# How can I call a function within a class?

I have this code which calculates the distance between two coordinates. The two functions are both within the same class.

However, how do I call the function `distToPoint` in the function `isNear`?

``````class Coordinates:
def distToPoint(self, p):
"""
Use pythagoras to find distance
(a^2 = b^2 + c^2)
"""
...

def isNear(self, p):
distToPoint(self, p)
...
``````

Since these are member functions, call it as a member function on the instance, `self`.

``````def isNear(self, p):
self.distToPoint(p)
...
``````
• But be careful self.foo() will use the method resolution order which might resolve to a function in a different class. Jan 17, 2014 at 20:55
• What happens if we dont use self? and directly call distToPoint(p)? Aug 16, 2016 at 4:30
• @Marlon Abeykoon the "self" argument will be missing Nov 27, 2016 at 13:10
• What if isNear and distToPoint are taking different arguments. Then How can we call distToPoint which is inside the class? Anyone can explain that for me please. Feb 7, 2019 at 8:46

That doesn't work because `distToPoint` is inside your class, so you need to prefix it with the classname if you want to refer to it, like this: `classname.distToPoint(self, p)`. You shouldn't do it like that, though. A better way to do it is to refer to the method directly through the class instance (which is the first argument of a class method), like so: `self.distToPoint(p)`.

• @Aleski. If it's a generic method (common to all instances and without any instance specific variables referenced in the method), could you please explain why one shouldn't use classname.distToPoint(self, p)? Oct 10, 2018 at 4:04
• @Yugmorf: There's only one situation where one should use `classname.distToPoint(self, p)`: when you're defining a subclass that overrides `distToPoint`, but needs to call the original. If you tried to call `self.distToPoint(p)` like normal in that case, you'd end up calling the method that you're just defining, and get into an infinite recursion. If not inside a class, there's also only one situation where you'd use `classname.distToPoint(obj, p)` instead of `obj.distToPoint(p)`: if obj might be an instance of the subclass, but you need to call the original `distToPoint` defined (continued) Oct 10, 2018 at 13:30
• in `classname` instead of the overridden version in the subclass - but note that this is very hacky and shouldn't be done in general without a very good reason. Note that you break subtype polymorphism when you call a method explicitly through a class (in both of the examples above, you specifically want to do that). So in short: you should only call a method explicitly through a class when you need to circumvent subtype polymorphism for some [good] reason. If the method hasn't been overridden, the two ways are equal, but `self.distToPoint(p)` is shorter and more readable, (continued) Oct 10, 2018 at 13:30
• so you should definitely still use it. Now, getting to the specifics of your question: if your method doesn't use any instance variables, maybe it should be a classmethod instead? You make those by adding `@classmethod` before the method, and after that you won't get an instance (`self`) as the first argument anymore - instead you get the class, so you should name the first argument eg. `cls` instead. After that, you can call the classmethod either like `obj.distToPoint(p)` or `classname.distToPoint(p)` (note the lack of `obj`). You should still probably use (continued) Oct 10, 2018 at 13:31
• `obj.distToPoint(p)`, though, if you just have a relevant instance on your hands, unless - again - you have some [good] reason to circumvent subtype polymorphism, since the classmethod could've been overridden in a subclass too, in general. Of course, if you don't have a relevant instance available, you should by all means call a classmethod directly through a class. Oct 10, 2018 at 13:31

In the OP, `distToPoint()` and `isNear()` are both instance methods and as such, both take a reference to an instance (usually named `self`) as its first argument. When an instance method called directly from the instance, the reference is passed implicitly, so

``````self.distToPoint(p)
``````

works.

If you want to call an overridden parent method from the child class, then `super()` could/should be used. In the following example, `greet()` method is defined in both `Parent` and `Child` classes and if you want to call `Parent`'s `greet()`, the prescribed way is via `super()`, i.e. `super().greet()`. It's also possible to do it via the class name, i.e. `Parent.greet(self)` but there are many arguments against such hard-coding in favor of `super()` such as flexibility, the ability to use method resolution order correctly etc.

``````class Parent:
def greet(self):
print("greetings from Parent!")

def parent_printer(self):
print("this is parent printer")

class Child(Parent):
def greet(self, parent=False):
if parent:
super().greet()                 # Parent's greet is called
else:
print("greetings from Child!")

def printer(self, greet=True):
if greet:
self.greet()                    # Child's greet is called
else:
self.parent_printer()           # Parent's parent_printer is inherited

c = Child()
c.greet()                # greetings from Child!
c.greet(parent=True)     # greetings from Parent!
c.printer()              # greetings from Child!
c.printer(greet=False)   # this is parent printer
``````