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path: root/library/python/testing/yatest_lib/tests/test_testsplitter.py
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# coding: utf-8 
from yatest_lib import test_splitter 
 
 
def get_chunks(tests, modulo, mode): 
    chunks = [] 
    if mode == "MODULO": 
        for modulo_index in range(modulo): 
            chunks.append(test_splitter.get_shuffled_chunk(tests, modulo, modulo_index)) 
    elif mode == "SEQUENTIAL": 
        for modulo_index in range(modulo): 
            chunks.append(test_splitter.get_sequential_chunk(tests, modulo, modulo_index)) 
    else: 
        raise ValueError("no such mode") 
    return chunks 
 
 
def check_not_intersect(chunk_list): 
    test_set = set() 
    total_size = 0 
    for tests in chunk_list: 
        total_size += len(tests) 
        test_set.update(tests) 
    return total_size == len(test_set) 
 
 
def check_max_diff(chunk_list): 
    return max(map(len, chunk_list)) - min(map(len, chunk_list)) 
 
 
def test_lot_of_chunks(): 
    for chunk_count in range(10, 20): 
        for tests_count in range(chunk_count): 
            chunks = get_chunks(range(tests_count), chunk_count, "SEQUENTIAL") 
            assert check_not_intersect(chunks) 
            assert check_max_diff(chunks) <= 1 
            assert chunks.count([]) == chunk_count - tests_count 
            assert len(chunks) == chunk_count 
            chunks = get_chunks(range(tests_count), chunk_count, "MODULO") 
            assert check_not_intersect(chunks) 
            assert check_max_diff(chunks) <= 1 
            assert chunks.count([]) == chunk_count - tests_count 
            assert len(chunks) == chunk_count 
 
 
def test_lot_of_tests(): 
    for tests_count in range(10, 20): 
        for chunk_count in range(2, tests_count): 
            chunks = get_chunks(range(tests_count), chunk_count, "SEQUENTIAL") 
            assert check_not_intersect(chunks) 
            assert check_max_diff(chunks) <= 1 
            assert len(chunks) == chunk_count 
            chunks = get_chunks(range(tests_count), chunk_count, "MODULO") 
            assert check_not_intersect(chunks) 
            assert check_max_diff(chunks) <= 1 
            assert len(chunks) == chunk_count 
 
 
def prime_chunk_count(): 
    for chunk_count in [7, 11, 13, 17, 23, 29]: 
        for tests_count in range(chunk_count): 
            chunks = get_chunks(range(tests_count), chunk_count, "SEQUENTIAL") 
            assert check_not_intersect(chunks) 
            assert check_max_diff(chunks) <= 1 
            assert len(chunks) == chunk_count 
            chunks = get_chunks(range(tests_count), chunk_count, "MODULO") 
            assert check_not_intersect(chunks) 
            assert check_max_diff(chunks) <= 1 
            assert len(chunks) == chunk_count 
 
 
def get_divisors(number): 
    divisors = [] 
    for d in range(1, number + 1): 
        if number % d == 0: 
            divisors.append(d) 
    return divisors 
 
 
def equal_chunks(): 
    for chunk_count in range(12, 31): 
        for tests_count in get_divisors(chunk_count): 
            chunks = get_chunks(range(tests_count), chunk_count, "SEQUENTIAL") 
            assert check_not_intersect(chunks) 
            assert check_max_diff(chunks) == 0 
            assert len(chunks) == chunk_count 
            chunks = get_chunks(range(tests_count), chunk_count, "MODULO") 
            assert check_not_intersect(chunks) 
            assert check_max_diff(chunks) == 0 
            assert len(chunks) == chunk_count 
 
 
def chunk_count_equal_tests_count(): 
    for chunk_count in range(10, 20): 
        tests_count = chunk_count 
        chunks = get_chunks(range(tests_count), chunk_count, "SEQUENTIAL") 
        assert check_not_intersect(chunks) 
        assert check_max_diff(chunks) <= 1 
        assert len(chunks) == chunk_count 
        chunks = get_chunks(range(tests_count), chunk_count, "MODULO") 
        assert check_not_intersect(chunks) 
        assert check_max_diff(chunks) <= 1 
        assert len(chunks) == chunk_count