Ejemplo n.º 1
0
    def test_hamming_dist_timing(self):
        list_of_strings = [string_generator() for i in range(10)]
        print(list_of_strings)

        string_result = []
        string_start = time.process_time_ns()
        for s1 in list_of_strings:
            for s2 in list_of_strings:
                string_result.append(naive_hamming_distance(s1, s2))
        string_end = time.process_time_ns()
        print(f'no of mismatches = {string_result}')
        print("string hamming: {:,}".format(string_end - string_start))

        binary_result = []
        binary_start = time.process_time_ns()
        for s1 in list_of_strings:
            for s2 in list_of_strings:
                binary_result.append(hamming_distance(s1, s2))
        binary_end = time.process_time_ns()
        print("binary hamming: {:,}".format(binary_end - binary_start))

        list_of_preprocessed_binaries = []
        for s in list_of_strings:
            list_of_preprocessed_binaries.append(string_to_hamming_binary(s))

        binary_result_pre = []
        binary_start_pre = time.process_time_ns()
        for s1 in list_of_preprocessed_binaries:
            for s2 in list_of_preprocessed_binaries:
                binary_result_pre.append(binary_hamming_dist_calc(s1, s2))
        binary_end_pre = time.process_time_ns()
        print("prepro hamming: {:,}".format(binary_end_pre - binary_start_pre))
        self.assertEqual(string_result, binary_result)
        self.assertEqual(binary_result_pre, binary_result)
Ejemplo n.º 2
0
 def test_hamming_dist_all_different(self):
     s1 = 'CAT'
     s2 = 'GGG'
     expected_dist = 3
     actual_dist = naive_hamming_distance(s1, s2)
     self.assertEqual(expected_dist, actual_dist)
     actual_dist = hamming_distance(s1, s2)
     self.assertEqual(expected_dist, actual_dist)
Ejemplo n.º 3
0
 def test_hamming_dist_same(self):
     s1 = 'CAT'
     s2 = 'CAT'
     expected_dist = 0
     actual_dist = naive_hamming_distance(s1, s2)
     self.assertEqual(expected_dist, actual_dist)
     actual_dist = hamming_distance(s1, s2)
     self.assertEqual(expected_dist, actual_dist)
Ejemplo n.º 4
0
 def test_haystack_generator(self):
     string_length = 6
     expected_dist = 3
     haystack = string_generator(string_length)
     needle = string_mutator(haystack, expected_dist)
     actual_dist = naive_hamming_distance(needle, haystack)
     self.assertEqual(expected_dist, actual_dist)
     actual_dist = hamming_distance(needle, haystack)
     self.assertEqual(expected_dist, actual_dist)
Ejemplo n.º 5
0
def string_time():
    SETUP_CODE = ''' 
from hamming import naive_hamming_distance 
from random import choice
from __main__ import string_generator
list_of_strings1 = [string_generator() for i in range(10)]
list_of_strings2 = [string_generator() for i in range(10)]'''

    TEST_CODE = ''' 
s1 = choice(list_of_strings1)
s2 = choice(list_of_strings2)
naive_hamming_distance(s1, s2)
    '''
    # timeit.repeat statement
    times = timeit.repeat(setup=SETUP_CODE,
                          stmt=TEST_CODE,
                          repeat=3,
                          number=10000)

    # printing minimum exec. time
    print('Standard hamming string search time: {}'.format(min(times)))
Ejemplo n.º 6
0
                          repeat=10,
                          number=10000)

    # printing minimum exec. time
    print(
        'Binary hamming string search time (not including preprocessing): {}'.
        format(min(times)))


# Validate that my alternative approach gives the same result as naive_hamming_distance(s1,s2)
from timming import timming_distance
list_of_strings1 = [string_generator() for i in range(10)]
list_of_strings2 = [string_generator() for i in range(10)]
for s1 in list_of_strings1:
    for s2 in list_of_strings2:
        assert timming_distance(s1, s2) == naive_hamming_distance(s1, s2)


# compute binary hamming time (using the Tim-hamming method)
def timming_preprocessed_time():
    SETUP_CODE_PREPROCESSED_BINARY = '''
from timming import string_to_bin, hamming_dist_calc
from random import choice
from __main__ import string_generator, length_of_strings, number_of_strings
list_of_binary_strings1 = [string_to_bin(string_generator(length_of_strings)) for i in range(number_of_strings)]
list_of_binary_strings2 = [string_to_bin(string_generator(length_of_strings)) for i in range(number_of_strings)]'''

    TEST_CODE = '''
s1 = choice(list_of_binary_strings1)
s2 = choice(list_of_binary_strings2)
hamming_dist_calc(s1, s2)