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# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Tests for L{twisted.python.usage}, a command line option parsing library.
"""
from __future__ import division, absolute_import
from twisted.trial import unittest
from twisted.python import usage
class WellBehaved(usage.Options):
optParameters = [['long', 'w', 'default', 'and a docstring'],
['another', 'n', 'no docstring'],
['longonly', None, 'noshort'],
['shortless', None, 'except',
'this one got docstring'],
]
optFlags = [['aflag', 'f',
"""
flagallicious docstringness for this here
"""],
['flout', 'o'],
]
def opt_myflag(self):
self.opts['myflag'] = "PONY!"
def opt_myparam(self, value):
self.opts['myparam'] = "%s WITH A PONY!" % (value,)
class ParseCorrectnessTests(unittest.TestCase):
"""
Test L{usage.Options.parseOptions} for correct values under
good conditions.
"""
def setUp(self):
"""
Instantiate and parseOptions a well-behaved Options class.
"""
self.niceArgV = ("--long Alpha -n Beta "
"--shortless Gamma -f --myflag "
"--myparam Tofu").split()
self.nice = WellBehaved()
self.nice.parseOptions(self.niceArgV)
def test_checkParameters(self):
"""
Parameters have correct values.
"""
self.assertEqual(self.nice.opts['long'], "Alpha")
self.assertEqual(self.nice.opts['another'], "Beta")
self.assertEqual(self.nice.opts['longonly'], "noshort")
self.assertEqual(self.nice.opts['shortless'], "Gamma")
def test_checkFlags(self):
"""
Flags have correct values.
"""
self.assertEqual(self.nice.opts['aflag'], 1)
self.assertEqual(self.nice.opts['flout'], 0)
def test_checkCustoms(self):
"""
Custom flags and parameters have correct values.
"""
self.assertEqual(self.nice.opts['myflag'], "PONY!")
self.assertEqual(self.nice.opts['myparam'], "Tofu WITH A PONY!")
class TypedOptions(usage.Options):
optParameters = [
['fooint', None, 392, 'Foo int', int],
['foofloat', None, 4.23, 'Foo float', float],
['eggint', None, None, 'Egg int without default', int],
['eggfloat', None, None, 'Egg float without default', float],
]
def opt_under_score(self, value):
"""
This option has an underscore in its name to exercise the _ to -
translation.
"""
self.underscoreValue = value
opt_u = opt_under_score
class TypedTests(unittest.TestCase):
"""
Test L{usage.Options.parseOptions} for options with forced types.
"""
def setUp(self):
self.usage = TypedOptions()
def test_defaultValues(self):
"""
Default values are parsed.
"""
argV = []
self.usage.parseOptions(argV)
self.assertEqual(self.usage.opts['fooint'], 392)
self.assertIsInstance(self.usage.opts['fooint'], int)
self.assertEqual(self.usage.opts['foofloat'], 4.23)
self.assertIsInstance(self.usage.opts['foofloat'], float)
self.assertIsNone(self.usage.opts['eggint'])
self.assertIsNone(self.usage.opts['eggfloat'])
def test_parsingValues(self):
"""
int and float values are parsed.
"""
argV = ("--fooint 912 --foofloat -823.1 "
"--eggint 32 --eggfloat 21").split()
self.usage.parseOptions(argV)
self.assertEqual(self.usage.opts['fooint'], 912)
self.assertIsInstance(self.usage.opts['fooint'], int)
self.assertEqual(self.usage.opts['foofloat'], -823.1)
self.assertIsInstance(self.usage.opts['foofloat'], float)
self.assertEqual(self.usage.opts['eggint'], 32)
self.assertIsInstance(self.usage.opts['eggint'], int)
self.assertEqual(self.usage.opts['eggfloat'], 21.)
self.assertIsInstance(self.usage.opts['eggfloat'], float)
def test_underscoreOption(self):
"""
A dash in an option name is translated to an underscore before being
dispatched to a handler.
"""
self.usage.parseOptions(['--under-score', 'foo'])
self.assertEqual(self.usage.underscoreValue, 'foo')
def test_underscoreOptionAlias(self):
"""
An option name with a dash in it can have an alias.
"""
self.usage.parseOptions(['-u', 'bar'])
self.assertEqual(self.usage.underscoreValue, 'bar')
def test_invalidValues(self):
"""
Passing wrong values raises an error.
"""
argV = "--fooint egg".split()
self.assertRaises(usage.UsageError, self.usage.parseOptions, argV)
class WrongTypedOptions(usage.Options):
optParameters = [
['barwrong', None, None, 'Bar with wrong coerce', 'he']
]
class WeirdCallableOptions(usage.Options):
def _bar(value):
raise RuntimeError("Ouch")
def _foo(value):
raise ValueError("Yay")
optParameters = [
['barwrong', None, None, 'Bar with strange callable', _bar],
['foowrong', None, None, 'Foo with strange callable', _foo]
]
class WrongTypedTests(unittest.TestCase):
"""
Test L{usage.Options.parseOptions} for wrong coerce options.
"""
def test_nonCallable(self):
"""
Using a non-callable type fails.
"""
us = WrongTypedOptions()
argV = "--barwrong egg".split()
self.assertRaises(TypeError, us.parseOptions, argV)
def test_notCalledInDefault(self):
"""
The coerce functions are not called if no values are provided.
"""
us = WeirdCallableOptions()
argV = []
us.parseOptions(argV)
def test_weirdCallable(self):
"""
Errors raised by coerce functions are handled properly.
"""
us = WeirdCallableOptions()
argV = "--foowrong blah".split()
# ValueError is swallowed as UsageError
e = self.assertRaises(usage.UsageError, us.parseOptions, argV)
self.assertEqual(str(e), "Parameter type enforcement failed: Yay")
us = WeirdCallableOptions()
argV = "--barwrong blah".split()
# RuntimeError is not swallowed
self.assertRaises(RuntimeError, us.parseOptions, argV)
class OutputTests(unittest.TestCase):
def test_uppercasing(self):
"""
Error output case adjustment does not mangle options
"""
opt = WellBehaved()
e = self.assertRaises(usage.UsageError,
opt.parseOptions, ['-Z'])
self.assertEqual(str(e), 'option -Z not recognized')
class InquisitionOptions(usage.Options):
optFlags = [
('expect', 'e'),
]
optParameters = [
('torture-device', 't',
'comfy-chair',
'set preferred torture device'),
]
class HolyQuestOptions(usage.Options):
optFlags = [('horseback', 'h',
'use a horse'),
('for-grail', 'g'),
]
class SubCommandOptions(usage.Options):
optFlags = [('europian-swallow', None,
'set default swallow type to Europian'),
]
subCommands = [
('inquisition', 'inquest', InquisitionOptions,
'Perform an inquisition'),
('holyquest', 'quest', HolyQuestOptions,
'Embark upon a holy quest'),
]
class SubCommandTests(unittest.TestCase):
"""
Test L{usage.Options.parseOptions} for options with subcommands.
"""
def test_simpleSubcommand(self):
"""
A subcommand is recognized.
"""
o = SubCommandOptions()
o.parseOptions(['--europian-swallow', 'inquisition'])
self.assertTrue(o['europian-swallow'])
self.assertEqual(o.subCommand, 'inquisition')
self.assertIsInstance(o.subOptions, InquisitionOptions)
self.assertFalse(o.subOptions['expect'])
self.assertEqual(o.subOptions['torture-device'], 'comfy-chair')
def test_subcommandWithFlagsAndOptions(self):
"""
Flags and options of a subcommand are assigned.
"""
o = SubCommandOptions()
o.parseOptions(['inquisition', '--expect', '--torture-device=feather'])
self.assertFalse(o['europian-swallow'])
self.assertEqual(o.subCommand, 'inquisition')
self.assertIsInstance(o.subOptions, InquisitionOptions)
self.assertTrue(o.subOptions['expect'])
self.assertEqual(o.subOptions['torture-device'], 'feather')
def test_subcommandAliasWithFlagsAndOptions(self):
"""
Flags and options of a subcommand alias are assigned.
"""
o = SubCommandOptions()
o.parseOptions(['inquest', '--expect', '--torture-device=feather'])
self.assertFalse(o['europian-swallow'])
self.assertEqual(o.subCommand, 'inquisition')
self.assertIsInstance(o.subOptions, InquisitionOptions)
self.assertTrue(o.subOptions['expect'])
self.assertEqual(o.subOptions['torture-device'], 'feather')
def test_anotherSubcommandWithFlagsAndOptions(self):
"""
Flags and options of another subcommand are assigned.
"""
o = SubCommandOptions()
o.parseOptions(['holyquest', '--for-grail'])
self.assertFalse(o['europian-swallow'])
self.assertEqual(o.subCommand, 'holyquest')
self.assertIsInstance(o.subOptions, HolyQuestOptions)
self.assertFalse(o.subOptions['horseback'])
self.assertTrue(o.subOptions['for-grail'])
def test_noSubcommand(self):
"""
If no subcommand is specified and no default subcommand is assigned,
a subcommand will not be implied.
"""
o = SubCommandOptions()
o.parseOptions(['--europian-swallow'])
self.assertTrue(o['europian-swallow'])
self.assertIsNone(o.subCommand)
self.assertFalse(hasattr(o, 'subOptions'))
def test_defaultSubcommand(self):
"""
Flags and options in the default subcommand are assigned.
"""
o = SubCommandOptions()
o.defaultSubCommand = 'inquest'
o.parseOptions(['--europian-swallow'])
self.assertTrue(o['europian-swallow'])
self.assertEqual(o.subCommand, 'inquisition')
self.assertIsInstance(o.subOptions, InquisitionOptions)
self.assertFalse(o.subOptions['expect'])
self.assertEqual(o.subOptions['torture-device'], 'comfy-chair')
def test_subCommandParseOptionsHasParent(self):
"""
The parseOptions method from the Options object specified for the
given subcommand is called.
"""
class SubOpt(usage.Options):
def parseOptions(self, *a, **kw):
self.sawParent = self.parent
usage.Options.parseOptions(self, *a, **kw)
class Opt(usage.Options):
subCommands = [
('foo', 'f', SubOpt, 'bar'),
]
o = Opt()
o.parseOptions(['foo'])
self.assertTrue(hasattr(o.subOptions, 'sawParent'))
self.assertEqual(o.subOptions.sawParent , o)
def test_subCommandInTwoPlaces(self):
"""
The .parent pointer is correct even when the same Options class is
used twice.
"""
class SubOpt(usage.Options):
pass
class OptFoo(usage.Options):
subCommands = [
('foo', 'f', SubOpt, 'quux'),
]
class OptBar(usage.Options):
subCommands = [
('bar', 'b', SubOpt, 'quux'),
]
oFoo = OptFoo()
oFoo.parseOptions(['foo'])
oBar=OptBar()
oBar.parseOptions(['bar'])
self.assertTrue(hasattr(oFoo.subOptions, 'parent'))
self.assertTrue(hasattr(oBar.subOptions, 'parent'))
self.failUnlessIdentical(oFoo.subOptions.parent, oFoo)
self.failUnlessIdentical(oBar.subOptions.parent, oBar)
class HelpStringTests(unittest.TestCase):
"""
Test generated help strings.
"""
def setUp(self):
"""
Instantiate a well-behaved Options class.
"""
self.niceArgV = ("--long Alpha -n Beta "
"--shortless Gamma -f --myflag "
"--myparam Tofu").split()
self.nice = WellBehaved()
def test_noGoBoom(self):
"""
__str__ shouldn't go boom.
"""
try:
self.nice.__str__()
except Exception as e:
self.fail(e)
def test_whitespaceStripFlagsAndParameters(self):
"""
Extra whitespace in flag and parameters docs is stripped.
"""
# We test this by making sure aflag and it's help string are on the
# same line.
lines = [s for s in str(self.nice).splitlines() if s.find("aflag")>=0]
self.assertTrue(len(lines) > 0)
self.assertTrue(lines[0].find("flagallicious") >= 0)
class PortCoerceTests(unittest.TestCase):
"""
Test the behavior of L{usage.portCoerce}.
"""
def test_validCoerce(self):
"""
Test the answers with valid input.
"""
self.assertEqual(0, usage.portCoerce("0"))
self.assertEqual(3210, usage.portCoerce("3210"))
self.assertEqual(65535, usage.portCoerce("65535"))
def test_errorCoerce(self):
"""
Test error path.
"""
self.assertRaises(ValueError, usage.portCoerce, "")
self.assertRaises(ValueError, usage.portCoerce, "-21")
self.assertRaises(ValueError, usage.portCoerce, "212189")
self.assertRaises(ValueError, usage.portCoerce, "foo")
class ZshCompleterTests(unittest.TestCase):
"""
Test the behavior of the various L{twisted.usage.Completer} classes
for producing output usable by zsh tab-completion system.
"""
def test_completer(self):
"""
Completer produces zsh shell-code that produces no completion matches.
"""
c = usage.Completer()
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, ':some-option:')
c = usage.Completer(descr='some action', repeat=True)
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, '*:some action:')
def test_files(self):
"""
CompleteFiles produces zsh shell-code that completes file names
according to a glob.
"""
c = usage.CompleteFiles()
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, ':some-option (*):_files -g "*"')
c = usage.CompleteFiles('*.py')
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, ':some-option (*.py):_files -g "*.py"')
c = usage.CompleteFiles('*.py', descr="some action", repeat=True)
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, '*:some action (*.py):_files -g "*.py"')
def test_dirs(self):
"""
CompleteDirs produces zsh shell-code that completes directory names.
"""
c = usage.CompleteDirs()
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, ':some-option:_directories')
c = usage.CompleteDirs(descr="some action", repeat=True)
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, '*:some action:_directories')
def test_list(self):
"""
CompleteList produces zsh shell-code that completes words from a fixed
list of possibilities.
"""
c = usage.CompleteList('ABC')
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, ':some-option:(A B C)')
c = usage.CompleteList(['1', '2', '3'])
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, ':some-option:(1 2 3)')
c = usage.CompleteList(['1', '2', '3'], descr='some action',
repeat=True)
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, '*:some action:(1 2 3)')
def test_multiList(self):
"""
CompleteMultiList produces zsh shell-code that completes multiple
comma-separated words from a fixed list of possibilities.
"""
c = usage.CompleteMultiList('ABC')
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, ':some-option:_values -s , \'some-option\' A B C')
c = usage.CompleteMultiList(['1','2','3'])
got = c._shellCode('some-option', usage._ZSH)
self.assertEqual(got, ':some-option:_values -s , \'some-option\' 1 2 3')
c = usage.CompleteMultiList(['1','2','3'], descr='some action',
repeat=True)
got = c._shellCode('some-option', usage._ZSH)
expected = '*:some action:_values -s , \'some action\' 1 2 3'
self.assertEqual(got, expected)
def test_usernames(self):
"""
CompleteUsernames produces zsh shell-code that completes system
usernames.
"""
c = usage.CompleteUsernames()
out = c._shellCode('some-option', usage._ZSH)
self.assertEqual(out, ':some-option:_users')
c = usage.CompleteUsernames(descr='some action', repeat=True)
out = c._shellCode('some-option', usage._ZSH)
self.assertEqual(out, '*:some action:_users')
def test_groups(self):
"""
CompleteGroups produces zsh shell-code that completes system group
names.
"""
c = usage.CompleteGroups()
out = c._shellCode('some-option', usage._ZSH)
self.assertEqual(out, ':group:_groups')
c = usage.CompleteGroups(descr='some action', repeat=True)
out = c._shellCode('some-option', usage._ZSH)
self.assertEqual(out, '*:some action:_groups')
def test_hostnames(self):
"""
CompleteHostnames produces zsh shell-code that completes hostnames.
"""
c = usage.CompleteHostnames()
out = c._shellCode('some-option', usage._ZSH)
self.assertEqual(out, ':some-option:_hosts')
c = usage.CompleteHostnames(descr='some action', repeat=True)
out = c._shellCode('some-option', usage._ZSH)
self.assertEqual(out, '*:some action:_hosts')
def test_userAtHost(self):
"""
CompleteUserAtHost produces zsh shell-code that completes hostnames or
a word of the form <username>@<hostname>.
"""
c = usage.CompleteUserAtHost()
out = c._shellCode('some-option', usage._ZSH)
self.assertTrue(out.startswith(':host | user@host:'))
c = usage.CompleteUserAtHost(descr='some action', repeat=True)
out = c._shellCode('some-option', usage._ZSH)
self.assertTrue(out.startswith('*:some action:'))
def test_netInterfaces(self):
"""
CompleteNetInterfaces produces zsh shell-code that completes system
network interface names.
"""
c = usage.CompleteNetInterfaces()
out = c._shellCode('some-option', usage._ZSH)
self.assertEqual(out, ':some-option:_net_interfaces')
c = usage.CompleteNetInterfaces(descr='some action', repeat=True)
out = c._shellCode('some-option', usage._ZSH)
self.assertEqual(out, '*:some action:_net_interfaces')
class CompleterNotImplementedTests(unittest.TestCase):
"""
Using an unknown shell constant with the various Completer() classes
should raise NotImplementedError
"""
def test_unknownShell(self):
"""
Using an unknown shellType should raise NotImplementedError
"""
classes = [usage.Completer, usage.CompleteFiles,
usage.CompleteDirs, usage.CompleteList,
usage.CompleteMultiList, usage.CompleteUsernames,
usage.CompleteGroups, usage.CompleteHostnames,
usage.CompleteUserAtHost, usage.CompleteNetInterfaces]
for cls in classes:
try:
action = cls()
except:
action = cls(None)
self.assertRaises(NotImplementedError, action._shellCode,
None, "bad_shell_type")
class FlagFunctionTests(unittest.TestCase):
"""
Tests for L{usage.flagFunction}.
"""
class SomeClass(object):
"""
Dummy class for L{usage.flagFunction} tests.
"""
def oneArg(self, a):
"""
A one argument method to be tested by L{usage.flagFunction}.
@param a: a useless argument to satisfy the function's signature.
"""
def noArg(self):
"""
A no argument method to be tested by L{usage.flagFunction}.
"""
def manyArgs(self, a, b, c):
"""
A multiple arguments method to be tested by L{usage.flagFunction}.
@param a: a useless argument to satisfy the function's signature.
@param b: a useless argument to satisfy the function's signature.
@param c: a useless argument to satisfy the function's signature.
"""
def test_hasArg(self):
"""
L{usage.flagFunction} returns C{False} if the method checked allows
exactly one argument.
"""
self.assertIs(False, usage.flagFunction(self.SomeClass().oneArg))
def test_noArg(self):
"""
L{usage.flagFunction} returns C{True} if the method checked allows
exactly no argument.
"""
self.assertIs(True, usage.flagFunction(self.SomeClass().noArg))
def test_tooManyArguments(self):
"""
L{usage.flagFunction} raises L{usage.UsageError} if the method checked
allows more than one argument.
"""
exc = self.assertRaises(
usage.UsageError, usage.flagFunction, self.SomeClass().manyArgs)
self.assertEqual("Invalid Option function for manyArgs", str(exc))
def test_tooManyArgumentsAndSpecificErrorMessage(self):
"""
L{usage.flagFunction} uses the given method name in the error message
raised when the method allows too many arguments.
"""
exc = self.assertRaises(
usage.UsageError,
usage.flagFunction, self.SomeClass().manyArgs, "flubuduf")
self.assertEqual("Invalid Option function for flubuduf", str(exc))
class OptionsInternalTests(unittest.TestCase):
"""
Tests internal behavior of C{usage.Options}.
"""
def test_optionsAliasesOrder(self):
"""
Options which are synonyms to another option are aliases towards the
longest option name.
"""
class Opts(usage.Options):
def opt_very_very_long(self):
"""
This is an option method with a very long name, that is going to
be aliased.
"""
opt_short = opt_very_very_long
opt_s = opt_very_very_long
opts = Opts()
self.assertEqual(
dict.fromkeys(
["s", "short", "very-very-long"], "very-very-long"), {
"s": opts.synonyms["s"],
"short": opts.synonyms["short"],
"very-very-long": opts.synonyms["very-very-long"],
})
Private