"""pytest configuration Extends output capture as needed by pybind11: ignore constructors, optional unordered lines. Adds docstring and exceptions message sanitizers: ignore Python 2 vs 3 differences. """ import pytest import textwrap import difflib import re import sys import contextlib import platform import gc _unicode_marker = re.compile(r'u(\'[^\']*\')') _long_marker = re.compile(r'([0-9])L') _hexadecimal = re.compile(r'0x[0-9a-fA-F]+') # test_async.py requires support for async and await collect_ignore = [] if sys.version_info[:2] < (3, 5): collect_ignore.append("test_async.py") def _strip_and_dedent(s): """For triple-quote strings""" return textwrap.dedent(s.lstrip('\n').rstrip()) def _split_and_sort(s): """For output which does not require specific line order""" return sorted(_strip_and_dedent(s).splitlines()) def _make_explanation(a, b): """Explanation for a failed assert -- the a and b arguments are List[str]""" return ["--- actual / +++ expected"] + [line.strip('\n') for line in difflib.ndiff(a, b)] class Output(object): """Basic output post-processing and comparison""" def __init__(self, string): self.string = string self.explanation = [] def __str__(self): return self.string def __eq__(self, other): # Ignore constructor/destructor output which is prefixed with "###" a = [line for line in self.string.strip().splitlines() if not line.startswith("###")] b = _strip_and_dedent(other).splitlines() if a == b: return True else: self.explanation = _make_explanation(a, b) return False class Unordered(Output): """Custom comparison for output without strict line ordering""" def __eq__(self, other): a = _split_and_sort(self.string) b = _split_and_sort(other) if a == b: return True else: self.explanation = _make_explanation(a, b) return False class Capture(object): def __init__(self, capfd): self.capfd = capfd self.out = "" self.err = "" def __enter__(self): self.capfd.readouterr() return self def __exit__(self, *args): self.out, self.err = self.capfd.readouterr() def __eq__(self, other): a = Output(self.out) b = other if a == b: return True else: self.explanation = a.explanation return False def __str__(self): return self.out def __contains__(self, item): return item in self.out @property def unordered(self): return Unordered(self.out) @property def stderr(self): return Output(self.err) @pytest.fixture def capture(capsys): """Extended `capsys` with context manager and custom equality operators""" return Capture(capsys) class SanitizedString(object): def __init__(self, sanitizer): self.sanitizer = sanitizer self.string = "" self.explanation = [] def __call__(self, thing): self.string = self.sanitizer(thing) return self def __eq__(self, other): a = self.string b = _strip_and_dedent(other) if a == b: return True else: self.explanation = _make_explanation(a.splitlines(), b.splitlines()) return False def _sanitize_general(s): s = s.strip() s = s.replace("pybind11_tests.", "m.") s = s.replace("unicode", "str") s = _long_marker.sub(r"\1", s) s = _unicode_marker.sub(r"\1", s) return s def _sanitize_docstring(thing): s = thing.__doc__ s = _sanitize_general(s) return s @pytest.fixture def doc(): """Sanitize docstrings and add custom failure explanation""" return SanitizedString(_sanitize_docstring) def _sanitize_message(thing): s = str(thing) s = _sanitize_general(s) s = _hexadecimal.sub("0", s) return s @pytest.fixture def msg(): """Sanitize messages and add custom failure explanation""" return SanitizedString(_sanitize_message) # noinspection PyUnusedLocal def pytest_assertrepr_compare(op, left, right): """Hook to insert custom failure explanation""" if hasattr(left, 'explanation'): return left.explanation @contextlib.contextmanager def suppress(exception): """Suppress the desired exception""" try: yield except exception: pass def gc_collect(): ''' Run the garbage collector twice (needed when running reference counting tests with PyPy) ''' gc.collect() gc.collect() def pytest_configure(): """Add import suppression and test requirements to `pytest` namespace""" try: import numpy as np except ImportError: np = None try: import scipy except ImportError: scipy = None try: from pybind11_tests.eigen import have_eigen except ImportError: have_eigen = False pypy = platform.python_implementation() == "PyPy" skipif = pytest.mark.skipif pytest.suppress = suppress pytest.requires_numpy = skipif(not np, reason="numpy is not installed") pytest.requires_scipy = skipif(not np, reason="scipy is not installed") pytest.requires_eigen_and_numpy = skipif(not have_eigen or not np, reason="eigen and/or numpy are not installed") pytest.requires_eigen_and_scipy = skipif( not have_eigen or not scipy, reason="eigen and/or scipy are not installed") pytest.unsupported_on_pypy = skipif(pypy, reason="unsupported on PyPy") pytest.unsupported_on_py2 = skipif(sys.version_info.major < 3, reason="unsupported on Python 2.x") pytest.gc_collect = gc_collect def _test_import_pybind11(): """Early diagnostic for test module initialization errors When there is an error during initialization, the first import will report the real error while all subsequent imports will report nonsense. This import test is done early (in the pytest configuration file, before any tests) in order to avoid the noise of having all tests fail with identical error messages. Any possible exception is caught here and reported manually *without* the stack trace. This further reduces noise since the trace would only show pytest internals which are not useful for debugging pybind11 module issues. """ # noinspection PyBroadException try: import pybind11_tests # noqa: F401 imported but unused except Exception as e: print("Failed to import pybind11_tests from pytest:") print(" {}: {}".format(type(e).__name__, e)) sys.exit(1) _test_import_pybind11()