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cobalt / cobalt / b95ea55ccebda33f820d043e4b4dc85c10d7584d / . / third_party / web_platform_tests / tools / pytest / testing / test_capture.py
blob: 73660692b8e9f8b3989dce3a0d4f1fbc418d6154 [file] [log] [blame]
# note: py.io capture tests where copied from
# pylib 1.4.20.dev2 (rev 13d9af95547e)
from __future__ import with_statement
import pickle
import os
import sys
import _pytest._code
import py
import pytest
import contextlib
from _pytest import capture
from _pytest.capture import CaptureManager
from _pytest.main import EXIT_NOTESTSCOLLECTED
from py.builtin import print_
needsosdup = pytest.mark.xfail("not hasattr(os, 'dup')")
if sys.version_info >= (3, 0):
def tobytes(obj):
if isinstance(obj, str):
obj = obj.encode('UTF-8')
assert isinstance(obj, bytes)
return obj
def totext(obj):
if isinstance(obj, bytes):
obj = str(obj, 'UTF-8')
assert isinstance(obj, str)
return obj
else:
def tobytes(obj):
if isinstance(obj, unicode):
obj = obj.encode('UTF-8')
assert isinstance(obj, str)
return obj
def totext(obj):
if isinstance(obj, str):
obj = unicode(obj, 'UTF-8')
assert isinstance(obj, unicode)
return obj
def oswritebytes(fd, obj):
os.write(fd, tobytes(obj))
def StdCaptureFD(out=True, err=True, in_=True):
return capture.MultiCapture(out, err, in_, Capture=capture.FDCapture)
def StdCapture(out=True, err=True, in_=True):
return capture.MultiCapture(out, err, in_, Capture=capture.SysCapture)
class TestCaptureManager:
def test_getmethod_default_no_fd(self, monkeypatch):
from _pytest.capture import pytest_addoption
from _pytest.config import Parser
parser = Parser()
pytest_addoption(parser)
default = parser._groups[0].options[0].default
assert default == "fd" if hasattr(os, "dup") else "sys"
parser = Parser()
monkeypatch.delattr(os, 'dup', raising=False)
pytest_addoption(parser)
assert parser._groups[0].options[0].default == "sys"
@needsosdup
@pytest.mark.parametrize("method",
['no', 'sys', pytest.mark.skipif('not hasattr(os, "dup")', 'fd')])
def test_capturing_basic_api(self, method):
capouter = StdCaptureFD()
old = sys.stdout, sys.stderr, sys.stdin
try:
capman = CaptureManager(method)
capman.init_capturings()
outerr = capman.suspendcapture()
assert outerr == ("", "")
outerr = capman.suspendcapture()
assert outerr == ("", "")
print ("hello")
out, err = capman.suspendcapture()
if method == "no":
assert old == (sys.stdout, sys.stderr, sys.stdin)
else:
assert not out
capman.resumecapture()
print ("hello")
out, err = capman.suspendcapture()
if method != "no":
assert out == "hello\n"
capman.reset_capturings()
finally:
capouter.stop_capturing()
@needsosdup
def test_init_capturing(self):
capouter = StdCaptureFD()
try:
capman = CaptureManager("fd")
capman.init_capturings()
pytest.raises(AssertionError, "capman.init_capturings()")
capman.reset_capturings()
finally:
capouter.stop_capturing()
@pytest.mark.parametrize("method", ['fd', 'sys'])
def test_capturing_unicode(testdir, method):
if hasattr(sys, "pypy_version_info") and sys.pypy_version_info < (2,2):
pytest.xfail("does not work on pypy < 2.2")
if sys.version_info >= (3, 0):
obj = "'b\u00f6y'"
else:
obj = "u'\u00f6y'"
testdir.makepyfile("""
# coding=utf8
# taken from issue 227 from nosetests
def test_unicode():
import sys
print (sys.stdout)
print (%s)
""" % obj)
result = testdir.runpytest("--capture=%s" % method)
result.stdout.fnmatch_lines([
"*1 passed*"
])
@pytest.mark.parametrize("method", ['fd', 'sys'])
def test_capturing_bytes_in_utf8_encoding(testdir, method):
testdir.makepyfile("""
def test_unicode():
print ('b\\u00f6y')
""")
result = testdir.runpytest("--capture=%s" % method)
result.stdout.fnmatch_lines([
"*1 passed*"
])
def test_collect_capturing(testdir):
p = testdir.makepyfile("""
print ("collect %s failure" % 13)
import xyz42123
""")
result = testdir.runpytest(p)
result.stdout.fnmatch_lines([
"*Captured stdout*",
"*collect 13 failure*",
])
class TestPerTestCapturing:
def test_capture_and_fixtures(self, testdir):
p = testdir.makepyfile("""
def setup_module(mod):
print ("setup module")
def setup_function(function):
print ("setup " + function.__name__)
def test_func1():
print ("in func1")
assert 0
def test_func2():
print ("in func2")
assert 0
""")
result = testdir.runpytest(p)
result.stdout.fnmatch_lines([
"setup module*",
"setup test_func1*",
"in func1*",
"setup test_func2*",
"in func2*",
])
@pytest.mark.xfail(reason="unimplemented feature")
def test_capture_scope_cache(self, testdir):
p = testdir.makepyfile("""
import sys
def setup_module(func):
print ("module-setup")
def setup_function(func):
print ("function-setup")
def test_func():
print ("in function")
assert 0
def teardown_function(func):
print ("in teardown")
""")
result = testdir.runpytest(p)
result.stdout.fnmatch_lines([
"*test_func():*",
"*Captured stdout during setup*",
"module-setup*",
"function-setup*",
"*Captured stdout*",
"in teardown*",
])
def test_no_carry_over(self, testdir):
p = testdir.makepyfile("""
def test_func1():
print ("in func1")
def test_func2():
print ("in func2")
assert 0
""")
result = testdir.runpytest(p)
s = result.stdout.str()
assert "in func1" not in s
assert "in func2" in s
def test_teardown_capturing(self, testdir):
p = testdir.makepyfile("""
def setup_function(function):
print ("setup func1")
def teardown_function(function):
print ("teardown func1")
assert 0
def test_func1():
print ("in func1")
pass
""")
result = testdir.runpytest(p)
result.stdout.fnmatch_lines([
'*teardown_function*',
'*Captured stdout*',
"setup func1*",
"in func1*",
"teardown func1*",
#"*1 fixture failure*"
])
def test_teardown_capturing_final(self, testdir):
p = testdir.makepyfile("""
def teardown_module(mod):
print ("teardown module")
assert 0
def test_func():
pass
""")
result = testdir.runpytest(p)
result.stdout.fnmatch_lines([
"*def teardown_module(mod):*",
"*Captured stdout*",
"*teardown module*",
"*1 error*",
])
def test_capturing_outerr(self, testdir):
p1 = testdir.makepyfile("""
import sys
def test_capturing():
print (42)
sys.stderr.write(str(23))
def test_capturing_error():
print (1)
sys.stderr.write(str(2))
raise ValueError
""")
result = testdir.runpytest(p1)
result.stdout.fnmatch_lines([
"*test_capturing_outerr.py .F",
"====* FAILURES *====",
"____*____",
"*test_capturing_outerr.py:8: ValueError",
"*--- Captured stdout *call*",
"1",
"*--- Captured stderr *call*",
"2",
])
class TestLoggingInteraction:
def test_logging_stream_ownership(self, testdir):
p = testdir.makepyfile("""
def test_logging():
import logging
import pytest
stream = capture.TextIO()
logging.basicConfig(stream=stream)
stream.close() # to free memory/release resources
""")
result = testdir.runpytest_subprocess(p)
result.stderr.str().find("atexit") == -1
def test_logging_and_immediate_setupteardown(self, testdir):
p = testdir.makepyfile("""
import logging
def setup_function(function):
logging.warn("hello1")
def test_logging():
logging.warn("hello2")
assert 0
def teardown_function(function):
logging.warn("hello3")
assert 0
""")
for optargs in (('--capture=sys',), ('--capture=fd',)):
print (optargs)
result = testdir.runpytest_subprocess(p, *optargs)
s = result.stdout.str()
result.stdout.fnmatch_lines([
"*WARN*hello3", # errors show first!
"*WARN*hello1",
"*WARN*hello2",
])
# verify proper termination
assert "closed" not in s
def test_logging_and_crossscope_fixtures(self, testdir):
p = testdir.makepyfile("""
import logging
def setup_module(function):
logging.warn("hello1")
def test_logging():
logging.warn("hello2")
assert 0
def teardown_module(function):
logging.warn("hello3")
assert 0
""")
for optargs in (('--capture=sys',), ('--capture=fd',)):
print (optargs)
result = testdir.runpytest_subprocess(p, *optargs)
s = result.stdout.str()
result.stdout.fnmatch_lines([
"*WARN*hello3", # errors come first
"*WARN*hello1",
"*WARN*hello2",
])
# verify proper termination
assert "closed" not in s
def test_logging_initialized_in_test(self, testdir):
p = testdir.makepyfile("""
import sys
def test_something():
# pytest does not import logging
assert 'logging' not in sys.modules
import logging
logging.basicConfig()
logging.warn("hello432")
assert 0
""")
result = testdir.runpytest_subprocess(
p, "--traceconfig",
"-p", "no:capturelog")
assert result.ret != 0
result.stdout.fnmatch_lines([
"*hello432*",
])
assert 'operation on closed file' not in result.stderr.str()
def test_conftestlogging_is_shown(self, testdir):
testdir.makeconftest("""
import logging
logging.basicConfig()
logging.warn("hello435")
""")
# make sure that logging is still captured in tests
result = testdir.runpytest_subprocess("-s", "-p", "no:capturelog")
assert result.ret == EXIT_NOTESTSCOLLECTED
result.stderr.fnmatch_lines([
"WARNING*hello435*",
])
assert 'operation on closed file' not in result.stderr.str()
def test_conftestlogging_and_test_logging(self, testdir):
testdir.makeconftest("""
import logging
logging.basicConfig()
""")
# make sure that logging is still captured in tests
p = testdir.makepyfile("""
def test_hello():
import logging
logging.warn("hello433")
assert 0
""")
result = testdir.runpytest_subprocess(p, "-p", "no:capturelog")
assert result.ret != 0
result.stdout.fnmatch_lines([
"WARNING*hello433*",
])
assert 'something' not in result.stderr.str()
assert 'operation on closed file' not in result.stderr.str()
class TestCaptureFixture:
@pytest.mark.parametrize("opt", [[], ["-s"]])
def test_std_functional(self, testdir, opt):
reprec = testdir.inline_runsource("""
def test_hello(capsys):
print (42)
out, err = capsys.readouterr()
assert out.startswith("42")
""", *opt)
reprec.assertoutcome(passed=1)
def test_capsyscapfd(self, testdir):
p = testdir.makepyfile("""
def test_one(capsys, capfd):
pass
def test_two(capfd, capsys):
pass
""")
result = testdir.runpytest(p)
result.stdout.fnmatch_lines([
"*ERROR*setup*test_one*",
"*capsys*capfd*same*time*",
"*ERROR*setup*test_two*",
"*capsys*capfd*same*time*",
"*2 error*"])
@pytest.mark.parametrize("method", ["sys", "fd"])
def test_capture_is_represented_on_failure_issue128(self, testdir, method):
p = testdir.makepyfile("""
def test_hello(cap%s):
print ("xxx42xxx")
assert 0
""" % method)
result = testdir.runpytest(p)
result.stdout.fnmatch_lines([
"xxx42xxx",
])
@needsosdup
def test_stdfd_functional(self, testdir):
reprec = testdir.inline_runsource("""
def test_hello(capfd):
import os
os.write(1, "42".encode('ascii'))
out, err = capfd.readouterr()
assert out.startswith("42")
capfd.close()
""")
reprec.assertoutcome(passed=1)
def test_partial_setup_failure(self, testdir):
p = testdir.makepyfile("""
def test_hello(capsys, missingarg):
pass
""")
result = testdir.runpytest(p)
result.stdout.fnmatch_lines([
"*test_partial_setup_failure*",
"*1 error*",
])
@needsosdup
def test_keyboardinterrupt_disables_capturing(self, testdir):
p = testdir.makepyfile("""
def test_hello(capfd):
import os
os.write(1, str(42).encode('ascii'))
raise KeyboardInterrupt()
""")
result = testdir.runpytest_subprocess(p)
result.stdout.fnmatch_lines([
"*KeyboardInterrupt*"
])
assert result.ret == 2
@pytest.mark.issue14
def test_capture_and_logging(self, testdir):
p = testdir.makepyfile("""
import logging
def test_log(capsys):
logging.error('x')
""")
result = testdir.runpytest_subprocess(p)
assert 'closed' not in result.stderr.str()
def test_setup_failure_does_not_kill_capturing(testdir):
sub1 = testdir.mkpydir("sub1")
sub1.join("conftest.py").write(_pytest._code.Source("""
def pytest_runtest_setup(item):
raise ValueError(42)
"""))
sub1.join("test_mod.py").write("def test_func1(): pass")
result = testdir.runpytest(testdir.tmpdir, '--traceconfig')
result.stdout.fnmatch_lines([
"*ValueError(42)*",
"*1 error*"
])
def test_fdfuncarg_skips_on_no_osdup(testdir):
testdir.makepyfile("""
import os
if hasattr(os, 'dup'):
del os.dup
def test_hello(capfd):
pass
""")
result = testdir.runpytest_subprocess("--capture=no")
result.stdout.fnmatch_lines([
"*1 skipped*"
])
def test_capture_conftest_runtest_setup(testdir):
testdir.makeconftest("""
def pytest_runtest_setup():
print ("hello19")
""")
testdir.makepyfile("def test_func(): pass")
result = testdir.runpytest()
assert result.ret == 0
assert 'hello19' not in result.stdout.str()
def test_capture_badoutput_issue412(testdir):
testdir.makepyfile("""
import os
def test_func():
omg = bytearray([1,129,1])
os.write(1, omg)
assert 0
""")
result = testdir.runpytest('--cap=fd')
result.stdout.fnmatch_lines('''
*def test_func*
*assert 0*
*Captured*
*1 failed*
''')
def test_capture_early_option_parsing(testdir):
testdir.makeconftest("""
def pytest_runtest_setup():
print ("hello19")
""")
testdir.makepyfile("def test_func(): pass")
result = testdir.runpytest("-vs")
assert result.ret == 0
assert 'hello19' in result.stdout.str()
def test_capture_binary_output(testdir):
testdir.makepyfile(r"""
import pytest
def test_a():
import sys
import subprocess
subprocess.call([sys.executable, __file__])
def test_foo():
import os;os.write(1, b'\xc3')
if __name__ == '__main__':
test_foo()
""")
result = testdir.runpytest('--assert=plain')
result.assert_outcomes(passed=2)
def test_error_during_readouterr(testdir):
"""Make sure we suspend capturing if errors occurr during readouterr"""
testdir.makepyfile(pytest_xyz="""
from _pytest.capture import FDCapture
def bad_snap(self):
raise Exception('boom')
assert FDCapture.snap
FDCapture.snap = bad_snap
""")
result = testdir.runpytest_subprocess(
"-p", "pytest_xyz", "--version", syspathinsert=True
)
result.stderr.fnmatch_lines([
"*in bad_snap",
" raise Exception('boom')",
"Exception: boom",
])
class TestTextIO:
def test_text(self):
f = capture.TextIO()
f.write("hello")
s = f.getvalue()
assert s == "hello"
f.close()
def test_unicode_and_str_mixture(self):
f = capture.TextIO()
if sys.version_info >= (3, 0):
f.write("\u00f6")
pytest.raises(TypeError, "f.write(bytes('hello', 'UTF-8'))")
else:
f.write(unicode("\u00f6", 'UTF-8'))
f.write("hello") # bytes
s = f.getvalue()
f.close()
assert isinstance(s, unicode)
def test_bytes_io():
f = py.io.BytesIO()
f.write(tobytes("hello"))
pytest.raises(TypeError, "f.write(totext('hello'))")
s = f.getvalue()
assert s == tobytes("hello")
def test_dontreadfrominput():
from _pytest.capture import DontReadFromInput
f = DontReadFromInput()
assert not f.isatty()
pytest.raises(IOError, f.read)
pytest.raises(IOError, f.readlines)
pytest.raises(IOError, iter, f)
pytest.raises(ValueError, f.fileno)
f.close() # just for completeness
@pytest.yield_fixture
def tmpfile(testdir):
f = testdir.makepyfile("").open('wb+')
yield f
if not f.closed:
f.close()
@needsosdup
def test_dupfile(tmpfile):
flist = []
for i in range(5):
nf = capture.safe_text_dupfile(tmpfile, "wb")
assert nf != tmpfile
assert nf.fileno() != tmpfile.fileno()
assert nf not in flist
print_(i, end="", file=nf)
flist.append(nf)
for i in range(5):
f = flist[i]
f.close()
tmpfile.seek(0)
s = tmpfile.read()
assert "01234" in repr(s)
tmpfile.close()
def test_dupfile_on_bytesio():
io = py.io.BytesIO()
f = capture.safe_text_dupfile(io, "wb")
f.write("hello")
assert io.getvalue() == b"hello"
def test_dupfile_on_textio():
io = py.io.TextIO()
f = capture.safe_text_dupfile(io, "wb")
f.write("hello")
assert io.getvalue() == "hello"
@contextlib.contextmanager
def lsof_check():
pid = os.getpid()
try:
out = py.process.cmdexec("lsof -p %d" % pid)
except (py.process.cmdexec.Error, UnicodeDecodeError):
# about UnicodeDecodeError, see note on pytester
pytest.skip("could not run 'lsof'")
yield
out2 = py.process.cmdexec("lsof -p %d" % pid)
len1 = len([x for x in out.split("\n") if "REG" in x])
len2 = len([x for x in out2.split("\n") if "REG" in x])
assert len2 < len1 + 3, out2
class TestFDCapture:
pytestmark = needsosdup
def test_simple(self, tmpfile):
fd = tmpfile.fileno()
cap = capture.FDCapture(fd)
data = tobytes("hello")
os.write(fd, data)
s = cap.snap()
cap.done()
assert not s
cap = capture.FDCapture(fd)
cap.start()
os.write(fd, data)
s = cap.snap()
cap.done()
assert s == "hello"
def test_simple_many(self, tmpfile):
for i in range(10):
self.test_simple(tmpfile)
def test_simple_many_check_open_files(self, testdir):
with lsof_check():
with testdir.makepyfile("").open('wb+') as tmpfile:
self.test_simple_many(tmpfile)
def test_simple_fail_second_start(self, tmpfile):
fd = tmpfile.fileno()
cap = capture.FDCapture(fd)
cap.done()
pytest.raises(ValueError, cap.start)
def test_stderr(self):
cap = capture.FDCapture(2)
cap.start()
print_("hello", file=sys.stderr)
s = cap.snap()
cap.done()
assert s == "hello\n"
def test_stdin(self, tmpfile):
cap = capture.FDCapture(0)
cap.start()
x = os.read(0, 100).strip()
cap.done()
assert x == tobytes('')
def test_writeorg(self, tmpfile):
data1, data2 = tobytes("foo"), tobytes("bar")
cap = capture.FDCapture(tmpfile.fileno())
cap.start()
tmpfile.write(data1)
tmpfile.flush()
cap.writeorg(data2)
scap = cap.snap()
cap.done()
assert scap == totext(data1)
with open(tmpfile.name, 'rb') as stmp_file:
stmp = stmp_file.read()
assert stmp == data2
def test_simple_resume_suspend(self, tmpfile):
with saved_fd(1):
cap = capture.FDCapture(1)
cap.start()
data = tobytes("hello")
os.write(1, data)
sys.stdout.write("whatever")
s = cap.snap()
assert s == "hellowhatever"
cap.suspend()
os.write(1, tobytes("world"))
sys.stdout.write("qlwkej")
assert not cap.snap()
cap.resume()
os.write(1, tobytes("but now"))
sys.stdout.write(" yes\n")
s = cap.snap()
assert s == "but now yes\n"
cap.suspend()
cap.done()
pytest.raises(AttributeError, cap.suspend)
@contextlib.contextmanager
def saved_fd(fd):
new_fd = os.dup(fd)
try:
yield
finally:
os.dup2(new_fd, fd)
os.close(new_fd)
class TestStdCapture:
captureclass = staticmethod(StdCapture)
@contextlib.contextmanager
def getcapture(self, **kw):
cap = self.__class__.captureclass(**kw)
cap.start_capturing()
try:
yield cap
finally:
cap.stop_capturing()
def test_capturing_done_simple(self):
with self.getcapture() as cap:
sys.stdout.write("hello")
sys.stderr.write("world")
out, err = cap.readouterr()
assert out == "hello"
assert err == "world"
def test_capturing_reset_simple(self):
with self.getcapture() as cap:
print("hello world")
sys.stderr.write("hello error\n")
out, err = cap.readouterr()
assert out == "hello world\n"
assert err == "hello error\n"
def test_capturing_readouterr(self):
with self.getcapture() as cap:
print ("hello world")
sys.stderr.write("hello error\n")
out, err = cap.readouterr()
assert out == "hello world\n"
assert err == "hello error\n"
sys.stderr.write("error2")
out, err = cap.readouterr()
assert err == "error2"
def test_capturing_readouterr_unicode(self):
with self.getcapture() as cap:
print ("hx\xc4\x85\xc4\x87")
out, err = cap.readouterr()
assert out == py.builtin._totext("hx\xc4\x85\xc4\x87\n", "utf8")
@pytest.mark.skipif('sys.version_info >= (3,)',
reason='text output different for bytes on python3')
def test_capturing_readouterr_decode_error_handling(self):
with self.getcapture() as cap:
# triggered a internal error in pytest
print('\xa6')
out, err = cap.readouterr()
assert out == py.builtin._totext('\ufffd\n', 'unicode-escape')
def test_reset_twice_error(self):
with self.getcapture() as cap:
print ("hello")
out, err = cap.readouterr()
pytest.raises(ValueError, cap.stop_capturing)
assert out == "hello\n"
assert not err
def test_capturing_modify_sysouterr_in_between(self):
oldout = sys.stdout
olderr = sys.stderr
with self.getcapture() as cap:
sys.stdout.write("hello")
sys.stderr.write("world")
sys.stdout = capture.TextIO()
sys.stderr = capture.TextIO()
print ("not seen")
sys.stderr.write("not seen\n")
out, err = cap.readouterr()
assert out == "hello"
assert err == "world"
assert sys.stdout == oldout
assert sys.stderr == olderr
def test_capturing_error_recursive(self):
with self.getcapture() as cap1:
print ("cap1")
with self.getcapture() as cap2:
print ("cap2")
out2, err2 = cap2.readouterr()
out1, err1 = cap1.readouterr()
assert out1 == "cap1\n"
assert out2 == "cap2\n"
def test_just_out_capture(self):
with self.getcapture(out=True, err=False) as cap:
sys.stdout.write("hello")
sys.stderr.write("world")
out, err = cap.readouterr()
assert out == "hello"
assert not err
def test_just_err_capture(self):
with self.getcapture(out=False, err=True) as cap:
sys.stdout.write("hello")
sys.stderr.write("world")
out, err = cap.readouterr()
assert err == "world"
assert not out
def test_stdin_restored(self):
old = sys.stdin
with self.getcapture(in_=True):
newstdin = sys.stdin
assert newstdin != sys.stdin
assert sys.stdin is old
def test_stdin_nulled_by_default(self):
print ("XXX this test may well hang instead of crashing")
print ("XXX which indicates an error in the underlying capturing")
print ("XXX mechanisms")
with self.getcapture():
pytest.raises(IOError, "sys.stdin.read()")
class TestStdCaptureFD(TestStdCapture):
pytestmark = needsosdup
captureclass = staticmethod(StdCaptureFD)
def test_simple_only_fd(self, testdir):
testdir.makepyfile("""
import os
def test_x():
os.write(1, "hello\\n".encode("ascii"))
assert 0
""")
result = testdir.runpytest_subprocess()
result.stdout.fnmatch_lines("""
*test_x*
*assert 0*
*Captured stdout*
""")
def test_intermingling(self):
with self.getcapture() as cap:
oswritebytes(1, "1")
sys.stdout.write(str(2))
sys.stdout.flush()
oswritebytes(1, "3")
oswritebytes(2, "a")
sys.stderr.write("b")
sys.stderr.flush()
oswritebytes(2, "c")
out, err = cap.readouterr()
assert out == "123"
assert err == "abc"
def test_many(self, capfd):
with lsof_check():
for i in range(10):
cap = StdCaptureFD()
cap.stop_capturing()
class TestStdCaptureFDinvalidFD:
pytestmark = needsosdup
def test_stdcapture_fd_invalid_fd(self, testdir):
testdir.makepyfile("""
import os
from _pytest import capture
def StdCaptureFD(out=True, err=True, in_=True):
return capture.MultiCapture(out, err, in_,
Capture=capture.FDCapture)
def test_stdout():
os.close(1)
cap = StdCaptureFD(out=True, err=False, in_=False)
cap.stop_capturing()
def test_stderr():
os.close(2)
cap = StdCaptureFD(out=False, err=True, in_=False)
cap.stop_capturing()
def test_stdin():
os.close(0)
cap = StdCaptureFD(out=False, err=False, in_=True)
cap.stop_capturing()
""")
result = testdir.runpytest_subprocess("--capture=fd")
assert result.ret == 0
assert result.parseoutcomes()['passed'] == 3
def test_capture_not_started_but_reset():
capsys = StdCapture()
capsys.stop_capturing()
@needsosdup
@pytest.mark.parametrize('use', [True, False])
def test_fdcapture_tmpfile_remains_the_same(tmpfile, use):
if not use:
tmpfile = True
cap = StdCaptureFD(out=False, err=tmpfile)
try:
cap.start_capturing()
capfile = cap.err.tmpfile
cap.readouterr()
finally:
cap.stop_capturing()
capfile2 = cap.err.tmpfile
assert capfile2 == capfile
@needsosdup
def test_close_and_capture_again(testdir):
testdir.makepyfile("""
import os
def test_close():
os.close(1)
def test_capture_again():
os.write(1, b"hello\\n")
assert 0
""")
result = testdir.runpytest_subprocess()
result.stdout.fnmatch_lines("""
*test_capture_again*
*assert 0*
*stdout*
*hello*
""")
@pytest.mark.parametrize('method', ['SysCapture', 'FDCapture'])
def test_capturing_and_logging_fundamentals(testdir, method):
if method == "StdCaptureFD" and not hasattr(os, 'dup'):
pytest.skip("need os.dup")
# here we check a fundamental feature
p = testdir.makepyfile("""
import sys, os
import py, logging
from _pytest import capture
cap = capture.MultiCapture(out=False, in_=False,
Capture=capture.%s)
cap.start_capturing()
logging.warn("hello1")
outerr = cap.readouterr()
print ("suspend, captured %%s" %%(outerr,))
logging.warn("hello2")
cap.pop_outerr_to_orig()
logging.warn("hello3")
outerr = cap.readouterr()
print ("suspend2, captured %%s" %% (outerr,))
""" % (method,))
result = testdir.runpython(p)
result.stdout.fnmatch_lines("""
suspend, captured*hello1*
suspend2, captured*WARNING:root:hello3*
""")
result.stderr.fnmatch_lines("""
WARNING:root:hello2
""")
assert "atexit" not in result.stderr.str()
def test_error_attribute_issue555(testdir):
testdir.makepyfile("""
import sys
def test_capattr():
assert sys.stdout.errors == "strict"
assert sys.stderr.errors == "strict"
""")
reprec = testdir.inline_run()
reprec.assertoutcome(passed=1)
def test_dontreadfrominput_has_encoding(testdir):
testdir.makepyfile("""
import sys
def test_capattr():
# should not raise AttributeError
assert sys.stdout.encoding
assert sys.stderr.encoding
""")
reprec = testdir.inline_run()
reprec.assertoutcome(passed=1)
def test_pickling_and_unpickling_enocded_file():
# See https://bitbucket.org/pytest-dev/pytest/pull-request/194
# pickle.loads() raises infinite recursion if
# EncodedFile.__getattr__ is not implemented properly
ef = capture.EncodedFile(None, None)
ef_as_str = pickle.dumps(ef)
pickle.loads(ef_as_str)