.. _`captures`: Capturing of stdout/stderr output ========================================================= By default ``stdout`` and ``stderr`` output is captured separately for setup and test execution code. If a test or a setup method fails its according output will usually be shown along with the failure traceback. In addition, ``stdin`` is set to a "null" object which will fail all attempts to read from it. This is important if some code paths in test otherwise might lead to waiting for input - which is usually not desired when running automated tests. .. _printdebugging: Using print statements for debugging --------------------------------------------------- One primary benefit of the default capturing of stdout/stderr output is that you can use print statements for debugging:: # content of test_module.py def setup_function(function): print ("setting up %s" % function) def test_func1(): assert True def test_func2(): assert False and running this module will show you precisely the output of the failing function and hide the other one:: $ py.test =========================== test session starts ============================ platform linux2 -- Python 2.6.5 -- pytest-2.0.1.dev1 collecting ... collected 2 items test_module.py .F ================================= FAILURES ================================= ________________________________ test_func2 ________________________________ def test_func2(): > assert False E assert False test_module.py:9: AssertionError ----------------------------- Captured stdout ------------------------------ setting up ==================== 1 failed, 1 passed in 0.04 seconds ==================== Setting capturing methods or disabling capturing ------------------------------------------------- There are two ways in which ``py.test`` can perform capturing: * ``fd`` level capturing (default): All writes going to the operating system file descriptors 1 and 2 will be captured, for example writes such as ``os.write(1, 'hello')``. Capturing on ``fd``-level also includes **output from subprocesses**. * ``sys`` level capturing: The ``sys.stdout`` and ``sys.stderr`` will will be replaced with in-memory files and the ``print`` builtin or output from code like ``sys.stderr.write(...)`` will be captured with this method. .. _`disable capturing`: 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 # also point filedescriptors 1 and 2 to temp file Accessing captured output from a test function --------------------------------------------------- The :ref:`funcarg mechanism` allows test function a very easy way to access the captured output by simply using the names ``capsys`` or ``capfd`` in the test function signature. Here is an example test function that performs some output related checks:: def test_myoutput(capsys): # or use "capfd" for fd-level 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. Using ``capsys`` this way frees your test from having to care about setting/resetting output streams and also interacts well with py.test's own per-test capturing. If you want to capture on ``fd`` level you can use the ``capfd`` function argument which offers the exact same interface. .. include:: links.inc