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# Module doctest.
# Released to the public domain 16-Jan-2001,
# by Tim Peters (tim.one@home.com).

# Provided as-is; use at your own risk; no warranty; no promises; enjoy!

"""Module doctest -- a framework for running examples in docstrings.


In normal use, end each module M with:

def _test():
    import doctest, M           # replace M with your module's name
    return doctest.testmod(M)   # ditto

if __name__ == "__main__":

Then running the module as a script will cause the examples in the
docstrings to get executed and verified:

python M.py

This won't display anything unless an example fails, in which case the
failing example(s) and the cause(s) of the failure(s) are printed to stdout
(why not stderr? because stderr is a lame hack <0.2 wink>), and the final
line of output is "Test failed.".

Run it with the -v switch instead:

python M.py -v

and a detailed report of all examples tried is printed to stdout, along
with assorted summaries at the end.

You can force verbose mode by passing "verbose=1" to testmod, or prohibit
it by passing "verbose=0".  In either of those cases, sys.argv is not
examined by testmod.

In any case, testmod returns a 2-tuple of ints (f, t), where f is the
number of docstring examples that failed and t is the total number of
docstring examples attempted.


+ M.__doc__.

+ f.__doc__ for all functions f in M.__dict__.values(), except those
  with private names and those defined in other modules.

+ C.__doc__ for all classes C in M.__dict__.values(), except those with
  private names and those defined in other modules.

+ If M.__test__ exists and "is true", it must be a dict, and
  each entry maps a (string) name to a function object, class object, or
  string.  Function and class object docstrings found from M.__test__
  are searched even if the name is private, and strings are searched
  directly as if they were docstrings.  In output, a key K in M.__test__
  appears with name
      <name of M>.__test__.K

Any classes found are recursively searched similarly, to test docstrings in
their contained methods and nested classes.  Private names reached from M's
globals are skipped, but all names reached from M.__test__ are searched.

By default, a name is considered to be private if it begins with an
underscore (like "_my_func") but doesn't both begin and end with (at least)
two underscores (like "__init__").  You can change the default by passing
your own "isprivate" function to testmod.

If you want to test docstrings in objects with private names too, stuff
them into an M.__test__ dict, or see ADVANCED USAGE below (e.g., pass your
own isprivate function to Tester's constructor, or call the rundoc method
of a Tester instance).


By default, each time testmod finds a docstring to test, it uses a *copy*
of M's globals (so that running tests on a module doesn't change the
module's real globals, and so that one test in M can't leave behind crumbs
that accidentally allow another test to work).  This means examples can
freely use any names defined at top-level in M.  It also means that sloppy
imports (see above) can cause examples in external docstrings to use
globals inappropriate for them.

You can force use of your own dict as the execution context by passing
"globs=your_dict" to testmod instead.  Presumably this would be a copy of
M.__dict__ merged with the globals from other imported modules.


Piece o' cake, provided the modules do their testing from docstrings.
Here's the test.py I use for the world's most elaborate Rational/
floating-base-conversion pkg (which I'll distribute some day):

from Rational import Cvt
from Rational import Format
from Rational import machprec
from Rational import Rat
from Rational import Round
from Rational import utils

modules = (Cvt,

def _test():
    import doctest
    import sys
    verbose = "-v" in sys.argv
    for mod in modules:
        doctest.testmod(mod, verbose=verbose, report=0)

if __name__ == "__main__":

IOW, it just runs testmod on all the pkg modules.  testmod remembers the
names and outcomes (# of failures, # of tries) for each item it's seen, and
passing "report=0" prevents it from printing a summary in verbose mode.
Instead, the summary is delayed until all modules have been tested, and
then "doctest.master.summarize()" forces the summary at the end.

So this is very nice in practice:  each module can be tested individually
with almost no work beyond writing up docstring examples, and collections
of modules can be tested too as a unit with no more work than the above.


No problem, as long as the only output generated by the example is the
traceback itself.  For example:

    >>> [1, 2, 3].remove(42)
    Traceback (most recent call last):
      File "<stdin>", line 1, in ?
    ValueError: list.remove(x): x not in list

Note that only the exception type and value are compared (specifically,
only the last line in the traceback).


doctest.testmod() captures the testing policy I find most useful most
often.  You may want other policies.

testmod() actually creates a local instance of class doctest.Tester, runs
appropriate methods of that class, and merges the results into global
Tester instance doctest.master.

You can create your own instances of doctest.Tester, and so build your own
policies, or even run methods of doctest.master directly.  See
doctest.Tester.__doc__ for details.


Oh ya.  It's easy!  In most cases a copy-and-paste of an interactive
console session works fine -- just make sure the leading whitespace is
rigidly consistent (you can mix tabs and spaces if you're too lazy to do it
right, but doctest is not in the business of guessing what you think a tab

    >>> # comments are ignored
    >>> x = 12
    >>> x
    >>> if x == 13:
    ...     print "yes"
    ... else:
    ...     print "no"
    ...     print "NO"
    ...     print "NO!!!"

Any expected output must immediately follow the final ">>>" or "..." line
containing the code, and the expected output (if any) extends to the next
">>>" or all-whitespace line.  That's it.


+ Expected output cannot contain an all-whitespace line, since such a line
  is taken to signal the end of expected output.

+ Output to stdout is captured, but not output to stderr (exception
  tracebacks are captured via a different means).

+ If you continue a line via backslashing in an interactive session, or for
  any other reason use a backslash, you need to double the backslash in the
  docstring version.  This is simply because you're in a string, and so the
  backslash must be escaped for it to survive intact.  Like:

>>> if "yes" == \\
...     "y" +   \\
...     "es":   # in the source code you'll see the doubled backslashes
...     print 'yes'

The starting column doesn't matter:

>>> assert "Easy!"
     >>> import math
            >>> math.floor(1.9)

and as many leading whitespace characters are stripped from the expected
output as appeared in the initial ">>>" line that triggered it.

If you execute this very file, the examples above will be found and
executed, leading to this output in verbose mode:

Running doctest.__doc__
Trying: [1, 2, 3].remove(42)
Traceback (most recent call last):
  File "<stdin>", line 1, in ?
ValueError: list.remove(x): x not in list
Trying: x = 12
Expecting: nothing
Trying: x
Expecting: 12
if x == 13:
    print "yes"
    print "no"
    print "NO"
    print "NO!!!"
... and a bunch more like that, with this summary at the end:

5 items had no tests:
12 items passed all tests:
   8 tests in doctest
   6 tests in doctest.Tester
  10 tests in doctest.Tester.merge
  14 tests in doctest.Tester.rundict
   3 tests in doctest.Tester.rundoc
   3 tests in doctest.Tester.runstring
   2 tests in doctest.__test__._TestClass
   2 tests in doctest.__test__._TestClass.__init__
   2 tests in doctest.__test__._TestClass.get
   1 tests in doctest.__test__._TestClass.square
   2 tests in doctest.__test__.string
   7 tests in doctest.is_private
60 tests in 17 items.
60 passed and 0 failed.
Test passed.

__all__ = [

import __future__

import re
PS1 = ">>>"
PS2 = "..."
_isPS1 = re.compile(r"(\s*)" + re.escape(PS1)).match
_isPS2 = re.compile(r"(\s*)" + re.escape(PS2)).match
_isEmpty = re.compile(r"\s*$").match
_isComment = re.compile(r"\s*#").match
del re

from types import StringTypes as _StringTypes

from inspect import isclass    as _isclass
from inspect import isfunction as _isfunction
from inspect import ismodule   as _ismodule
from inspect import classify_class_attrs as _classify_class_attrs

# Extract interactive examples from a string.  Return a list of triples,
# (source, outcome, lineno).  "source" is the source code, and ends
# with a newline iff the source spans more than one line.  "outcome" is
# the expected output if any, else an empty string.  When not empty,
# outcome always ends with a newline.  "lineno" is the line number,
# 0-based wrt the start of the string, of the first source line.

def _extract_examples(s):
    isPS1, isPS2 = _isPS1, _isPS2
    isEmpty, isComment = _isEmpty, _isComment
    examples = []
    lines = s.split("\n")
    i, n = 0, len(lines)
    while i < n:
        line = lines[i]
        i = i + 1
        m = isPS1(line)
        if m is None:
        j = m.end(0)  # beyond the prompt
        if isEmpty(line, j) or isComment(line, j):
            # a bare prompt or comment -- not interesting
        lineno = i - 1
        if line[j] != " ":
            raise ValueError("line " + `lineno` + " of docstring lacks "
                "blank after " + PS1 + ": " + line)
        j = j + 1
        blanks = m.group(1)
        nblanks = len(blanks)
        # suck up this and following PS2 lines
        source = []
        while 1:
            line = lines[i]
            m = isPS2(line)
            if m:
                if m.group(1) != blanks:
                    raise ValueError("inconsistent leading whitespace "
                        "in line " + `i` + " of docstring: " + line)
                i = i + 1
        if len(source) == 1:
            source = source[0]
            # get rid of useless null line from trailing empty "..."
            if source[-1] == "":
                del source[-1]
            source = "\n".join(source) + "\n"
        # suck up response
        if isPS1(line) or isEmpty(line):
            expect = ""
            expect = []
            while 1:
                if line[:nblanks] != blanks:
                    raise ValueError("inconsistent leading whitespace "
                        "in line " + `i` + " of docstring: " + line)
                i = i + 1
                line = lines[i]
                if isPS1(line) or isEmpty(line):
            expect = "\n".join(expect) + "\n"
        examples.append( (source, expect, lineno) )
    return examples

# Capture stdout when running examples.

class _SpoofOut:
    def __init__(self):
    def write(self, s):
    def get(self):
        guts = "".join(self.buf)
        # If anything at all was written, make sure there's a trailing
        # newline.  There's no way for the expected output to indicate
        # that a trailing newline is missing.
        if guts and not guts.endswith("\n"):
            guts = guts + "\n"
        # Prevent softspace from screwing up the next test case, in
        # case they used print with a trailing comma in an example.
        if hasattr(self, "softspace"):
            del self.softspace
        return guts
    def clear(self):
        self.buf = []
        if hasattr(self, "softspace"):
            del self.softspace
    def flush(self):
        # JPython calls flush

# Display some tag-and-msg pairs nicely, keeping the tag and its msg
# on the same line when that makes sense.

def _tag_out(printer, *tag_msg_pairs):
    for tag, msg in tag_msg_pairs:
        printer(tag + ":")
        msg_has_nl = msg[-1:] == "\n"
        msg_has_two_nl = msg_has_nl and \
                        msg.find("\n") < len(msg) - 1
        if len(tag) + len(msg) < 76 and not msg_has_two_nl:
            printer(" ")
        if not msg_has_nl:

# Run list of examples, in context globs.  "out" can be used to display
# stuff to "the real" stdout, and fakeout is an instance of _SpoofOut
# that captures the examples' std output.  Return (#failures, #tries).

def _run_examples_inner(out, fakeout, examples, globs, verbose, name,
    import sys, traceback
    OK, BOOM, FAIL = range(3)
    NADA = "nothing"
    stderr = _SpoofOut()
    failures = 0
    for source, want, lineno in examples:
        if verbose:
            _tag_out(out, ("Trying", source),
                          ("Expecting", want or NADA))
            exec compile(source, "<string>", "single",
                         compileflags, 1) in globs
            got = fakeout.get()
            state = OK
            # See whether the exception was expected.
            if want.find("Traceback (innermost last):\n") == 0 or \
               want.find("Traceback (most recent call last):\n") == 0:
                # Only compare exception type and value - the rest of
                # the traceback isn't necessary.
                want = want.split('\n')[-2] + '\n'
                exc_type, exc_val = sys.exc_info()[:2]
                got = traceback.format_exception_only(exc_type, exc_val)[-1]
                state = OK
                # unexpected exception
                state = BOOM

        if state == OK:
            if got == want:
                if verbose:
            state = FAIL

        assert state in (FAIL, BOOM)
        failures = failures + 1
        out("*" * 65 + "\n")
        _tag_out(out, ("Failure in example", source))
        out("from line #" + `lineno` + " of " + name + "\n")
        if state == FAIL:
            _tag_out(out, ("Expected", want or NADA), ("Got", got))
            assert state == BOOM
            _tag_out(out, ("Exception raised", stderr.get()))

    return failures, len(examples)

# Get the future-flags associated with the future features that have been
# imported into globs.

def _extract_future_flags(globs):
    flags = 0
    for fname in __future__.all_feature_names:
        feature = globs.get(fname, None)
        if feature is getattr(__future__, fname):
            flags |= feature.compiler_flag
    return flags

# Run list of examples, in a shallow copy of context (dict) globs.
# Return (#failures, #tries).

def _run_examples(examples, globs, verbose, name, compileflags):
    import sys
    saveout = sys.stdout
    globs = globs.copy()
        sys.stdout = fakeout = _SpoofOut()
        x = _run_examples_inner(saveout.write, fakeout, examples,
                                globs, verbose, name, compileflags)
        sys.stdout = saveout
        # While Python gc can clean up most cycles on its own, it doesn't
        # chase frame objects.  This is especially irksome when running
        # generator tests that raise exceptions, because a named generator-
        # iterator gets an entry in globs, and the generator-iterator
        # object's frame's traceback info points back to globs.  This is
        # easy to break just by clearing the namespace.  This can also
        # help to break other kinds of cycles, and even for cycles that
        # gc can break itself it's better to break them ASAP.
    return x

def run_docstring_examples(f, globs, verbose=0, name="NoName",
    """f, globs, verbose=0, name="NoName" -> run examples from f.__doc__.

    Use (a shallow copy of) dict globs as the globals for execution.
    Return (#failures, #tries).

    If optional arg verbose is true, print stuff even if there are no
    Use string name in failure msgs.

        doc = f.__doc__
        if not doc:
            # docstring empty or None
            return 0, 0
        # just in case CT invents a doc object that has to be forced
        # to look like a string <0.9 wink>
        doc = str(doc)
        return 0, 0

    e = _extract_examples(doc)
    if not e:
        return 0, 0
    if compileflags is None:
        compileflags = _extract_future_flags(globs)
    return _run_examples(e, globs, verbose, name, compileflags)

def is_private(prefix, base):
    """prefix, base -> true iff name prefix + "." + base is "private".

    Prefix may be an empty string, and base does not contain a period.
    Prefix is ignored (although functions you write conforming to this
    protocol may make use of it).
    Return true iff base begins with an (at least one) underscore, but
    does not both begin and end with (at least) two underscores.

    >>> is_private("a.b", "my_func")
    >>> is_private("____", "_my_func")
    >>> is_private("someclass", "__init__")
    >>> is_private("sometypo", "__init_")
    >>> is_private("x.y.z", "_")
    >>> is_private("_x.y.z", "__")
    >>> is_private("", "")  # senseless but consistent

    return base[:1] == "_" and not base[:2] == "__" == base[-2:]

# Determine if a class of function was defined in the given module.

def _from_module(module, object):
    if _isfunction(object):
        return module.__dict__ is object.func_globals
    if _isclass(object):
        return module.__name__ == object.__module__
    raise ValueError("object must be a class or function")

00570 class Tester:
    """Class Tester -- runs docstring examples and accumulates stats.

In normal use, function doctest.testmod() hides all this from you,
so use that if you can.  Create your own instances of Tester to do
fancier things.

    runstring(s, name)
        Search string s for examples to run; use name for logging.
        Return (#failures, #tries).

    rundoc(object, name=None)
        Search object.__doc__ for examples to run; use name (or
        object.__name__) for logging.  Return (#failures, #tries).

    rundict(d, name, module=None)
        Search for examples in docstrings in all of d.values(); use name
        for logging.  Exclude functions and classes not defined in module
        if specified.  Return (#failures, #tries).

    run__test__(d, name)
        Treat dict d like module.__test__.  Return (#failures, #tries).

        Display summary of testing results, to stdout.  Return
        (#failures, #tries).

        Merge in the test results from Tester instance "other".

>>> from doctest import Tester
>>> t = Tester(globs={'x': 42}, verbose=0)
>>> t.runstring(r'''
...      >>> x = x * 2
...      >>> print x
...      42
... ''', 'XYZ')
Failure in example: print x
from line #2 of XYZ
Expected: 42
Got: 84
(1, 2)
>>> t.runstring(">>> x = x * 2\\n>>> print x\\n84\\n", 'example2')
(0, 2)
>>> t.summarize()
1 items had failures:
   1 of   2 in XYZ
***Test Failed*** 1 failures.
(1, 4)
>>> t.summarize(verbose=1)
1 items passed all tests:
   2 tests in example2
1 items had failures:
   1 of   2 in XYZ
4 tests in 2 items.
3 passed and 1 failed.
***Test Failed*** 1 failures.
(1, 4)

00635     def __init__(self, mod=None, globs=None, verbose=None,
        """mod=None, globs=None, verbose=None, isprivate=None

See doctest.__doc__ for an overview.

Optional keyword arg "mod" is a module, whose globals are used for
executing examples.  If not specified, globs must be specified.

Optional keyword arg "globs" gives a dict to be used as the globals
when executing examples; if not specified, use the globals from
module mod.

In either case, a copy of the dict is used for each docstring

Optional keyword arg "verbose" prints lots of stuff if true, only
failures if false; by default, it's true iff "-v" is in sys.argv.

Optional keyword arg "isprivate" specifies a function used to determine
whether a name is private.  The default function is doctest.is_private;
see its docs for details.

        if mod is None and globs is None:
            raise TypeError("Tester.__init__: must specify mod or globs")
        if mod is not None and not _ismodule(mod):
            raise TypeError("Tester.__init__: mod must be a module; " +
        if globs is None:
            globs = mod.__dict__
        self.globs = globs

        if verbose is None:
            import sys
            verbose = "-v" in sys.argv
        self.verbose = verbose

        if isprivate is None:
            isprivate = is_private
        self.isprivate = isprivate

        self.name2ft = {}   # map name to (#failures, #trials) pair

        self.compileflags = _extract_future_flags(globs)

00681     def runstring(self, s, name):
        s, name -> search string s for examples to run, logging as name.

        Use string name as the key for logging the outcome.
        Return (#failures, #examples).

        >>> t = Tester(globs={}, verbose=1)
        >>> test = r'''
        ...    # just an example
        ...    >>> x = 1 + 2
        ...    >>> x
        ...    3
        ... '''
        >>> t.runstring(test, "Example")
        Running string Example
        Trying: x = 1 + 2
        Expecting: nothing
        Trying: x
        Expecting: 3
        0 of 2 examples failed in string Example
        (0, 2)

        if self.verbose:
            print "Running string", name
        f = t = 0
        e = _extract_examples(s)
        if e:
            f, t = _run_examples(e, self.globs, self.verbose, name,
        if self.verbose:
            print f, "of", t, "examples failed in string", name
        self.__record_outcome(name, f, t)
        return f, t

00719     def rundoc(self, object, name=None):
        object, name=None -> search object.__doc__ for examples to run.

        Use optional string name as the key for logging the outcome;
        by default use object.__name__.
        Return (#failures, #examples).
        If object is a class object, search recursively for method
        docstrings too.
        object.__doc__ is examined regardless of name, but if object is
        a class, whether private names reached from object are searched
        depends on the constructor's "isprivate" argument.

        >>> t = Tester(globs={}, verbose=0)
        >>> def _f():
        ...     '''Trivial docstring example.
        ...     >>> assert 2 == 2
        ...     '''
        ...     return 32
        >>> t.rundoc(_f)  # expect 0 failures in 1 example
        (0, 1)

        if name is None:
                name = object.__name__
            except AttributeError:
                raise ValueError("Tester.rundoc: name must be given "
                    "when object.__name__ doesn't exist; " + `object`)
        if self.verbose:
            print "Running", name + ".__doc__"
        f, t = run_docstring_examples(object, self.globs, self.verbose, name,
        if self.verbose:
            print f, "of", t, "examples failed in", name + ".__doc__"
        self.__record_outcome(name, f, t)
        if _isclass(object):
            # In 2.2, class and static methods complicate life.  Build
            # a dict "that works", by hook or by crook.
            d = {}
            for tag, kind, homecls, value in _classify_class_attrs(object):

                if homecls is not object:
                    # Only look at names defined immediately by the class.

                elif self.isprivate(name, tag):

                elif kind == "method":
                    # value is already a function
                    d[tag] = value

                elif kind == "static method":
                    # value isn't a function, but getattr reveals one
                    d[tag] = getattr(object, tag)

                elif kind == "class method":
                    # Hmm.  A classmethod object doesn't seem to reveal
                    # enough.  But getattr turns it into a bound method,
                    # and from there .im_func retrieves the underlying
                    # function.
                    d[tag] = getattr(object, tag).im_func

                elif kind == "property":
                    # The methods implementing the property have their
                    # own docstrings -- but the property may have one too.
                    if value.__doc__ is not None:
                        d[tag] = str(value.__doc__)

                elif kind == "data":
                    # Grab nested classes.
                    if _isclass(value):
                        d[tag] = value

                    raise ValueError("teach doctest about %r" % kind)

            f2, t2 = self.run__test__(d, name)
            f += f2
            t += t2

        return f, t

00804     def rundict(self, d, name, module=None):
        d, name, module=None -> search for docstring examples in d.values().

        For k, v in d.items() such that v is a function or class,
        do self.rundoc(v, name + "." + k).  Whether this includes
        objects with private names depends on the constructor's
        "isprivate" argument.  If module is specified, functions and
        classes that are not defined in module are excluded.
        Return aggregate (#failures, #examples).

        Build and populate two modules with sample functions to test that
        exclusion of external functions and classes works.

        >>> import new
        >>> m1 = new.module('_m1')
        >>> m2 = new.module('_m2')
        >>> test_data = \"""
        ... def _f():
        ...     '''>>> assert 1 == 1
        ...     '''
        ... def g():
        ...    '''>>> assert 2 != 1
        ...    '''
        ... class H:
        ...    '''>>> assert 2 > 1
        ...    '''
        ...    def bar(self):
        ...        '''>>> assert 1 < 2
        ...        '''
        ... \"""
        >>> exec test_data in m1.__dict__
        >>> exec test_data in m2.__dict__
        >>> m1.__dict__.update({"f2": m2._f, "g2": m2.g, "h2": m2.H})

        Tests that objects outside m1 are excluded:

        >>> t = Tester(globs={}, verbose=0)
        >>> t.rundict(m1.__dict__, "rundict_test", m1)  # _f, f2 and g2 and h2 skipped
        (0, 3)

        Again, but with a custom isprivate function allowing _f:

        >>> t = Tester(globs={}, verbose=0, isprivate=lambda x,y: 0)
        >>> t.rundict(m1.__dict__, "rundict_test_pvt", m1)  # Only f2, g2 and h2 skipped
        (0, 4)

        And once more, not excluding stuff outside m1:

        >>> t = Tester(globs={}, verbose=0, isprivate=lambda x,y: 0)
        >>> t.rundict(m1.__dict__, "rundict_test_pvt")  # None are skipped.
        (0, 8)

        The exclusion of objects from outside the designated module is
        meant to be invoked automagically by testmod.

        >>> testmod(m1)
        (0, 3)


        if not hasattr(d, "items"):
            raise TypeError("Tester.rundict: d must support .items(); " +
        f = t = 0
        # Run the tests by alpha order of names, for consistency in
        # verbose-mode output.
        names = d.keys()
        for thisname in names:
            value = d[thisname]
            if _isfunction(value) or _isclass(value):
                if module and not _from_module(module, value):
                f2, t2 = self.__runone(value, name + "." + thisname)
                f = f + f2
                t = t + t2
        return f, t

00883     def run__test__(self, d, name):
        """d, name -> Treat dict d like module.__test__.

        Return (#failures, #tries).
        See testmod.__doc__ for details.

        failures = tries = 0
        prefix = name + "."
        savepvt = self.isprivate
            self.isprivate = lambda *args: 0
            # Run the tests by alpha order of names, for consistency in
            # verbose-mode output.
            keys = d.keys()
            for k in keys:
                v = d[k]
                thisname = prefix + k
                if type(v) in _StringTypes:
                    f, t = self.runstring(v, thisname)
                elif _isfunction(v) or _isclass(v):
                    f, t = self.rundoc(v, thisname)
                    raise TypeError("Tester.run__test__: values in "
                            "dict must be strings, functions "
                            "or classes; " + `v`)
                failures = failures + f
                tries = tries + t
            self.isprivate = savepvt
        return failures, tries

00916     def summarize(self, verbose=None):
        verbose=None -> summarize results, return (#failures, #tests).

        Print summary of test results to stdout.
        Optional arg 'verbose' controls how wordy this is.  By
        default, use the verbose setting established by the

        if verbose is None:
            verbose = self.verbose
        notests = []
        passed = []
        failed = []
        totalt = totalf = 0
        for x in self.name2ft.items():
            name, (f, t) = x
            assert f <= t
            totalt = totalt + t
            totalf = totalf + f
            if t == 0:
            elif f == 0:
                passed.append( (name, t) )
        if verbose:
            if notests:
                print len(notests), "items had no tests:"
                for thing in notests:
                    print "   ", thing
            if passed:
                print len(passed), "items passed all tests:"
                for thing, count in passed:
                    print " %3d tests in %s" % (count, thing)
        if failed:
            print "*" * 65
            print len(failed), "items had failures:"
            for thing, (f, t) in failed:
                print " %3d of %3d in %s" % (f, t, thing)
        if verbose:
            print totalt, "tests in", len(self.name2ft), "items."
            print totalt - totalf, "passed and", totalf, "failed."
        if totalf:
            print "***Test Failed***", totalf, "failures."
        elif verbose:
            print "Test passed."
        return totalf, totalt

00969     def merge(self, other):
        other -> merge in test results from the other Tester instance.

        If self and other both have a test result for something
        with the same name, the (#failures, #tests) results are
        summed, and a warning is printed to stdout.

        >>> from doctest import Tester
        >>> t1 = Tester(globs={}, verbose=0)
        >>> t1.runstring('''
        ... >>> x = 12
        ... >>> print x
        ... 12
        ... ''', "t1example")
        (0, 2)
        >>> t2 = Tester(globs={}, verbose=0)
        >>> t2.runstring('''
        ... >>> x = 13
        ... >>> print x
        ... 13
        ... ''', "t2example")
        (0, 2)
        >>> common = ">>> assert 1 + 2 == 3\\n"
        >>> t1.runstring(common, "common")
        (0, 1)
        >>> t2.runstring(common, "common")
        (0, 1)
        >>> t1.merge(t2)
        *** Tester.merge: 'common' in both testers; summing outcomes.
        >>> t1.summarize(1)
        3 items passed all tests:
           2 tests in common
           2 tests in t1example
           2 tests in t2example
        6 tests in 3 items.
        6 passed and 0 failed.
        Test passed.
        (0, 6)

        d = self.name2ft
        for name, (f, t) in other.name2ft.items():
            if d.has_key(name):
                print "*** Tester.merge: '" + name + "' in both" \
                    " testers; summing outcomes."
                f2, t2 = d[name]
                f = f + f2
                t = t + t2
            d[name] = f, t

    def __record_outcome(self, name, f, t):
        if self.name2ft.has_key(name):
            print "*** Warning: '" + name + "' was tested before;", \
                "summing outcomes."
            f2, t2 = self.name2ft[name]
            f = f + f2
            t = t + t2
        self.name2ft[name] = f, t

    def __runone(self, target, name):
        if "." in name:
            i = name.rindex(".")
            prefix, base = name[:i], name[i+1:]
            prefix, base = "", base
        if self.isprivate(prefix, base):
            return 0, 0
        return self.rundoc(target, name)

master = None

def testmod(m, name=None, globs=None, verbose=None, isprivate=None,
    """m, name=None, globs=None, verbose=None, isprivate=None, report=1

    Test examples in docstrings in functions and classes reachable from
    module m, starting with m.__doc__.  Private names are skipped.

    Also test examples reachable from dict m.__test__ if it exists and is
    not None.  m.__dict__ maps names to functions, classes and strings;
    function and class docstrings are tested even if the name is private;
    strings are tested directly, as if they were docstrings.

    Return (#failures, #tests).

    See doctest.__doc__ for an overview.

    Optional keyword arg "name" gives the name of the module; by default
    use m.__name__.

    Optional keyword arg "globs" gives a dict to be used as the globals
    when executing examples; by default, use m.__dict__.  A copy of this
    dict is actually used for each docstring, so that each docstring's
    examples start with a clean slate.

    Optional keyword arg "verbose" prints lots of stuff if true, prints
    only failures if false; by default, it's true iff "-v" is in sys.argv.

    Optional keyword arg "isprivate" specifies a function used to
    determine whether a name is private.  The default function is
    doctest.is_private; see its docs for details.

    Optional keyword arg "report" prints a summary at the end when true,
    else prints nothing at the end.  In verbose mode, the summary is
    detailed, else very brief (in fact, empty if all tests passed).

    Advanced tomfoolery:  testmod runs methods of a local instance of
    class doctest.Tester, then merges the results into (or creates)
    global Tester instance doctest.master.  Methods of doctest.master
    can be called directly too, if you want to do something unusual.
    Passing report=0 to testmod is especially useful then, to delay
    displaying a summary.  Invoke doctest.master.summarize(verbose)
    when you're done fiddling.

    global master

    if not _ismodule(m):
        raise TypeError("testmod: module required; " + `m`)
    if name is None:
        name = m.__name__
    tester = Tester(m, globs=globs, verbose=verbose, isprivate=isprivate)
    failures, tries = tester.rundoc(m, name)
    f, t = tester.rundict(m.__dict__, name, m)
    failures = failures + f
    tries = tries + t
    if hasattr(m, "__test__"):
        testdict = m.__test__
        if testdict:
            if not hasattr(testdict, "items"):
                raise TypeError("testmod: module.__test__ must support "
                                ".items(); " + `testdict`)
            f, t = tester.run__test__(testdict, name + ".__test__")
            failures = failures + f
            tries = tries + t
    if report:
    if master is None:
        master = tester
    return failures, tries

01115 class _TestClass:
    A pointless class, for sanity-checking of docstring testing.


    >>> _TestClass(13).get() + _TestClass(-12).get()
    >>> hex(_TestClass(13).square().get())

01129     def __init__(self, val):
        """val -> _TestClass object with associated value val.

        >>> t = _TestClass(123)
        >>> print t.get()

        self.val = val

01139     def square(self):
        """square() -> square TestClass's associated value

        >>> _TestClass(13).square().get()

        self.val = self.val ** 2
        return self

01149     def get(self):
        """get() -> return TestClass's associated value.

        >>> x = _TestClass(-42)
        >>> print x.get()

        return self.val

__test__ = {"_TestClass": _TestClass,
            "string": r"""
                      Example of a string object, searched as-is.
                      >>> x = 1; y = 2
                      >>> x + y, x * y
                      (3, 2)

def _test():
    import doctest
    return doctest.testmod(doctest)

if __name__ == "__main__":

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