.get_size(), m.get_capacity())
result = True
for key in keys:
# all inserted keys must be present
result &= m.contains_key(str(key))
# NOT inserted keys must be absent
result &= not m.contains_key(str(key + 1))
print(result)
print("\nPDF - remove example 1")
print("----------------------")
m = HashMap(53, hash_function_1)
print(m.get('key1'))
m.put('key1', 10)
print(m.get('key1'))
m.remove('key1')
print(m.get('key1'))
m.remove('key4')
print("\nPDF - clear example 1")
print("---------------------")
m = HashMap(101, hash_function_1)
print(m.get_size(), m.get_capacity())
m.put('key1', 10)
m.put('key2', 20)
m.put('key1', 30)
print(m.get_size(), m.get_capacity())
m.clear()
print(m.get_size(), m.get_capacity())
print("\nPDF - clear example 2")
print("---------------------")
m = HashMap(53, hash_function_1)
print(m.get_size(), m.get_capacity())
m.put('key1', 10)
print(m.get_size(), m.get_capacity())
m.put('key2', 20)
print(m.get_size(), m.get_capacity())
m.resize_table(100)
print(m.get_size(), m.get_capacity())
m.clear()
print(m.get_size(), m.get_capacity())
print("\nPDF - get_keys_and_values example 1")
print("------------------------")
m = HashMap(11, hash_function_2)
for i in range(1, 6):
m.put(str(i), str(i * 10))
print(m.get_keys_and_values())
m.resize_table(2)
print(m.get_keys_and_values())
m.put('20', '200')
m.remove('1')
m.resize_table(12)
print(m.get_keys_and_values())
print("\nPDF - __iter__(), __next__() example 1")
print("---------------------")
m = HashMap(10, hash_function_1)
for i in range(5):
m.put(str(i), str(i * 10))
print(m)
for item in m:
print('K:', item.key, 'V:', item.value)
print("\nPDF - __iter__(), __next__() example 2")
print("---------------------")
m = HashMap(10, hash_function_2)
for i in range(5):
m.put(str(i), str(i * 24))
m.remove('0')
m.remove('4')
print(m)
for item in m:
print('K:', item.key, 'V:', item.value)