Python: understanding class and instance variables
Question:
I think I have some misconception about class and instance variables. Here is an example code:
class Animal(object):
energy = 10
skills = []
def work(self):
print 'I do something'
self.energy -= 1
def new_skill(self, skill):
self.skills.append(skill)
if __name__ == '__main__':
a1 = Animal()
a2 = Animal()
a1.work()
print a1.energy # result:9
print a2.energy # result:10
a1.new_skill('bark')
a2.new_skill('sleep')
print a1.skills # result:['bark', 'sleep']
print a2.skills # result:['bark', 'sleep']
I thought that energy and skill were class variables, because I declared them out of any method. I modify its values inside the methods in the same way (with self in his declaration, maybe incorrect?). But the results show me that energy takes different values for each object (like a instance variable), while skills seems to be shared (like a class variable). I think I’ve missed something important…
Answers:
The trick here is in understanding what self.energy -= 1 does. It’s really two expressions; one getting the value of self.energy - 1, and one assigning that back to self.energy.
But the thing that’s confusing you is that the references are not interpreted the same way on both sides of that assignment. When Python is told to get self.energy, it tries to find that attribute on the instance, fails, and falls back to the class attribute. However, when it assigns to self.energy, it will always assign to an instance attribute, even though that hadn’t previously existed.
Actually in you code
a1.work();
print a1.energy;
print a2.energy
when you are calling a1.work() an instance variable for a1 object is getting created with the same name that is ‘energy’.
And When interpreter comes to ‘print a1.energy’ it execute the instance variable of object a1.
And when interpreter comes to ‘print a2.energy’ it execute the class variable, and since you have not changed the value of class variable it shows 10 as output.
Access the class variables through the class, not through self:
class Animal(object):
energy = 10
skills = []
def work(self):
print 'I do something'
self.__class__.energy -= 1
def new_skill(self, skill):
self.__class__.skills.append(skill)
Upon initial creation both attributes are the same object:
>>> a1 = Animal()
>>> a2 = Animal()
>>> a1.energy is a2.energy
True
>>> a1.skills is a2.skills
True
>>> a1 is a2
False
When you assign to a class attribute, it is made local to the instance:
>>> id(a1.energy)
31346816
>>> id(a2.energy)
31346816
>>> a1.work()
I do something
>>> id(a1.energy)
31346840 # id changes as attribute is made local to instance
>>> id(a2.energy)
31346816
The new_skill() method does not assign a new value to the skills array, but rather it appends which modifies the list in place.
If you were to manually add a skill, then the skills list would be come local to the instance:
>>> id(a1.skills)
140668681481032
>>> a1.skills = ['sit', 'jump']
>>> id(a1.skills)
140668681617704
>>> id(a2.skills)
140668681481032
>>> a1.skills
['sit', 'jump']
>>> a2.skills
['bark', 'sleep']
Finally, if you were to delete the instance attribute a1.skills, the reference would revert back to the class attribute:
>>> a1.skills
['sit', 'jump']
>>> del a1.skills
>>> a1.skills
['bark', 'sleep']
>>> id(a1.skills)
140668681481032
You are running into initialization issues based around mutability.
First, the fix. skills and energy are class attributes.
It is a good practice to consider them as read only, as initial values for instance attributes. The classic way to build your class is:
class Animal(object):
energy = 10
skills = []
def __init__(self,en=energy,sk=None):
self.energy = en
self.skills = [] if sk is None else sk
....
Then each instance will have its own attributes, all your problems will disappear.
Second, what’s happening with this code?
Why is skills shared, when energy is per-instance?
The -= operator is subtle. it is for in-place assignation if possible. The difference here is that list types are mutable so in-place modification often occurs:
In [6]:
b=[]
print(b,id(b))
b+=['strong']
print(b,id(b))
[] 201781512
['strong'] 201781512
So a1.skills and a2.skills are the same list, which is also accessible as Animal.skills. But energy is a non-mutable int, so modification is impossible. In this case a new int object is created, so each instance manages its own copy of the energy variable:
In [7]:
a=10
print(a,id(a))
a-=1
print(a,id(a))
10 1360251232
9 1360251200
I think I have some misconception about class and instance variables. Here is an example code:
class Animal(object):
energy = 10
skills = []
def work(self):
print 'I do something'
self.energy -= 1
def new_skill(self, skill):
self.skills.append(skill)
if __name__ == '__main__':
a1 = Animal()
a2 = Animal()
a1.work()
print a1.energy # result:9
print a2.energy # result:10
a1.new_skill('bark')
a2.new_skill('sleep')
print a1.skills # result:['bark', 'sleep']
print a2.skills # result:['bark', 'sleep']
I thought that energy and skill were class variables, because I declared them out of any method. I modify its values inside the methods in the same way (with self in his declaration, maybe incorrect?). But the results show me that energy takes different values for each object (like a instance variable), while skills seems to be shared (like a class variable). I think I’ve missed something important…
The trick here is in understanding what self.energy -= 1 does. It’s really two expressions; one getting the value of self.energy - 1, and one assigning that back to self.energy.
But the thing that’s confusing you is that the references are not interpreted the same way on both sides of that assignment. When Python is told to get self.energy, it tries to find that attribute on the instance, fails, and falls back to the class attribute. However, when it assigns to self.energy, it will always assign to an instance attribute, even though that hadn’t previously existed.
Actually in you code
a1.work();
print a1.energy;
print a2.energy
when you are calling a1.work() an instance variable for a1 object is getting created with the same name that is ‘energy’.
And When interpreter comes to ‘print a1.energy’ it execute the instance variable of object a1.
And when interpreter comes to ‘print a2.energy’ it execute the class variable, and since you have not changed the value of class variable it shows 10 as output.
Access the class variables through the class, not through self:
class Animal(object):
energy = 10
skills = []
def work(self):
print 'I do something'
self.__class__.energy -= 1
def new_skill(self, skill):
self.__class__.skills.append(skill)
Upon initial creation both attributes are the same object:
>>> a1 = Animal()
>>> a2 = Animal()
>>> a1.energy is a2.energy
True
>>> a1.skills is a2.skills
True
>>> a1 is a2
False
When you assign to a class attribute, it is made local to the instance:
>>> id(a1.energy)
31346816
>>> id(a2.energy)
31346816
>>> a1.work()
I do something
>>> id(a1.energy)
31346840 # id changes as attribute is made local to instance
>>> id(a2.energy)
31346816
The new_skill() method does not assign a new value to the skills array, but rather it appends which modifies the list in place.
If you were to manually add a skill, then the skills list would be come local to the instance:
>>> id(a1.skills)
140668681481032
>>> a1.skills = ['sit', 'jump']
>>> id(a1.skills)
140668681617704
>>> id(a2.skills)
140668681481032
>>> a1.skills
['sit', 'jump']
>>> a2.skills
['bark', 'sleep']
Finally, if you were to delete the instance attribute a1.skills, the reference would revert back to the class attribute:
>>> a1.skills
['sit', 'jump']
>>> del a1.skills
>>> a1.skills
['bark', 'sleep']
>>> id(a1.skills)
140668681481032
You are running into initialization issues based around mutability.
First, the fix. skills and energy are class attributes.
It is a good practice to consider them as read only, as initial values for instance attributes. The classic way to build your class is:
class Animal(object):
energy = 10
skills = []
def __init__(self,en=energy,sk=None):
self.energy = en
self.skills = [] if sk is None else sk
....
Then each instance will have its own attributes, all your problems will disappear.
Second, what’s happening with this code?
Why is skills shared, when energy is per-instance?
The -= operator is subtle. it is for in-place assignation if possible. The difference here is that list types are mutable so in-place modification often occurs:
In [6]:
b=[]
print(b,id(b))
b+=['strong']
print(b,id(b))
[] 201781512
['strong'] 201781512
So a1.skills and a2.skills are the same list, which is also accessible as Animal.skills. But energy is a non-mutable int, so modification is impossible. In this case a new int object is created, so each instance manages its own copy of the energy variable:
In [7]:
a=10
print(a,id(a))
a-=1
print(a,id(a))
10 1360251232
9 1360251200