a class the
hands variables are all class attributes (i.e. static attributes), not instance attributes.
Also in your
clear method you re-assign
hands still references the old
lists, hence its content doesn't change. If you are using python3 then you should use the
clear() method of the
hands will reference two empty
On python2 you should do
If you want to assign a instance attribute you have to do
self.attribute = value.
In order to do so the assignment should be placed inside the
__init__ method which is the constructor of the class.
As it currently stands your code, if you create two instances of
a then they will share the hands, which is probably something you do not want.
The correct code would be:
# if you are using python2 do *not* forget to inherit object.
self.my_hand = 
self.other_hand = 
self.hands = [self.my_hand, self.other_hand]
for round in range(5):
for hand in self.hands:
# or simpler:
# for hand in self.hands:
self.my_hand.clear() # or del self.my_hand[:] in python2
Sample output using iPython:
In : inst = ClassesUseCamelCase()
In : inst.init_hands()
In : inst.shuffle()
In : inst.hands
Out: [[3, 2, 4, 0, 1], [3, 1, 4, 0, 2]]
In : inst.clear()
In : inst.hands
Out: [, ]
Note that it works with more than one instance:
In : inst.init_hands()
In : other = ClassesUseCamelCase()
In : other.init_hands()
In : inst.hands, other.hands
Out: ([[0, 1, 2, 3, 4], [0, 1, 2, 3, 4]], [[0, 1, 2, 3, 4], [0, 1, 2, 3, 4]])
In : inst.shuffle(); other.shuffle()
In : inst.hands
Out: [[0, 1, 3, 2, 4], [1, 4, 0, 3, 2]]
In : other.hands
Out: [[1, 4, 2, 0, 3], [1, 4, 3, 2, 0]]
your code would have shared the
hands between the two instances.
I'm putting here a bit more explanation on what's happening to avoid writing too many comments.
First of all, in your code the
other_hand are class attributes. Why does this matter? It matters because class attributes are shared between instances:
In : class MyClass(object):
...: my_hand = 
...: other_hand = 
...: hands = [my_hand, other_hand]
In : instance_one = MyClass()
In : instance_two = MyClass()
In : instance_one.my_hand.append(1)
In : instance_two.my_hand # ops!
clear modifies the class attributes and hence all the instances using them. This, usually, is something you do not want.
Tthe instances do not have any other instance attribute which means that all instances are, in fact, equal; they all act the same and provide the same data. The only difference is their identity. If you are not going to use the identity then having a class and multiple instances is kind of useless because you could have simply used a single object.
If you want the instances to have their own data, independent from the data of other instances, then you have to use instance attributes.
del statement. As I've already said in the comments
del has two different uses. The full syntax of the statement is:
del sequence, of, del_targets
Where the "sequence, of, del_targets" is a comma separated list of what I'll call
del_targets. Depending on the
del_target the behaviour changes.
If it is an identifer than
del removes that reference from the scope, decrementing the reference count of the object that was referred to by the identifier.
a = b = 
# Now that empty list has two references: a and b
del b # now it has only one reference: a
print(b) # This raises a NameError because b doesn't exist anymore
del a # Now the empty list doesn't have references
If an object doesn't have references it is destroyed, so after the
del a above the empty list will be destroyed by the interpreter.
The target can also be a "subscript", i.e. an expression like
The slices syntax (the one with colon) is used to specify a range of indexes:
In : numbers = list(range(10)) # [0, 1, ..., 9]
In : numbers[::2], numbers[1::2], numbers[2:7:3]
Out: ([0, 2, 4, 6, 8], [1, 3, 5, 7, 9], [2, 5])
When using the
del statement with such an expression python calls the
__delitem__ method of the object, passing in the index or slice. This means that:
Means: delete all the elements of the list
numbers that correspond to an index in the slice
:. Since the slice
: means "all indexes in the sequence" the result is emptying the list. Note that it does not remove the reference from the list. It only acts on its elements.
You can obtain the same effect using:
numbers[:] = 
This tells python to replace the sequence of elements corresponding to the slice
: with the elements in
: means "all elements" and
 is empty, the effect is removing all elements from the list.
This syntax calls
list.__setitem__ instead of
list.__delitem__ under the hood, but the result is the same.
However you can also do:
numbers[:] =  and then all the elements of
numbers will be removed and the
2 will be inserted resulting in the list
Both work, however I prefer the
del syntax because it makes explicit your intent.
When you read:
You know that the statement is going to delete something. Then you see the subscript
[:] and you understand that it will remove the elements from
something and not the reference
something. However when you see:
something[:] = 
First you think, okay this is an assignment. Then you see the
[:] and you understand that you are doing to "overwrite" the contents of the list. Then you look at the right hand side and see
, so we are going to overwrite the elements with an empty list... finally you understand that the statement will simply remove all the elements from the list.