def testNameToLabel(self):
"""
Test the various kinds of inputs L{nameToLabel} supports.
"""
nameData = [
('f', 'F'),
('fo', 'Fo'),
('foo', 'Foo'),
('fooBar', 'Foo Bar'),
('fooBarBaz', 'Foo Bar Baz'),
]
for inp, out in nameData:
got = util.nameToLabel(inp)
self.assertEquals(got, out,
"nameToLabel(%r) == %r != %r" % (inp, got, out))
def testNameToLabel(self):
"""
Test the various kinds of inputs L{nameToLabel} supports.
"""
nameData = [
('f', 'F'),
('fo', 'Fo'),
('foo', 'Foo'),
('fooBar', 'Foo Bar'),
('fooBarBaz', 'Foo Bar Baz'),
]
for inp, out in nameData:
got = util.nameToLabel(inp)
self.assertEquals(
got, out,
"nameToLabel(%r) == %r != %r" % (inp, got, out))
def inspect(self):
"""
Return a multi-line, human-readable representation of this DN.
"""
l = []
lablen = 0
def uniqueValues(mapping):
return dict.fromkeys(mapping.itervalues()).keys()
for k in uniqueValues(_x509names):
label = util.nameToLabel(k)
lablen = max(len(label), lablen)
v = getattr(self, k, None)
if v is not None:
l.append((label, v))
lablen += 2
for n, (label, attr) in enumerate(l):
l[n] = (label.rjust(lablen)+': '+ attr)
return '\n'.join(l)
def inspect(self):
"""
Return a multi-line, human-readable representation of this DN.
"""
l = []
lablen = 0
def uniqueValues(mapping):
return dict.fromkeys(mapping.itervalues()).keys()
for k in uniqueValues(_x509names):
label = util.nameToLabel(k)
lablen = max(len(label), lablen)
v = getattr(self, k, None)
if v is not None:
l.append((label, v))
lablen += 2
for n, (label, attr) in enumerate(l):
l[n] = (label.rjust(lablen) + ': ' + attr)
return '\n'.join(l)