Ich habe gelesen, dass es in Python möglich ist, eine Methode zu einem bestehenden Objekt (d.h. nicht in der Klassendefinition) hinzuzufügen.
Ich verstehe, dass das nicht immer gut ist. Aber wie könnte man das machen?
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Evgeny Prokurat
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HS.
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ndpu
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Es gibt mindestens zwei Möglichkeiten, eine Methode an eine Instanz anzuhängen, ohne types.MethodType :
>>> class A:
... def m(self):
... print 'im m, invoked with: ', self
>>> a = A()
>>> a.m()
im m, invoked with: <__main__.A instance at 0x973ec6c>
>>> a.m
<bound method A.m of <__main__.A instance at 0x973ec6c>>
>>>
>>> def foo(firstargument):
... print 'im foo, invoked with: ', firstargument
>>> foo
<function foo at 0x978548c>1:
>>> a.foo = foo.__get__(a, A) # or foo.__get__(a, type(a))
>>> a.foo()
im foo, invoked with: <__main__.A instance at 0x973ec6c>
>>> a.foo
<bound method A.foo of <__main__.A instance at 0x973ec6c>>2:
>>> instancemethod = type(A.m)
>>> instancemethod
<type 'instancemethod'>
>>> a.foo2 = instancemethod(foo, a, type(a))
>>> a.foo2()
im foo, invoked with: <__main__.A instance at 0x973ec6c>
>>> a.foo2
<bound method instance.foo of <__main__.A instance at 0x973ec6c>>Nützliche Links:
Datenmodell - Aufrufen von Deskriptoren
Deskriptor HowTo Guide - Aufrufen von Deskriptoren
Nisan.H
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Konsolidierung der Antworten von Jason Pratt und dem Community-Wiki, mit einem Blick auf die Ergebnisse verschiedener Bindungsmethoden:
Beachten Sie insbesondere, dass das Hinzufügen der Bindungsfunktion als Klassenmethode Werke , aber der Referenzierungsbereich ist nicht korrekt.
#!/usr/bin/python -u
import types
import inspect
## dynamically adding methods to a unique instance of a class
# get a list of a class's method type attributes
def listattr(c):
for m in [(n, v) for n, v in inspect.getmembers(c, inspect.ismethod) if isinstance(v,types.MethodType)]:
print m[0], m[1]
# externally bind a function as a method of an instance of a class
def ADDMETHOD(c, method, name):
c.__dict__[name] = types.MethodType(method, c)
class C():
r = 10 # class attribute variable to test bound scope
def __init__(self):
pass
#internally bind a function as a method of self's class -- note that this one has issues!
def addmethod(self, method, name):
self.__dict__[name] = types.MethodType( method, self.__class__ )
# predfined function to compare with
def f0(self, x):
print 'f0\tx = %d\tr = %d' % ( x, self.r)
a = C() # created before modified instnace
b = C() # modified instnace
def f1(self, x): # bind internally
print 'f1\tx = %d\tr = %d' % ( x, self.r )
def f2( self, x): # add to class instance's .__dict__ as method type
print 'f2\tx = %d\tr = %d' % ( x, self.r )
def f3( self, x): # assign to class as method type
print 'f3\tx = %d\tr = %d' % ( x, self.r )
def f4( self, x): # add to class instance's .__dict__ using a general function
print 'f4\tx = %d\tr = %d' % ( x, self.r )
b.addmethod(f1, 'f1')
b.__dict__['f2'] = types.MethodType( f2, b)
b.f3 = types.MethodType( f3, b)
ADDMETHOD(b, f4, 'f4')
b.f0(0) # OUT: f0 x = 0 r = 10
b.f1(1) # OUT: f1 x = 1 r = 10
b.f2(2) # OUT: f2 x = 2 r = 10
b.f3(3) # OUT: f3 x = 3 r = 10
b.f4(4) # OUT: f4 x = 4 r = 10
k = 2
print 'changing b.r from {0} to {1}'.format(b.r, k)
b.r = k
print 'new b.r = {0}'.format(b.r)
b.f0(0) # OUT: f0 x = 0 r = 2
b.f1(1) # OUT: f1 x = 1 r = 10 !!!!!!!!!
b.f2(2) # OUT: f2 x = 2 r = 2
b.f3(3) # OUT: f3 x = 3 r = 2
b.f4(4) # OUT: f4 x = 4 r = 2
c = C() # created after modifying instance
# let's have a look at each instance's method type attributes
print '\nattributes of a:'
listattr(a)
# OUT:
# attributes of a:
# __init__ <bound method C.__init__ of <__main__.C instance at 0x000000000230FD88>>
# addmethod <bound method C.addmethod of <__main__.C instance at 0x000000000230FD88>>
# f0 <bound method C.f0 of <__main__.C instance at 0x000000000230FD88>>
print '\nattributes of b:'
listattr(b)
# OUT:
# attributes of b:
# __init__ <bound method C.__init__ of <__main__.C instance at 0x000000000230FE08>>
# addmethod <bound method C.addmethod of <__main__.C instance at 0x000000000230FE08>>
# f0 <bound method C.f0 of <__main__.C instance at 0x000000000230FE08>>
# f1 <bound method ?.f1 of <class __main__.C at 0x000000000237AB28>>
# f2 <bound method ?.f2 of <__main__.C instance at 0x000000000230FE08>>
# f3 <bound method ?.f3 of <__main__.C instance at 0x000000000230FE08>>
# f4 <bound method ?.f4 of <__main__.C instance at 0x000000000230FE08>>
print '\nattributes of c:'
listattr(c)
# OUT:
# attributes of c:
# __init__ <bound method C.__init__ of <__main__.C instance at 0x0000000002313108>>
# addmethod <bound method C.addmethod of <__main__.C instance at 0x0000000002313108>>
# f0 <bound method C.f0 of <__main__.C instance at 0x0000000002313108>>Ich persönlich bevorzuge den Weg über die externe ADDMETHOD-Funktion, da ich so auch innerhalb eines Iterators neue Methodennamen dynamisch zuweisen kann.
def y(self, x):
pass
d = C()
for i in range(1,5):
ADDMETHOD(d, y, 'f%d' % i)
print '\nattributes of d:'
listattr(d)
# OUT:
# attributes of d:
# __init__ <bound method C.__init__ of <__main__.C instance at 0x0000000002303508>>
# addmethod <bound method C.addmethod of <__main__.C instance at 0x0000000002303508>>
# f0 <bound method C.f0 of <__main__.C instance at 0x0000000002303508>>
# f1 <bound method ?.y of <__main__.C instance at 0x0000000002303508>>
# f2 <bound method ?.y of <__main__.C instance at 0x0000000002303508>>
# f3 <bound method ?.y of <__main__.C instance at 0x0000000002303508>>
# f4 <bound method ?.y of <__main__.C instance at 0x0000000002303508>>
Tamzin Blake
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