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test_bit.py
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test_bit.py
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from algorithms.bit import (
add_bitwise_operator,
count_ones_iter, count_ones_recur,
find_missing_number, find_missing_number2,
is_power_of_two,
reverse_bits,
single_number,
single_number2,
single_number3,
subsets,
get_bit, set_bit, clear_bit, update_bit,
swap_pair,
find_difference,
has_alternative_bit, has_alternative_bit_fast,
insert_one_bit, insert_mult_bits,
remove_bit
)
import unittest
import random
class TestSuite(unittest.TestCase):
def test_add_bitwise_operator(self):
self.assertEqual(5432 + 97823, add_bitwise_operator(5432, 97823))
self.assertEqual(0, add_bitwise_operator(0, 0))
self.assertEqual(10, add_bitwise_operator(10, 0))
self.assertEqual(10, add_bitwise_operator(0, 10))
def test_count_ones_recur(self):
# 8 -> 1000
self.assertEqual(1, count_ones_recur(8))
# 109 -> 1101101
self.assertEqual(5, count_ones_recur(109))
# 63 -> 111111
self.assertEqual(6, count_ones_recur(63))
# 0 -> 0
self.assertEqual(0, count_ones_recur(0))
def test_count_ones_iter(self):
# 8 -> 1000
self.assertEqual(1, count_ones_iter(8))
# 109 -> 1101101
self.assertEqual(5, count_ones_iter(109))
# 63 -> 111111
self.assertEqual(6, count_ones_iter(63))
# 0 -> 0
self.assertEqual(0, count_ones_iter(0))
def setUp(self):
"""Initialize seed."""
random.seed("test")
def test_find_missing_number(self):
self.assertEqual(7, find_missing_number([4, 1, 3, 0, 6, 5, 2]))
self.assertEqual(0, find_missing_number([1]))
self.assertEqual(1, find_missing_number([0]))
nums = [i for i in range(100000) if i != 12345]
random.shuffle(nums)
self.assertEqual(12345, find_missing_number(nums))
def test_find_missing_number2(self):
self.assertEqual(7, find_missing_number2([4, 1, 3, 0, 6, 5, 2]))
self.assertEqual(0, find_missing_number2([1]))
self.assertEqual(1, find_missing_number2([0]))
nums = [i for i in range(100000) if i != 12345]
random.shuffle(nums)
self.assertEqual(12345, find_missing_number2(nums))
def test_is_power_of_two(self):
self.assertTrue(is_power_of_two(64))
self.assertFalse(is_power_of_two(91))
self.assertTrue(is_power_of_two(2**1001))
self.assertTrue(is_power_of_two(1))
self.assertFalse(is_power_of_two(0))
def test_reverse_bits(self):
self.assertEqual(43261596, reverse_bits(964176192))
self.assertEqual(964176192, reverse_bits(43261596))
self.assertEqual(1, reverse_bits(2147483648))
# bin(0) => 00000000000000000000000000000000
self.assertEqual(0, reverse_bits(0))
# bin(2**32 - 1) => 11111111111111111111111111111111
self.assertEqual(2**32 - 1, reverse_bits(2**32 - 1))
def test_single_number(self):
random.seed('test')
self.assertEqual(0, single_number([1, 0, 2, 1, 2, 3, 3]))
self.assertEqual(101, single_number([101]))
single = random.randint(1, 100000)
nums = [random.randint(1, 100000) for _ in range(1000)]
nums *= 2 # nums contains pairs of random integers
nums.append(single)
random.shuffle(nums)
self.assertEqual(single, single_number(nums))
def test_single_number2(self):
self.assertEqual(3, single_number2([4, 2, 3, 2, 1, 1, 4, 2, 4, 1]))
single = random.randint(1, 100000)
nums = [random.randint(1, 100000) for _ in range(1000)]
nums *= 3 # nums contains triplets of random integers
nums.append(single)
random.shuffle(nums)
self.assertEqual(single, single_number2(nums))
def test_single_number3(self):
self.assertEqual(sorted([2,5]),
sorted(single_number3([2, 1, 5, 6, 6, 1])))
self.assertEqual(sorted([4,3]),
sorted(single_number3([9, 9, 4, 3])))
def test_subsets(self):
self.assertSetEqual(subsets([1, 2, 3]),
{(), (1,), (2,), (3,), (1, 2), (1, 3), (2, 3), (1, 2, 3)})
self.assertSetEqual(subsets([10, 20, 30, 40]),
{(10, 40), (10, 20, 40), (10, 30), (10, 20, 30, 40), (40,),
(10, 30, 40), (30,), (20, 30), (30, 40), (10,), (),
(10, 20), (20, 40), (20, 30, 40), (10, 20, 30), (20,)})
def test_get_bit(self):
# 22 = 10110
self.assertEqual(1, get_bit(22, 2))
self.assertEqual(0, get_bit(22, 3))
def test_set_bit(self):
# 22 = 10110 --> after set bit at 3th position: 30 = 11110
self.assertEqual(30, set_bit(22, 3))
def test_clear_bit(self):
# 22 = 10110 --> after clear bit at 2nd position: 20 = 10010
self.assertEqual(18, clear_bit(22, 2))
def test_update_bit(self):
# 22 = 10110 --> after update bit at 3th position with value 1: 30 = 11110
self.assertEqual(30, update_bit(22, 3, 1))
# 22 = 10110 --> after update bit at 2nd position with value 0: 20 = 10010
self.assertEqual(18, update_bit(22, 2, 0))
def test_swap_pair(self):
# 22: 10110 --> 41: 101001
self.assertEqual(41, swap_pair(22))
# 10: 1010 --> 5 : 0101
self.assertEqual(5, swap_pair(10))
def test_find_difference(self):
self.assertEqual('e', find_difference("abcd", "abecd"))
def test_has_alternative_bit(self):
self.assertTrue(has_alternative_bit(5))
self.assertFalse(has_alternative_bit(7))
self.assertFalse(has_alternative_bit(11))
self.assertTrue(has_alternative_bit(10))
def test_has_alternative_bit_fast(self):
self.assertTrue(has_alternative_bit_fast(5))
self.assertFalse(has_alternative_bit_fast(7))
self.assertFalse(has_alternative_bit_fast(11))
self.assertTrue(has_alternative_bit_fast(10))
def test_insert_one_bit(self):
"""
Input: num = 10101 (21)
insert_one_bit(num, 1, 2): 101101 (45)
insert_one_bit(num, 0 ,2): 101001 (41)
insert_one_bit(num, 1, 5): 110101 (53)
insert_one_bit(num, 1, 0): 101010 (42)
"""
self.assertEqual(45, insert_one_bit(21, 1, 2))
self.assertEqual(41, insert_one_bit(21, 0, 2))
self.assertEqual(53, insert_one_bit(21, 1, 5))
self.assertEqual(43, insert_one_bit(21, 1, 0))
def test_insert_mult_bits(self):
"""
Input: num = 101 (5)
insert_mult_bits(num, 7, 3, 1): 101111 (47)
insert_mult_bits(num, 7, 3, 0): 101111 (47)
insert_mult_bits(num, 7, 3, 3): 111101 (61)
"""
self.assertEqual(47, insert_mult_bits(5, 7, 3, 1))
self.assertEqual(47, insert_mult_bits(5, 7, 3, 0))
self.assertEqual(61, insert_mult_bits(5, 7, 3, 3))
def test_remove_bit(self):
"""
Input: num = 10101 (21)
remove_bit(num, 2): output = 1001 (9)
remove_bit(num, 4): output = 101 (5)
remove_bit(num, 0): output = 1010 (10)
"""
self.assertEqual(9, remove_bit(21, 2))
self.assertEqual(5, remove_bit(21, 4))
self.assertEqual(10, remove_bit(21, 0))
if __name__ == '__main__':
unittest.main()