def test_sumLucTest(): actual = sum_series(6, 2, 1) value = 11 assert actual == value # def test_sum_series_with_optional_arguments_for_lucas_at_3(): # actual = sum_series(3, 2, 1) # value = 3 # assert actual == value
def test(): expected = { 'fibonacci-4': 3, 'fibonacci-6': 8, 'fibonacci-8': 21, 'lucas-4': 7, 'lucas-6': 18, 'lucas-8': 47, 'series_fibonacci-4': 3, 'series_fibonacci-6': 8, 'series_fibonacci-8': 21, 'series_lucas-4': 7, 'series_lucas-6': 18, 'series_lucas-8': 47, 'series_other-4': 27, 'series_other-6': 71, 'series_other-8': 186, } actual = {} number = 4 for i in range(15): if i <= 2: actual[f"fibonacci-{number}"] = fibonacci(number) elif i <= 5: actual[f"lucas-{number}"] = lucas(number) elif i <= 8: actual[f"series_fibonacci-{number}"] = sum_series(number) elif i <= 11: actual[f"series_lucas-{number}"] = sum_series(number, 2, 1) else: actual[f"series_other-{number}"] = sum_series(number, 3, 7) if number == 8: number = 4 else: number += 2 assert actual == expected
def test_sumLucas5(): actual = sum_series(5,2,1) expected = 7 assert actual == expected # def test_sum1(): # actual = sum_series(1) # expected = 1 # assert actual == expected # def test_sum2(): # actual = sum_series(5, 2, 1) # expected = 1 # assert actual == expected
def test_sum_2(): expected = 4 actual = sum_series(2, 0, 0) assert actual == expected
def test_sum_0(): expected = 0 actual = sum_series(0, 0, 0) assert actual == expected
def test_sum_series_with_lucas_arguments_at_3(): actual = sum_series(3, 2, 1) value = 3 assert actual == value
def test_both_3(): output = sum_series(0, 0, 1) assert 0 == output
def test_both_1(): output = sum_series(0) assert 0 == output
def test_sumseries_zero(): actual = sum_series(0) expected = 0 assert actual == expected
def test_sum_series_one_testlucas(a=2, b=1): expected = 1 actual = sum_series(1, a, b) assert actual == expected
def test_sum_series_zero_testlucas(a=2, b=1): expected = 2 actual = sum_series(0, a, b) assert actual == expected
def test_four(): actual = sum_series(3, 2, 1) expected = 4 assert actual == expected
def test_sum_series_fail_3(self): actual = sum_series(22) expected = 22 assert actual != expected
def test_sum_series_fail_2(self): actual = sum_series(-1) expected = -1 assert actual != expected
def test_sum_series_fail_1(self): actual = sum_series(3) expected = 2 assert actual != expected
def test_sumseries_luc(): actual = sum_series(4, 2, 1) expected = 7 assert actual == expected
def test_sumseries_20_luc(): actual = sum_series(20, 2, 1) expected = 15127 assert actual == expected
def test_sum_series_nth(): for x in range(2, 30): expected = sum_series(x - 1) + sum_series(x - 2) actual = sum_series(x) assert actual == expected
def test_sumseries_one(): actual = sum_series(1) expected = 1 assert actual == expected
def test_sumseries_two(): actual = sum_series(2) expected = 1 assert actual == expected
def test_both_2(): output = sum_series(0, 2, 1) assert 2 == output
def test_sumseries_three(): actual = sum_series(3) expected = 2 assert actual == expected
def test_sum_series_at_7(): actual = sum_series(7) value = 8 assert actual == value
def test_sumseries_four(): actual = sum_series(4) expected = 3 assert actual == expected
def test_sum_series_with_optional_arguments_at_5(): actual = sum_series(5, 3, 5) value = 21 assert actual == value
def test_sumseries_five(): actual = sum_series(5) expected = 5 assert actual == expected
def test_sum_1(): expected = 2 actual = sum_series(2, 0, 2) assert actual == expected
def test_sumseries_20(): actual = sum_series(20) expected = 6765 assert actual == expected
def test_sum_3(): expected = 2 actual = sum_series(3, 0, 0) assert actual == expected
def test_sumseries_zero_luc(): actual = sum_series(0, 2, 1) expected = 2 assert actual == expected