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# Authors:
# Jason Gerard DeRose <jderose@redhat.com>
#
# Copyright (C) 2008 Red Hat
# see file 'COPYING' for use and warranty information
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License as
# published by the Free Software Foundation; version 2 only
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
"""
Test the `ipalib.parameter` module.
"""
from tests.util import raises, ClassChecker, read_only
from tests.data import binary_bytes, utf8_bytes, unicode_str
from ipalib import parameter
from ipalib.constants import TYPE_ERROR, CALLABLE_ERROR, NULLS
class test_DefaultFrom(ClassChecker):
"""
Test the `ipalib.parameter.DefaultFrom` class.
"""
_cls = parameter.DefaultFrom
def test_init(self):
"""
Test the `ipalib.parameter.DefaultFrom.__init__` method.
"""
def callback(*args):
return args
keys = ('givenname', 'sn')
o = self.cls(callback, *keys)
assert read_only(o, 'callback') is callback
assert read_only(o, 'keys') == keys
lam = lambda first, last: first[0] + last
o = self.cls(lam)
assert read_only(o, 'keys') == ('first', 'last')
def test_call(self):
"""
Test the `ipalib.parameter.DefaultFrom.__call__` method.
"""
def callback(givenname, sn):
return givenname[0] + sn[0]
keys = ('givenname', 'sn')
o = self.cls(callback, *keys)
kw = dict(
givenname='John',
sn='Public',
hello='world',
)
assert o(**kw) == 'JP'
assert o() is None
for key in ('givenname', 'sn'):
kw_copy = dict(kw)
del kw_copy[key]
assert o(**kw_copy) is None
# Test using implied keys:
o = self.cls(lambda first, last: first[0] + last)
assert o(first='john', last='doe') == 'jdoe'
assert o(first='', last='doe') is None
assert o(one='john', two='doe') is None
# Test that co_varnames slice is used:
def callback2(first, last):
letter = first[0]
return letter + last
o = self.cls(callback2)
assert o.keys == ('first', 'last')
assert o(first='john', last='doe') == 'jdoe'
def test_parse_param_spec():
"""
Test the `ipalib.parameter.parse_param_spec` function.
"""
f = parameter.parse_param_spec
assert f('name') == ('name', dict(required=True, multivalue=False))
assert f('name?') == ('name', dict(required=False, multivalue=False))
assert f('name*') == ('name', dict(required=False, multivalue=True))
assert f('name+') == ('name', dict(required=True, multivalue=True))
# Make sure other "funny" endings are *not* treated special:
assert f('name^') == ('name^', dict(required=True, multivalue=False))
# Test that TypeError is raised if spec isn't an str:
e = raises(TypeError, f, u'name?')
assert str(e) == TYPE_ERROR % ('spec', str, u'name?', unicode)
# Test that ValueError is raised if len(spec) < 2:
e = raises(ValueError, f, 'n')
assert str(e) == "spec must be at least 2 characters; got 'n'"
class test_Param(ClassChecker):
"""
Test the `ipalib.parameter.Param` class.
"""
_cls = parameter.Param
def test_init(self):
"""
Test the `ipalib.parameter.Param.__init__` method.
"""
name = 'my_param'
o = self.cls(name)
assert o.param_spec is name
assert o.name is name
assert o.nice == "Param('my_param')"
assert o.__islocked__() is True
# Test default rules:
assert o.rules == tuple()
assert o.class_rules == tuple()
assert o.all_rules == tuple()
# Test default kwarg values:
assert o.cli_name is name
assert o.doc == ''
assert o.required is True
assert o.multivalue is False
assert o.primary_key is False
assert o.normalizer is None
assert o.default is None
assert o.default_from is None
assert o.flags == frozenset()
# Test that ValueError is raised when a kwarg from a subclass
# conflicts with an attribute:
class Subclass(self.cls):
kwargs = self.cls.kwargs + (
('convert', callable, None),
)
e = raises(ValueError, Subclass, name)
assert str(e) == "kwarg 'convert' conflicts with attribute on Subclass"
# Test type validation of keyword arguments:
class Subclass(self.cls):
kwargs = self.cls.kwargs + (
('extra1', bool, True),
('extra2', str, 'Hello'),
('extra3', (int, float), 42),
('extra4', callable, lambda whatever: whatever + 7),
)
o = Subclass('my_param') # Test with no **kw:
for (key, kind, default) in o.kwargs:
# Test with a type invalid for all:
value = object()
kw = {key: value}
e = raises(TypeError, Subclass, 'my_param', **kw)
if kind is callable:
assert str(e) == CALLABLE_ERROR % (key, value, type(value))
else:
assert str(e) == TYPE_ERROR % (key, kind, value, type(value))
# Test with None:
kw = {key: None}
Subclass('my_param', **kw)
# Test when using unknown kwargs:
e = raises(TypeError, self.cls, 'my_param',
flags=['hello', 'world'],
whatever=u'Hooray!',
)
assert str(e) == \
"Param('my_param'): takes no such kwargs: 'whatever'"
e = raises(TypeError, self.cls, 'my_param', great='Yes', ape='he is!')
assert str(e) == \
"Param('my_param'): takes no such kwargs: 'ape', 'great'"
def test_convert(self):
"""
Test the `ipalib.parameter.Param.convert` method.
"""
okay = ('Hello', u'Hello', 0, 4.2, True, False)
class Subclass(self.cls):
def _convert_scalar(self, value, index=None):
return value
# Test when multivalue=False:
o = Subclass('my_param')
for value in NULLS:
assert o.convert(value) is None
for value in okay:
assert o.convert(value) is value
# Test when multivalue=True:
o = Subclass('my_param', multivalue=True)
for value in NULLS:
assert o.convert(value) is None
assert o.convert(okay) == okay
assert o.convert(NULLS) is None
assert o.convert(okay + NULLS) == okay
assert o.convert(NULLS + okay) == okay
for value in okay:
assert o.convert(value) == (value,)
assert o.convert([None, value]) == (value,)
assert o.convert([value, None]) == (value,)
def test_convert_scalar(self):
"""
Test the `ipalib.parameter.Param._convert_scalar` method.
"""
o = self.cls('my_param')
e = raises(NotImplementedError, o._convert_scalar, 'some value')
assert str(e) == 'Param._convert_scalar()'
class Subclass(self.cls):
pass
o = Subclass('my_param')
e = raises(NotImplementedError, o._convert_scalar, 'some value')
assert str(e) == 'Subclass._convert_scalar()'
class test_Bytes(ClassChecker):
"""
Test the `ipalib.parameter.Bytes` class.
"""
_cls = parameter.Bytes
def test_init(self):
"""
Test the `ipalib.parameter.Bytes.__init__` method.
"""
o = self.cls('my_bytes')
assert o.type is str
assert o.rules == tuple()
assert o.class_rules == tuple()
assert o.all_rules == tuple()
assert o.minlength is None
assert o.maxlength is None
assert o.length is None
assert o.pattern is None
# Test mixing length with minlength or maxlength:
o = self.cls('my_bytes', length=5)
assert o.length == 5
assert len(o.class_rules) == 1
assert len(o.rules) == 0
assert len(o.all_rules) == 1
permutations = [
dict(minlength=3),
dict(maxlength=7),
dict(minlength=3, maxlength=7),
]
for kw in permutations:
o = self.cls('my_bytes', **kw)
assert len(o.class_rules) == len(kw)
assert len(o.rules) == 0
assert len(o.all_rules) == len(kw)
for (key, value) in kw.iteritems():
assert getattr(o, key) == value
e = raises(ValueError, self.cls, 'my_bytes', length=5, **kw)
assert str(e) == \
"Bytes('my_bytes'): cannot mix length with minlength or maxlength"
# Test when minlength or maxlength are less than 1:
e = raises(ValueError, self.cls, 'my_bytes', minlength=0)
assert str(e) == "Bytes('my_bytes'): minlength must be >= 1; got 0"
e = raises(ValueError, self.cls, 'my_bytes', maxlength=0)
assert str(e) == "Bytes('my_bytes'): maxlength must be >= 1; got 0"
# Test when minlength > maxlength:
e = raises(ValueError, self.cls, 'my_bytes', minlength=22, maxlength=15)
assert str(e) == \
"Bytes('my_bytes'): minlength > maxlength (minlength=22, maxlength=15)"
# Test when minlength == maxlength
e = raises(ValueError, self.cls, 'my_bytes', minlength=7, maxlength=7)
assert str(e) == \
"Bytes('my_bytes'): minlength == maxlength; use length=7 instead"
class test_Str(ClassChecker):
"""
Test the `ipalib.parameter.Str` class.
"""
_cls = parameter.Str
def test_init(self):
"""
Test the `ipalib.parameter.Str.__init__` method.
"""
o = self.cls('my_str')
assert o.type is unicode
assert o.minlength is None
assert o.maxlength is None
assert o.length is None
assert o.pattern is None
def test_convert_scalar(self):
"""
Test the `ipalib.parameter.Str._convert_scalar` method.
"""
o = self.cls('my_str')
for value in (u'Hello', 42, 1.2, True):
assert o._convert_scalar(value) == unicode(value)
for value in ('Hello', (None,), [u'42', '42'], dict(hello=u'world')):
e = raises(TypeError, o._convert_scalar, value)
assert str(e) == \
'Can only implicitly convert int, float, or bool; got %r' % value
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