2001-02-17 01:58:44 -04:00
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\section{\module{doctest} ---
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Test docstrings represent reality}
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\declaremodule{standard}{doctest}
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\moduleauthor{Tim Peters}{tim_one@users.sourceforge.net}
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\sectionauthor{Tim Peters}{tim_one@users.sourceforge.net}
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\sectionauthor{Moshe Zadka}{moshez@debian.org}
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\modulesynopsis{A framework for verifying examples in docstrings.}
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The \module{doctest} module searches a module's docstrings for text that looks
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like an interactive Python session, then executes all such sessions to verify
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they still work exactly as shown. Here's a complete but small example:
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\begin{verbatim}
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"""
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This is module example.
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Example supplies one function, factorial. For example,
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>>> factorial(5)
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120
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"""
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def factorial(n):
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"""Return the factorial of n, an exact integer >= 0.
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If the result is small enough to fit in an int, return an int.
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Else return a long.
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>>> [factorial(n) for n in range(6)]
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[1, 1, 2, 6, 24, 120]
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>>> [factorial(long(n)) for n in range(6)]
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[1, 1, 2, 6, 24, 120]
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>>> factorial(30)
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265252859812191058636308480000000L
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>>> factorial(30L)
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265252859812191058636308480000000L
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>>> factorial(-1)
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Traceback (most recent call last):
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...
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ValueError: n must be >= 0
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Factorials of floats are OK, but the float must be an exact integer:
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>>> factorial(30.1)
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Traceback (most recent call last):
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...
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ValueError: n must be exact integer
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>>> factorial(30.0)
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265252859812191058636308480000000L
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It must also not be ridiculously large:
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>>> factorial(1e100)
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Traceback (most recent call last):
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...
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OverflowError: n too large
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"""
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\end{verbatim}
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% allow LaTeX to break here.
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\begin{verbatim}
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import math
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if not n >= 0:
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raise ValueError("n must be >= 0")
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if math.floor(n) != n:
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raise ValueError("n must be exact integer")
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if n+1 == n: # e.g., 1e300
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raise OverflowError("n too large")
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result = 1
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factor = 2
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while factor <= n:
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try:
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result *= factor
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except OverflowError:
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result *= long(factor)
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factor += 1
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return result
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def _test():
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import doctest, example
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return doctest.testmod(example)
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if __name__ == "__main__":
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_test()
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\end{verbatim}
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If you run \file{example.py} directly from the command line, doctest works
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its magic:
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\begin{verbatim}
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$ python example.py
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$
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\end{verbatim}
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There's no output! That's normal, and it means all the examples worked.
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Pass \programopt{-v} to the script, and doctest prints a detailed log
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of what it's trying, and prints a summary at the end:
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\begin{verbatim}
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$ python example.py -v
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Running example.__doc__
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Trying: factorial(5)
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Expecting: 120
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ok
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0 of 1 examples failed in example.__doc__
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Running example.factorial.__doc__
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Trying: [factorial(n) for n in range(6)]
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Expecting: [1, 1, 2, 6, 24, 120]
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ok
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Trying: [factorial(long(n)) for n in range(6)]
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Expecting: [1, 1, 2, 6, 24, 120]
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ok
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Trying: factorial(30)
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Expecting: 265252859812191058636308480000000L
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ok
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\end{verbatim}
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And so on, eventually ending with:
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\begin{verbatim}
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Trying: factorial(1e100)
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Expecting:
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Traceback (most recent call last):
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...
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OverflowError: n too large
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ok
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0 of 8 examples failed in example.factorial.__doc__
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2 items passed all tests:
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1 tests in example
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8 tests in example.factorial
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9 tests in 2 items.
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9 passed and 0 failed.
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Test passed.
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$
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\end{verbatim}
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That's all you need to know to start making productive use of doctest! Jump
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in. The docstrings in doctest.py contain detailed information about all
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aspects of doctest, and we'll just cover the more important points here.
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\subsection{Normal Usage}
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In normal use, end each module \module{M} with:
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\begin{verbatim}
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def _test():
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import doctest, M # replace M with your module's name
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return doctest.testmod(M) # ditto
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if __name__ == "__main__":
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_test()
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\end{verbatim}
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Then running the module as a script causes the examples in the docstrings
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to get executed and verified:
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\begin{verbatim}
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python M.py
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\end{verbatim}
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This won't display anything unless an example fails, in which case the
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failing example(s) and the cause(s) of the failure(s) are printed to stdout,
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and the final line of output is \code{'Test failed.'}.
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Run it with the \programopt{-v} switch instead:
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\begin{verbatim}
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python M.py -v
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\end{verbatim}
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and a detailed report of all examples tried is printed to \code{stdout},
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along with assorted summaries at the end.
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You can force verbose mode by passing \code{verbose=1} to testmod, or
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prohibit it by passing \code{verbose=0}. In either of those cases,
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\code{sys.argv} is not examined by testmod.
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In any case, testmod returns a 2-tuple of ints \code{(\var{f},
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\var{t})}, where \var{f} is the number of docstring examples that
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failed and \var{t} is the total number of docstring examples
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attempted.
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\subsection{Which Docstrings Are Examined?}
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See \file{docstring.py} for all the details. They're unsurprising: the
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module docstring, and all function, class and method docstrings are
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searched, with the exception of docstrings attached to objects with private
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names.
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In addition, if \code{M.__test__} exists and "is true", it must be a
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dict, and each entry maps a (string) name to a function object, class
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object, or string. Function and class object docstrings found from
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\code{M.__test__} are searched even if the name is private, and
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strings are searched directly as if they were docstrings. In output,
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a key \code{K} in \code{M.__test__} appears with name
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\begin{verbatim}
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<name of M>.__test__.K
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\end{verbatim}
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Any classes found are recursively searched similarly, to test docstrings in
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their contained methods and nested classes. While private names reached
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from \module{M}'s globals are skipped, all names reached from
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\code{M.__test__} are searched.
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\subsection{What's the Execution Context?}
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By default, each time testmod finds a docstring to test, it uses a
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\emph{copy} of \module{M}'s globals, so that running tests on a module
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doesn't change the module's real globals, and so that one test in
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\module{M} can't leave behind crumbs that accidentally allow another test
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to work. This means examples can freely use any names defined at top-level
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in \module{M}, and names defined earlier in the docstring being run. It
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also means that sloppy imports (see below) can cause examples in external
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docstrings to use globals inappropriate for them.
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You can force use of your own dict as the execution context by passing
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\code{globs=your_dict} to \function{testmod()} instead. Presumably this
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would be a copy of \code{M.__dict__} merged with the globals from other
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imported modules.
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\subsection{What About Exceptions?}
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No problem, as long as the only output generated by the example is the
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traceback itself. For example:
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\begin{verbatim}
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>>> [1, 2, 3].remove(42)
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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ValueError: list.remove(x): x not in list
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>>>
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\end{verbatim}
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Note that only the exception type and value are compared (specifically,
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only the last line in the traceback). The various ``File'' lines in
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between can be left out (unless they add significantly to the documentation
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value of the example).
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\subsection{Advanced Usage}
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\function{testmod()} actually creates a local instance of class
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\class{Tester}, runs appropriate methods of that class, and merges
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the results into global \class{Tester} instance \code{master}.
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You can create your own instances of \class{Tester}, and so build your
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own policies, or even run methods of \code{master} directly. See
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\code{Tester.__doc__} for details.
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\subsection{How are Docstring Examples Recognized?}
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In most cases a copy-and-paste of an interactive console session works fine
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--- just make sure the leading whitespace is rigidly consistent (you can mix
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tabs and spaces if you're too lazy to do it right, but doctest is not in
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the business of guessing what you think a tab means).
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\begin{verbatim}
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>>> # comments are ignored
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>>> x = 12
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>>> x
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12
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>>> if x == 13:
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... print "yes"
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... else:
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... print "no"
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... print "NO"
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... print "NO!!!"
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...
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no
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NO
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NO!!!
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>>>
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\end{verbatim}
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Any expected output must immediately follow the final
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\code{'>\code{>}>~'} or \code{'...~'} line containing the code, and
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the expected output (if any) extends to the next \code{'>\code{>}>~'}
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or all-whitespace line.
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The fine print:
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\begin{itemize}
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\item Expected output cannot contain an all-whitespace line, since such a
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line is taken to signal the end of expected output.
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\item Output to stdout is captured, but not output to stderr (exception
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tracebacks are captured via a different means).
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\item If you continue a line via backslashing in an interactive session, or
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for any other reason use a backslash, you need to double the backslash in
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the docstring version. This is simply because you're in a string, and so
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the backslash must be escaped for it to survive intact. Like:
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\begin{verbatim}
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>>> if "yes" == \\
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... "y" + \\
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... "es":
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... print 'yes'
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yes
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\end{verbatim}
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\item The starting column doesn't matter:
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\begin{verbatim}
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>>> assert "Easy!"
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>>> import math
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>>> math.floor(1.9)
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1.0
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\end{verbatim}
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and as many leading whitespace characters are stripped from the
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expected output as appeared in the initial \code{'>\code{>}>~'} line
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that triggered it.
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\end{itemize}
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\subsection{Warnings}
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\begin{enumerate}
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\item Sloppy imports can cause trouble; e.g., if you do
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\begin{verbatim}
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from XYZ import XYZclass
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\end{verbatim}
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then \class{XYZclass} is a name in \code{M.__dict__} too, and doctest
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has no way to know that \class{XYZclass} wasn't \emph{defined} in
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\module{M}. So it may try to execute the examples in
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\class{XYZclass}'s docstring, and those in turn may require a
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different set of globals to work correctly. I prefer to do
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``\code{import *}''-friendly imports, a la
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\begin{verbatim}
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from XYZ import XYZclass as _XYZclass
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\end{verbatim}
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and then the leading underscore makes \class{_XYZclass} a private name so
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testmod skips it by default. Other approaches are described in
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\file{doctest.py}.
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\item \module{doctest} is serious about requiring exact matches in expected
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output. If even a single character doesn't match, the test fails. This
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will probably surprise you a few times, as you learn exactly what Python
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does and doesn't guarantee about output. For example, when printing a
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dict, Python doesn't guarantee that the key-value pairs will be printed
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in any particular order, so a test like
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% Hey! What happened to Monty Python examples?
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% Tim: ask Guido -- it's his example!
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2001-02-17 01:58:44 -04:00
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\begin{verbatim}
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2001-02-22 19:15:05 -04:00
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>>> foo()
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{"Hermione": "hippogryph", "Harry": "broomstick"}
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>>>
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2001-02-17 01:58:44 -04:00
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\end{verbatim}
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is vulnerable! One workaround is to do
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\begin{verbatim}
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2001-02-22 19:15:05 -04:00
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>>> foo() == {"Hermione": "hippogryph", "Harry": "broomstick"}
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1
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>>>
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2001-02-17 01:58:44 -04:00
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\end{verbatim}
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instead. Another is to do
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\begin{verbatim}
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2001-02-22 19:15:05 -04:00
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>>> d = foo().items()
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>>> d.sort()
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>>> d
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[('Harry', 'broomstick'), ('Hermione', 'hippogryph')]
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2001-02-17 01:58:44 -04:00
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\end{verbatim}
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There are others, but you get the idea.
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Another bad idea is to print things that embed an object address, like
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\begin{verbatim}
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2001-02-22 19:15:05 -04:00
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>>> id(1.0) # certain to fail some of the time
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7948648
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>>>
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2001-02-17 01:58:44 -04:00
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\end{verbatim}
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Floating-point numbers are also subject to small output variations across
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platforms, because Python defers to the platform C library for float
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formatting, and C libraries vary widely in quality here.
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\begin{verbatim}
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2001-02-22 19:15:05 -04:00
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>>> 1./7 # risky
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0.14285714285714285
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>>> print 1./7 # safer
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0.142857142857
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>>> print round(1./7, 6) # much safer
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0.142857
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2001-02-17 01:58:44 -04:00
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\end{verbatim}
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Numbers of the form \code{I/2.**J} are safe across all platforms, and I
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often contrive doctest examples to produce numbers of that form:
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\begin{verbatim}
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2001-02-22 19:15:05 -04:00
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>>> 3./4 # utterly safe
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0.75
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2001-02-17 01:58:44 -04:00
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\end{verbatim}
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Simple fractions are also easier for people to understand, and that makes
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for better documentation.
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2001-06-08 11:40:28 -03:00
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\item Be careful if you have code that must only execute once.
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If you have module-level code that must only execute once, a more foolproof
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2001-06-11 11:55:01 -03:00
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definition of \function{_test()} is
|
2001-06-08 11:40:28 -03:00
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\begin{verbatim}
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def _test():
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|
import doctest, sys
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doctest.testmod(sys.modules["__main__"])
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\end{verbatim}
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2001-06-11 11:55:01 -03:00
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\end{enumerate}
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2001-02-17 01:58:44 -04:00
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\subsection{Soapbox}
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The first word in doctest is "doc", and that's why the author wrote
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|
doctest: to keep documentation up to date. It so happens that doctest
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makes a pleasant unit testing environment, but that's not its primary
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purpose.
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Choose docstring examples with care. There's an art to this that needs to
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be learned --- it may not be natural at first. Examples should add genuine
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value to the documentation. A good example can often be worth many words.
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If possible, show just a few normal cases, show endcases, show interesting
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|
subtle cases, and show an example of each kind of exception that can be
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raised. You're probably testing for endcases and subtle cases anyway in an
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interactive shell: doctest wants to make it as easy as possible to capture
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those sessions, and will verify they continue to work as designed forever
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after.
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If done with care, the examples will be invaluable for your users, and will
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pay back the time it takes to collect them many times over as the years go
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|
by and "things change". I'm still amazed at how often one of my doctest
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examples stops working after a "harmless" change.
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For exhaustive testing, or testing boring cases that add no value to the
|
2001-02-17 13:32:41 -04:00
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docs, define a \code{__test__} dict instead. That's what it's for.
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