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"""Test that values in cells within a line fulfill the required criteria"""
import re
from random import randint
import pytest
from hypothesis import given
from hypothesis import strategies as st
from quality_control.errors import InvalidValue
from quality_control.average import invalid_value as avg_invalid_value
from quality_control.standard_error import invalid_value as se_invalid_value
@pytest.mark.unit_test
@given(num_str=st.from_regex(
r"^(?!(([0-9]+\.([0-9]{3}|[0-9]{6,}))|[0-9]+\.?0*)).*", fullmatch=True))
def test_cell_value_errors_with_invalid_inputs2(num_str):
"""
GIVEN: `num_str` is an arbitrary string that is an invalid input,
WHEN: `num_str` is provided as an argument to `*_invalid_value` functions,
THEN: The `*_invalid_value` functions return a
`quality_control.errors.InvalidValue` object which holds the error
information.
"""
assert avg_invalid_value(0, 0, num_str) == InvalidValue(
0, 0, num_str, (
f"Invalid value '{num_str}'. Expected string representing a number "
"with exactly three decimal places."))
assert se_invalid_value(0, 0, num_str) == InvalidValue(
0, 0, num_str, (
f"Invalid value '{num_str}'. Expected string representing a number "
"with at least six decimal places."))
@given(num_str=st.from_regex(
r"^[0-9]+\.([0-9]{1,2}|[0-9]{4,}$)", fullmatch=True).filter(
lambda param: not re.match(r"^[0-9]+\.0+$", param)))
def test_cell_average_value_errors_if_not_three_decimal_places2(num_str):
"""
GIVEN: `num_str` is a string representing a number with less than or more
than three decimal places, e.g. 2.92, 39.483732
WHEN: `num_str` is provided as an argument to `avg_invalid_value` function,
THEN: `avg_invalid_value` returns a `quality_control.errors.InvalidValue`
object with the information about the placement of the invalid value.
"""
line, col = randint(0, 100), randint(0, 20)
assert avg_invalid_value(line, col, num_str) == InvalidValue(
line, col, num_str, (
f"Invalid value '{num_str}'. Expected string representing a number "
"with exactly three decimal places."))
@given(num_str=st.from_regex(r"^[0-9]+\.[0-9]{3}$", fullmatch=True))
def test_cell_average_value_pass_if_three_decimal_places(num_str):
"""
GIVEN: `num_str` is a string representing a number with exactly three
decimal places, e.g. 2.924, 39.483
WHEN: `num_str` is provided as an argument to `avg_invalid_value` function,
THEN: `avg_invalid_value` returns `None`
"""
line, col = randint(0, 100), randint(0, 20)
assert avg_invalid_value(line, col, num_str) is None
@given(num_str=st.from_regex(r"^[0-9]+\.([0-9]{0,5}$)", fullmatch=True).filter(
lambda param: not re.match(r"^[0-9]+\.?0*$", param)))
def test_cell_standard_error_value_errors_if_less_than_six_decimal_places2(num_str):
"""
GIVEN: `num_str` is a string representing a number with less than six
decimal places, e.g. 2.9, 39.4837
WHEN: `num_str` is provided as an argument to `se_invalid_value` function,
THEN: `se_invalid_value` returns a `quality_control.errors.InvalidValue`
object with the information about the placement of the invalid value.
"""
line, col = randint(0, 100), randint(0, 20)
assert se_invalid_value(line, col, num_str) == InvalidValue(
line, col, num_str, (
f"Invalid value '{num_str}'. Expected string representing a number "
"with at least six decimal places."))
@given(num_str=st.from_regex(r"^[0-9]+\.[0-9]{6,}$", fullmatch=True))
def test_cell_standard_error_value_pass_if_six_or_more_decimal_places(num_str):
"""
GIVEN: `num_str` is a string representing a number with six or more
decimal places, e.g. 2.938434, 39.4837343
WHEN: `num_str` is provided as an argument to `se_invalid_value` function,
THEN: `se_invalid_value` returns `None`
"""
line, col = randint(0, 100), randint(0, 20)
assert se_invalid_value(line, col, num_str) is None
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