lib-python.2.7.test.pydocfodder.py Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of jython-standalone Show documentation
Show all versions of jython-standalone Show documentation
Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
"""Something just to look at via pydoc."""
import types
class A_classic:
"A classic class."
def A_method(self):
"Method defined in A."
def AB_method(self):
"Method defined in A and B."
def AC_method(self):
"Method defined in A and C."
def AD_method(self):
"Method defined in A and D."
def ABC_method(self):
"Method defined in A, B and C."
def ABD_method(self):
"Method defined in A, B and D."
def ACD_method(self):
"Method defined in A, C and D."
def ABCD_method(self):
"Method defined in A, B, C and D."
class B_classic(A_classic):
"A classic class, derived from A_classic."
def AB_method(self):
"Method defined in A and B."
def ABC_method(self):
"Method defined in A, B and C."
def ABD_method(self):
"Method defined in A, B and D."
def ABCD_method(self):
"Method defined in A, B, C and D."
def B_method(self):
"Method defined in B."
def BC_method(self):
"Method defined in B and C."
def BD_method(self):
"Method defined in B and D."
def BCD_method(self):
"Method defined in B, C and D."
class C_classic(A_classic):
"A classic class, derived from A_classic."
def AC_method(self):
"Method defined in A and C."
def ABC_method(self):
"Method defined in A, B and C."
def ACD_method(self):
"Method defined in A, C and D."
def ABCD_method(self):
"Method defined in A, B, C and D."
def BC_method(self):
"Method defined in B and C."
def BCD_method(self):
"Method defined in B, C and D."
def C_method(self):
"Method defined in C."
def CD_method(self):
"Method defined in C and D."
class D_classic(B_classic, C_classic):
"A classic class, derived from B_classic and C_classic."
def AD_method(self):
"Method defined in A and D."
def ABD_method(self):
"Method defined in A, B and D."
def ACD_method(self):
"Method defined in A, C and D."
def ABCD_method(self):
"Method defined in A, B, C and D."
def BD_method(self):
"Method defined in B and D."
def BCD_method(self):
"Method defined in B, C and D."
def CD_method(self):
"Method defined in C and D."
def D_method(self):
"Method defined in D."
class A_new(object):
"A new-style class."
def A_method(self):
"Method defined in A."
def AB_method(self):
"Method defined in A and B."
def AC_method(self):
"Method defined in A and C."
def AD_method(self):
"Method defined in A and D."
def ABC_method(self):
"Method defined in A, B and C."
def ABD_method(self):
"Method defined in A, B and D."
def ACD_method(self):
"Method defined in A, C and D."
def ABCD_method(self):
"Method defined in A, B, C and D."
def A_classmethod(cls, x):
"A class method defined in A."
A_classmethod = classmethod(A_classmethod)
def A_staticmethod():
"A static method defined in A."
A_staticmethod = staticmethod(A_staticmethod)
def _getx(self):
"A property getter function."
def _setx(self, value):
"A property setter function."
def _delx(self):
"A property deleter function."
A_property = property(fdel=_delx, fget=_getx, fset=_setx,
doc="A sample property defined in A.")
A_int_alias = int
class B_new(A_new):
"A new-style class, derived from A_new."
def AB_method(self):
"Method defined in A and B."
def ABC_method(self):
"Method defined in A, B and C."
def ABD_method(self):
"Method defined in A, B and D."
def ABCD_method(self):
"Method defined in A, B, C and D."
def B_method(self):
"Method defined in B."
def BC_method(self):
"Method defined in B and C."
def BD_method(self):
"Method defined in B and D."
def BCD_method(self):
"Method defined in B, C and D."
class C_new(A_new):
"A new-style class, derived from A_new."
def AC_method(self):
"Method defined in A and C."
def ABC_method(self):
"Method defined in A, B and C."
def ACD_method(self):
"Method defined in A, C and D."
def ABCD_method(self):
"Method defined in A, B, C and D."
def BC_method(self):
"Method defined in B and C."
def BCD_method(self):
"Method defined in B, C and D."
def C_method(self):
"Method defined in C."
def CD_method(self):
"Method defined in C and D."
class D_new(B_new, C_new):
"""A new-style class, derived from B_new and C_new.
"""
def AD_method(self):
"Method defined in A and D."
def ABD_method(self):
"Method defined in A, B and D."
def ACD_method(self):
"Method defined in A, C and D."
def ABCD_method(self):
"Method defined in A, B, C and D."
def BD_method(self):
"Method defined in B and D."
def BCD_method(self):
"Method defined in B, C and D."
def CD_method(self):
"Method defined in C and D."
def D_method(self):
"Method defined in D."
class FunkyProperties(object):
"""From SF bug 472347, by Roeland Rengelink.
Property getters etc may not be vanilla functions or methods,
and this used to make GUI pydoc blow up.
"""
def __init__(self):
self.desc = {'x':0}
class get_desc:
def __init__(self, attr):
self.attr = attr
def __call__(self, inst):
print 'Get called', self, inst
return inst.desc[self.attr]
class set_desc:
def __init__(self, attr):
self.attr = attr
def __call__(self, inst, val):
print 'Set called', self, inst, val
inst.desc[self.attr] = val
class del_desc:
def __init__(self, attr):
self.attr = attr
def __call__(self, inst):
print 'Del called', self, inst
del inst.desc[self.attr]
x = property(get_desc('x'), set_desc('x'), del_desc('x'), 'prop x')
submodule = types.ModuleType(__name__ + '.submodule',
"""A submodule, which should appear in its parent's summary""")