Python calling method in class
The first argument of all methods is usually called self. It refers to the instance for which the method is being called.
Let's say you have:
class A(object):
def foo(self):
print 'Foo'
def bar(self, an_argument):
print 'Bar', an_argument
Then, doing:
a = A()
a.foo() #prints 'Foo'
a.bar('Arg!') #prints 'Bar Arg!'
There's nothing special about this being called self, you could do the following:
class B(object):
def foo(self):
print 'Foo'
def bar(this_object):
this_object.foo()
Then, doing:
b = B()
b.bar() # prints 'Foo'
In your specific case:
dangerous_device = MissileDevice(some_battery)
dangerous_device.move(dangerous_device.RIGHT)
(As suggested in comments MissileDevice.RIGHT could be more appropriate here!)
You could declare all your constants at module level though, so you could do:
dangerous_device.move(RIGHT)
This, however, is going to depend on how you want your code to be organized!
Could someone explain to me, how to call the move method with the variable RIGHT
>>> myMissile = MissileDevice(myBattery) # looks like you need a battery, don't know what that is, you figure it out.
>>> myMissile.move(MissileDevice.RIGHT)
If you have programmed in any other language with classes, besides python, this sort of thing
class Foo:
bar = "baz"
is probably unfamiliar. In python, the class is a factory for objects, but it is itself an object; and variables defined in its scope are attached to the class, not the instances returned by the class. to refer to bar, above, you can just call it Foo.bar; you can also access class attributes through instances of the class, like Foo().bar.
Im utterly baffled about what 'self' refers too,
>>> class Foo:
... def quux(self):
... print self
... print self.bar
... bar = 'baz'
...
>>> Foo.quux
<unbound method Foo.quux>
>>> Foo.bar
'baz'
>>> f = Foo()
>>> f.bar
'baz'
>>> f
<__main__.Foo instance at 0x0286A058>
>>> f.quux
<bound method Foo.quux of <__main__.Foo instance at 0x0286A058>>
>>> f.quux()
<__main__.Foo instance at 0x0286A058>
baz
>>>
When you acecss an attribute on a python object, the interpreter will notice, when the looked up attribute was on the class, and is a function, that it should return a "bound" method instead of the function itself. All this does is arrange for the instance to be passed as the first argument.
Let's say you have a shiny Foo class. Well you have 3 options:
1) You want to use the method (or attribute) of a class inside the definition of that class:
class Foo(object):
attribute1 = 1 # class attribute (those don't use 'self' in declaration)
def __init__(self):
self.attribute2 = 2 # instance attribute (those are accessible via first
# parameter of the method, usually called 'self'
# which will contain nothing but the instance itself)
def set_attribute3(self, value):
self.attribute3 = value
def sum_1and2(self):
return self.attribute1 + self.attribute2
2) You want to use the method (or attribute) of a class outside the definition of that class
def get_legendary_attribute1():
return Foo.attribute1
def get_legendary_attribute2():
return Foo.attribute2
def get_legendary_attribute1_from(cls):
return cls.attribute1
get_legendary_attribute1() # >>> 1
get_legendary_attribute2() # >>> AttributeError: type object 'Foo' has no attribute 'attribute2'
get_legendary_attribute1_from(Foo) # >>> 1
3) You want to use the method (or attribute) of an instantiated class:
f = Foo()
f.attribute1 # >>> 1
f.attribute2 # >>> 2
f.attribute3 # >>> AttributeError: 'Foo' object has no attribute 'attribute3'
f.set_attribute3(3)
f.attribute3 # >>> 3