test_ok1/py/plugin/pytest_capture.py

278 lines
9.2 KiB
Python

"""
configurable per-test stdout/stderr capturing mechanisms.
This plugin captures stdout/stderr output for each test separately.
In case of test failures this captured output is shown grouped
togtther with the test.
The plugin also provides test function arguments that help to
assert stdout/stderr output from within your tests, see the
`funcarg example`_.
Capturing of input/output streams during tests
---------------------------------------------------
By default ``sys.stdout`` and ``sys.stderr`` are substituted with
temporary streams during the execution of tests and setup/teardown code.
During the whole testing process it will re-use the same temporary
streams allowing to play well with the logging module which easily
takes ownership on these streams.
Also, 'sys.stdin' is substituted with a file-like "null" object that
does not return any values. This is to immediately error out
on tests that wait on reading something from stdin.
You can influence output capturing mechanisms from the command line::
py.test -s # disable all capturing
py.test --capture=sys # replace sys.stdout/stderr with in-mem files
py.test --capture=fd # point filedescriptors 1 and 2 to temp file
If you set capturing values in a conftest file like this::
# conftest.py
option_capture = 'fd'
then all tests in that directory will execute with "fd" style capturing.
sys-level capturing
------------------------------------------
Capturing on 'sys' level means that ``sys.stdout`` and ``sys.stderr``
will be replaced with in-memory files (``py.io.TextIO`` to be precise)
that capture writes and decode non-unicode strings to a unicode object
(using a default, usually, UTF-8, encoding).
FD-level capturing and subprocesses
------------------------------------------
The ``fd`` based method means that writes going to system level files
based on the standard file descriptors will be captured, for example
writes such as ``os.write(1, 'hello')`` will be captured properly.
Capturing on fd-level will include output generated from
any subprocesses created during a test.
.. _`funcarg example`:
Example Usage of the capturing Function arguments
---------------------------------------------------
You can use the `capsys funcarg`_ and `capfd funcarg`_ to
capture writes to stdout and stderr streams. Using the
funcargs frees your test from having to care about setting/resetting
the old streams and also interacts well with py.test's own
per-test capturing. Here is an example test function:
.. sourcecode:: python
def test_myoutput(capsys):
print ("hello")
sys.stderr.write("world\\n")
out, err = capsys.readouterr()
assert out == "hello\\n"
assert err == "world\\n"
print "next"
out, err = capsys.readouterr()
assert out == "next\\n"
The ``readouterr()`` call snapshots the output so far -
and capturing will be continued. After the test
function finishes the original streams will
be restored. If you want to capture on
the filedescriptor level you can use the ``capfd`` function
argument which offers the same interface.
"""
import py
import os
def pytest_addoption(parser):
group = parser.getgroup("general")
group._addoption('--capture', action="store", default=None,
metavar="method", type="choice", choices=['fd', 'sys', 'no'],
help="set capturing method during tests: fd (default)|sys|no.")
group._addoption('-s', action="store_const", const="no", dest="capture",
help="shortcut for --capture=no.")
def addouterr(rep, outerr):
repr = getattr(rep, 'longrepr', None)
if not hasattr(repr, 'addsection'):
return
for secname, content in zip(["out", "err"], outerr):
if content:
repr.addsection("Captured std%s" % secname, content.rstrip())
def pytest_configure(config):
config.pluginmanager.register(CaptureManager(), 'capturemanager')
class CaptureManager:
def __init__(self):
self._method2capture = {}
def _maketempfile(self):
f = py.std.tempfile.TemporaryFile()
newf = py.io.dupfile(f, encoding="UTF-8")
return newf
def _makestringio(self):
return py.io.TextIO()
def _startcapture(self, method):
if method == "fd":
return py.io.StdCaptureFD(
out=self._maketempfile(), err=self._maketempfile()
)
elif method == "sys":
return py.io.StdCapture(
out=self._makestringio(), err=self._makestringio()
)
else:
raise ValueError("unknown capturing method: %r" % method)
def _getmethod(self, config, fspath):
if config.option.capture:
method = config.option.capture
else:
try:
method = config._conftest.rget("option_capture", path=fspath)
except KeyError:
method = "fd"
if method == "fd" and not hasattr(os, 'dup'): # e.g. jython
method = "sys"
return method
def resumecapture_item(self, item):
method = self._getmethod(item.config, item.fspath)
if not hasattr(item, 'outerr'):
item.outerr = ('', '') # we accumulate outerr on the item
return self.resumecapture(method)
def resumecapture(self, method):
if hasattr(self, '_capturing'):
raise ValueError("cannot resume, already capturing with %r" %
(self._capturing,))
if method != "no":
cap = self._method2capture.get(method)
if cap is None:
cap = self._startcapture(method)
self._method2capture[method] = cap
else:
cap.resume()
self._capturing = method
def suspendcapture(self):
self.deactivate_funcargs()
method = self._capturing
if method != "no":
cap = self._method2capture[method]
outerr = cap.suspend()
else:
outerr = "", ""
del self._capturing
return outerr
def activate_funcargs(self, pyfuncitem):
if not hasattr(pyfuncitem, 'funcargs'):
return
assert not hasattr(self, '_capturing_funcargs')
l = []
for name, obj in pyfuncitem.funcargs.items():
if name in ('capsys', 'capfd'):
obj._start()
l.append(obj)
if l:
self._capturing_funcargs = l
def deactivate_funcargs(self):
if hasattr(self, '_capturing_funcargs'):
for capfuncarg in self._capturing_funcargs:
capfuncarg._finalize()
del self._capturing_funcargs
def pytest_make_collect_report(self, __multicall__, collector):
method = self._getmethod(collector.config, collector.fspath)
self.resumecapture(method)
try:
rep = __multicall__.execute()
finally:
outerr = self.suspendcapture()
addouterr(rep, outerr)
return rep
def pytest_runtest_setup(self, item):
self.resumecapture_item(item)
def pytest_runtest_call(self, item):
self.resumecapture_item(item)
self.activate_funcargs(item)
def pytest_runtest_teardown(self, item):
self.resumecapture_item(item)
def pytest_runtest_teardown(self, item):
self.resumecapture_item(item)
def pytest__teardown_final(self, __multicall__, session):
method = self._getmethod(session.config, None)
self.resumecapture(method)
try:
rep = __multicall__.execute()
finally:
outerr = self.suspendcapture()
if rep:
addouterr(rep, outerr)
return rep
def pytest_keyboard_interrupt(self, excinfo):
if hasattr(self, '_capturing'):
self.suspendcapture()
def pytest_runtest_makereport(self, __multicall__, item, call):
self.deactivate_funcargs()
rep = __multicall__.execute()
outerr = self.suspendcapture()
outerr = (item.outerr[0] + outerr[0], item.outerr[1] + outerr[1])
if not rep.passed:
addouterr(rep, outerr)
if not rep.passed or rep.when == "teardown":
outerr = ('', '')
item.outerr = outerr
return rep
def pytest_funcarg__capsys(request):
"""captures writes to sys.stdout/sys.stderr and makes
them available successively via a ``capsys.readouterr()`` method
which returns a ``(out, err)`` tuple of captured snapshot strings.
"""
return CaptureFuncarg(request, py.io.StdCapture)
def pytest_funcarg__capfd(request):
"""captures writes to file descriptors 1 and 2 and makes
snapshotted ``(out, err)`` string tuples available
via the ``capsys.readouterr()`` method.
"""
return CaptureFuncarg(request, py.io.StdCaptureFD)
class CaptureFuncarg:
def __init__(self, request, captureclass):
self._cclass = captureclass
#request.addfinalizer(self._finalize)
def _start(self):
self.capture = self._cclass()
def _finalize(self):
if hasattr(self, 'capture'):
self.capture.reset()
del self.capture
def readouterr(self):
return self.capture.readouterr()
def close(self):
self.capture.reset()
del self.capture