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test_mccabe.py
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test_mccabe.py
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import unittest
import sys
try:
from StringIO import StringIO
except ImportError:
from io import StringIO
import pytest
try:
import hypothesmith
from hypothesis import HealthCheck, given, settings, strategies as st
except ImportError:
hypothesmith = None
import mccabe
from mccabe import get_code_complexity
# Snippets are put outside of testcases because of spacing issue that would
# otherwise occur with triple quoted strings.
trivial = 'def f(): pass'
expr_as_statement = '''\
def f():
0xF00D
'''
sequential = """\
def f(n):
k = n + 4
s = k + n
return s
"""
sequential_unencapsulated = """\
k = 2 + 4
s = k + 3
"""
if_elif_else_dead_path = """\
def f(n):
if n > 3:
return "bigger than three"
elif n > 4:
return "is never executed"
else:
return "smaller than or equal to three"
"""
for_loop = """\
def f():
for i in range(10):
print(i)
"""
for_else = """\
def f(mylist):
for i in mylist:
print(i)
else:
print(None)
"""
recursive = """\
def f(n):
if n > 4:
return f(n - 1)
else:
return n
"""
nested_functions = """\
def a():
def b():
def c():
pass
c()
b()
"""
try_else = """\
try:
print(1)
except TypeA:
print(2)
except TypeB:
print(3)
else:
print(4)
"""
async_keywords = """\
async def foobar(a, b, c):
await whatever(a, b, c)
if await b:
pass
async with c:
pass
async for x in a:
pass
"""
annotated_assign = """\
def f():
x: Any = None
"""
def get_complexity_number(snippet, strio, max=0):
"""Get the complexity number from the printed string."""
# Report from the lowest complexity number.
get_code_complexity(snippet, max)
strio_val = strio.getvalue()
if strio_val:
return int(strio_val.split()[-1].strip("()"))
else:
return None
class McCabeTestCase(unittest.TestCase):
def setUp(self):
# If not assigned to sys.stdout then getvalue() won't capture anything.
self._orig_stdout = sys.stdout
sys.stdout = self.strio = StringIO()
def tearDown(self):
# https://mail.python.org/pipermail/tutor/2012-January/088031.html
self.strio.close()
sys.stdout = self._orig_stdout
def assert_complexity(self, snippet, max):
complexity = get_complexity_number(snippet, self.strio)
self.assertEqual(complexity, max)
# should have the same complexity when inside a function as well.
infunc = 'def f():\n ' + snippet.replace('\n', '\n ')
complexity = get_complexity_number(infunc, self.strio)
self.assertEqual(complexity, max)
def test_print_message(self):
get_code_complexity(sequential, 0)
printed_message = self.strio.getvalue()
self.assertEqual(printed_message,
"stdin:1:1: C901 'f' is too complex (1)\n")
def test_sequential_snippet(self):
complexity = get_complexity_number(sequential, self.strio)
self.assertEqual(complexity, 1)
def test_sequential_unencapsulated_snippet(self):
complexity = get_complexity_number(sequential_unencapsulated,
self.strio)
self.assertEqual(complexity, None)
def test_if_elif_else_dead_path_snippet(self):
complexity = get_complexity_number(if_elif_else_dead_path, self.strio)
# Paths that will never be executed are counted!
self.assertEqual(complexity, 3)
def test_for_loop_snippet(self):
complexity = get_complexity_number(for_loop, self.strio)
# The for loop adds an execution path; sometimes it won't be run.
self.assertEqual(complexity, 2)
def test_for_else_snippet(self):
complexity = get_complexity_number(for_else, self.strio)
# The for loop doesn't add an execution path, but its `else` does
self.assertEqual(complexity, 2)
def test_recursive_snippet(self):
complexity = get_complexity_number(recursive, self.strio)
self.assertEqual(complexity, 2)
def test_nested_functions_snippet(self):
complexity = get_complexity_number(nested_functions, self.strio)
self.assertEqual(complexity, 3)
def test_trivial(self):
"""The most-trivial program should pass a max-complexity=1 test"""
complexity = get_complexity_number(trivial, self.strio, max=1)
self.assertEqual(complexity, None)
printed_message = self.strio.getvalue()
self.assertEqual(printed_message, "")
def test_expr_as_statement(self):
complexity = get_complexity_number(expr_as_statement, self.strio)
self.assertEqual(complexity, 1)
def test_try_else(self):
self.assert_complexity(try_else, 4)
@pytest.mark.skipif(sys.version_info < (3, 5),
reason="Async keywords are only valid on Python 3.5+")
def test_async_keywords(self):
"""Validate that we properly process async keyword usage."""
complexity = get_complexity_number(async_keywords, self.strio)
self.assertEqual(complexity, 3)
@pytest.mark.skipif(
sys.version_info < (3, 6),
reason="Annotated assignments are only valid on Python 3.6+",
)
def test_annotated_assignment(self):
complexity = get_complexity_number(annotated_assign, self.strio)
self.assertEqual(complexity, 1)
class RegressionTests(unittest.TestCase):
def setUp(self):
self.original_complexity = mccabe.McCabeChecker.max_complexity
def tearDown(self):
mccabe.McCabeChecker.max_complexity = self.original_complexity
def test_max_complexity_is_always_an_int(self):
"""Ensure bug #32 does not regress."""
class _options(object):
max_complexity = None
options = _options()
options.max_complexity = '16'
self.assertEqual(0, mccabe.McCabeChecker.max_complexity)
mccabe.McCabeChecker.parse_options(options)
self.assertEqual(16, mccabe.McCabeChecker.max_complexity)
def test_get_module_complexity(self):
self.assertEqual(0, mccabe.get_module_complexity("mccabe.py"))
# This test uses the Hypothesis and Hypothesmith libraries to generate random
# syntatically-valid Python source code and applies McCabe on it.
@settings(
max_examples=1000, # roughly 1k tests/minute, or half that under coverage
derandomize=False, # deterministic mode to avoid CI flakiness
deadline=None, # ignore Hypothesis' health checks; we already know that
suppress_health_check=HealthCheck.all(), # this is slow and filter-heavy.
)
@given(
# Note that while Hypothesmith might generate code unlike that written by
# humans, it's a general test that should pass for any *valid* source code.
# (so e.g. running it against code scraped of the internet might also help)
src_contents=hypothesmith.from_grammar() | hypothesmith.from_node(),
max_complexity=st.integers(min_value=1),
)
@pytest.mark.skipif(not hypothesmith, reason="hypothesmith could not be imported")
def test_idempotent_any_syntatically_valid_python(
src_contents: str, max_complexity: int
) -> None:
"""Property-based tests for mccabe.
This test case is based on a similar test for Black, the code formatter.
Black's test was written by Zac Hatfield-Dodds, the author of Hypothesis
and the Hypothesmith tool for source code generation. You can run this
file with `python`, `pytest`, or (soon) a coverage-guided fuzzer Zac is
working on.
"""
# Before starting, let's confirm that the input string is valid Python:
compile(src_contents, "<string>", "exec") # else bug is in hypothesmith
# Then try to apply get_complexity_number to the code...
get_code_complexity(src_contents, max_complexity)
if __name__ == "__main__":
test_idempotent_any_syntatically_valid_python()
unittest.main()