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test_fuzzywuzzy_hypothesis.py
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test_fuzzywuzzy_hypothesis.py
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from itertools import product
from functools import partial
from string import ascii_letters, digits, punctuation
from hypothesis import given, assume, settings
import hypothesis.strategies as st
import pytest
from fuzzywuzzy import fuzz, process, utils
HYPOTHESIS_ALPHABET = ascii_letters + digits + punctuation
def scorers_processors():
"""
Generate a list of (scorer, processor) pairs for testing
:return: [(scorer, processor), ...]
"""
scorers = [fuzz.ratio,
fuzz.partial_ratio]
processors = [lambda x: x,
partial(utils.full_process, force_ascii=False),
partial(utils.full_process, force_ascii=True)]
splist = list(product(scorers, processors))
splist.extend(
[(fuzz.WRatio, partial(utils.full_process, force_ascii=True)),
(fuzz.QRatio, partial(utils.full_process, force_ascii=True)),
(fuzz.UWRatio, partial(utils.full_process, force_ascii=False)),
(fuzz.UQRatio, partial(utils.full_process, force_ascii=False)),
(fuzz.token_set_ratio, partial(utils.full_process, force_ascii=True)),
(fuzz.token_sort_ratio, partial(utils.full_process, force_ascii=True)),
(fuzz.partial_token_set_ratio, partial(utils.full_process, force_ascii=True)),
(fuzz.partial_token_sort_ratio, partial(utils.full_process, force_ascii=True))]
)
return splist
def full_scorers_processors():
"""
Generate a list of (scorer, processor) pairs for testing for scorers that use the full string only
:return: [(scorer, processor), ...]
"""
scorers = [fuzz.ratio]
processors = [lambda x: x,
partial(utils.full_process, force_ascii=False),
partial(utils.full_process, force_ascii=True)]
splist = list(product(scorers, processors))
splist.extend(
[(fuzz.WRatio, partial(utils.full_process, force_ascii=True)),
(fuzz.QRatio, partial(utils.full_process, force_ascii=True)),
(fuzz.UWRatio, partial(utils.full_process, force_ascii=False)),
(fuzz.UQRatio, partial(utils.full_process, force_ascii=False))]
)
return splist
@pytest.mark.parametrize('scorer,processor',
scorers_processors())
@given(data=st.data())
@settings(max_examples=20, deadline=5000)
def test_identical_strings_extracted(scorer, processor, data):
"""
Test that identical strings will always return a perfect match.
:param scorer:
:param processor:
:param data:
:return:
"""
# Draw a list of random strings
strings = data.draw(
st.lists(
st.text(min_size=10, max_size=100, alphabet=HYPOTHESIS_ALPHABET),
min_size=1,
max_size=10
)
)
# Draw a random integer for the index in that list
choiceidx = data.draw(st.integers(min_value=0, max_value=(len(strings) - 1)))
# Extract our choice from the list
choice = strings[choiceidx]
# Check process doesn't make our choice the empty string
assume(processor(choice) != '')
# Extract all perfect matches
result = process.extractBests(choice,
strings,
scorer=scorer,
processor=processor,
score_cutoff=100,
limit=None)
# Check we get a result
assert result != []
# Check the original is in the list
assert (choice, 100) in result
@pytest.mark.parametrize('scorer,processor',
full_scorers_processors())
@given(data=st.data())
@settings(max_examples=20, deadline=5000)
def test_only_identical_strings_extracted(scorer, processor, data):
"""
Test that only identical (post processing) strings score 100 on the test.
If two strings are not identical then using full comparison methods they should
not be a perfect (100) match.
:param scorer:
:param processor:
:param data:
:return:
"""
# Draw a list of random strings
strings = data.draw(
st.lists(
st.text(min_size=10, max_size=100, alphabet=HYPOTHESIS_ALPHABET),
min_size=1,
max_size=10)
)
# Draw a random integer for the index in that list
choiceidx = data.draw(st.integers(min_value=0, max_value=(len(strings) - 1)))
# Extract our choice from the list
choice = strings[choiceidx]
# Check process doesn't make our choice the empty string
assume(processor(choice) != '')
# Extract all perfect matches
result = process.extractBests(choice,
strings,
scorer=scorer,
processor=processor,
score_cutoff=100,
limit=None)
# Check we get a result
assert result != []
# Check THE ONLY result(s) we get are a perfect match for the (processed) original data
pchoice = processor(choice)
for r in result:
assert pchoice == processor(r[0])