Functions are easy to understand even for someone without any programming experience, but with a fair math background. On the other hand, classes seem to be more difficult to grasp.

Let's say I want to make a class/function that calculates the age of a person given his/her birthday year and the current year. Should I create a class for this, or a function? Or is the choice dependant to the scenario?

P.S. I am working on Python, but I guess the question is generic.

  • Classes are for bigger product. In simple terms, thinking of nut and bolt of a car as objects, while even car is an object too. If you are writing sample programs for fun, stick with functions. – Saran-san Aug 13 '13 at 7:17
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    I wrote up my thoughts here – Toby May 1 '14 at 19:15
up vote 71 down vote accepted

Create a function. Functions do specific things, classes are specific things.

Classes often have methods, which are functions that are associated with a particular class, and do things associated with the thing that the class is - but if all you want is to do something, a function is all you need.

Essentially, a class is a way of grouping functions (as methods) and data (as properties) into a logical unit revolving around a certain kind of thing. If you don't need that grouping, there's no need to make a class.

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    This is not exactly true. Classes also allow for dispatching on types. If you have a group or template of collaborating functions it may well be a one shot execution but nevertheless using a class buys you the possibility of selectively implementing different functions in the group in order to get specializations of the template. This is not so easily done by plain functions, because there is no type to act as a link between them and to allow specialization on subtypes... – memeplex Mar 1 '16 at 7:08
  • ... Forcing your logic, you can include the class functions (for example as a vtable) as part of the state or data of the instance. The functions themselves are not stored within the instance but some sort of indirect reference to them instead. So the bottom line is that you may have no data (besides a pointer to a vtable), you may have no more than an instance, but still a class could be a good idea if you need to implement a family of related algorithms consisting of collaborating functions. – memeplex Mar 1 '16 at 7:09
  • To summarize: a class groups functions and data. There is no benefit to this under any circumstance. We have functions and data types and modules to group them together. Even if you need adhoc function polymorphism: different function implementations for different data types, there are much better solutions than OOP classes; consider Haskell-style type classes which are ultimately language agnostic. – clay May 23 '16 at 15:46

Like what Amber says in her answer: create a function. In fact when you don't have to make classes if you have something like:

class Person(object):
    def __init__(self, arg1, arg2):
        self.arg1 = arg1
        self.arg2 = arg2

    def compute(other):
        """ Example of bad class design, don't care about the result """
        return self.arg1 + self.arg2 % other

Here you just have a function encapsulate in a class. This just make the code less readable and less efficient. In fact the function compute can be written just like this:

def compute(arg1, arg2, other):
     return arg1 + arg2 % other

You should use classes only if you have more than 1 function to it and if keep a internal state (with attributes) has sense. Otherwise, if you want to regroup functions, just create a module in a new .py file.

You might look this video (Youtube, about 30min), which explains my point. Jack Diederich shows why classes are evil in that case and why it's such a bad design, especially in things like API.
It's quite long but it's a must see

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    If you need 100 functions, write 100 functions. I don't see a need or benefit to classes at all. Unless you are stuck in the OOP mind of thinking. – clay May 21 '16 at 21:30

Classes (or rather their instances) are for representing things. Classes are used to define the operations supported by a particular class of objects (its instances). If your application needs to keep track of people, then Person is probably a class; the instances of this class represent particular people you are tracking.

Functions are for calculating things. They receive inputs and produce an output and/or have effects.

Classes and functions aren't really alternatives, as they're not for the same things. It doesn't really make sense to consider making a class to "calculate the age of a person given his/her birthday year and the current year". You may or may not have classes to represent any of the concepts of Person, Age, Year, and/or Birthday. But even if Age is a class, it shouldn't be thought of as calculating a person's age; rather the calculation of a person's age results in an instance of the Age class.

If you are modelling people in your application and you have a Person class, it may make sense to make the age calculation be a method of the Person class. A method is basically a function which is defined as part of a class; this is how you "define the operations supported by a particular class of objects" as I mentioned earlier.

So you could create a method on your person class for calculating the age of the person (it would probably retrieve the birthday year from the person object and receive the current year as a parameter). But the calculation is still done by a function (just a function that happens to be a method on a class).

Or you could simply create a stand-alone function that receives arguments (either a person object from which to retrieve a birth year, or simply the birth year itself). As you note, this is much simpler if you don't already have a class where this method naturally belongs! You should never create a class simply to hold an operation; if that's all there is to the class then the operation should just be a stand-alone function.

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    Classes may model complex computations based on a group of collaborating functions. If you have a template for an algorithm you may represent the placeholders as methods. Then subtyping will allow you to specialize some of the methods to get an extensible family of implementations. Remember that polymorphic class instances always have at least some data: a vtable of some sort. So it's not true that classes are for concepts and functions are for computations. – memeplex Mar 1 '16 at 7:19
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    You can define Person as a namedtuple and write whatever functions you need. – clay May 21 '16 at 21:31

It depends on the scenario. If you only what to compute the age of a person, then use a function since you want to implement a single specific behaviour.

But if you want to create an object, that contains the date of birth of a person(and possibly other data), allows to modify it, then computing the age could be one of many operations related to the person and it would be sensible to use a class instead.

Classes provide a way to merge together some data and related operations. If you have only one operation on the data then using a function and passing the data as argument you obtain an equivalent behaviour, with less complex code.

Note that a class of the kind:

class A(object):
    def __init__(self, ...):
    def a_single_method(self, ...):
        #do stuff

isn't really a class, it is only a (complicated)function. A legitimate class should always have at least two methods(without counting __init__).

  • I hadn't previously thought of classes around just one method as unnecessarily complicated (I agree that they are, I'm just sometimes on auto-OOPilot when coding), but just discovered pylint which will flag it as a warning if you have fewer than two (public) methods on your class. Makes perfect sense once I actually stop to think about it. – dwanderson Aug 13 '15 at 23:32
  • In your example, if you want a Person record that you can modify and calculate values like age from, I would prefer using a Person record (namedtuple in Python) and writing whatever functions you need. – clay May 21 '16 at 21:28

Never create classes. At least the OOP kind of classes in Python being discussed.

Consider this simplistic class:

class Person(object):
    def __init__(self, id, name, city, account_balance): = id = name = city
        self.account_balance = account_balance

    def adjust_balance(self, offset):
        self.account_balance += offset

if __name__ == "__main__":
    p = Person(123, "bob", "boston", 100.0)
    print("done!: {}".format(p.__dict__))

vs this namedtuple version:

from collections import namedtuple

Person = namedtuple("Person", ["id", "name", "city", "account_balance"])

def adjust_balance(person, offset):
    return person._replace(account_balance=person.account_balance + offset)

if __name__ == "__main__":
    p = Person(123, "bob", "boston", 100.0)
    p = adjust_balance(p, 50.0)
    print("done!: {}".format(p))

The namedtuple approach is better because:

  • namedtuples have more concise syntax and standard usage.
  • In terms of understanding existing code, namedtuples are basically effortless to understand. Classes are more complex. And classes can get very complex for humans to read.
  • namedtuples are immutable. Managing mutable state adds unnecessary complexity.
  • class inheritance adds complexity, and hides complexity.

I can't see a single advantage to using OOP classes. Obviously, if you are used to OOP, or you have to interface with code that requires classes like Django.

BTW, most other languages have some record type feature like namedtuples. Scala, for example, has case classes. This logic applies equally there.

  • 1
    Downvoting. The namedtuple approach you're advocating doesn't appear to offer any method encapsulation or data hiding (unless I'm missing something). These are two major advantages of a true OO approach: you can package data along with the functions that act on it, and you can maintain private state in an object. If you're not doing that, then you're just reinventing OOP poorly, and the code will be harder to work with, not easier. – Marnen Laibow-Koser Jan 21 at 7:48

Before answering your question:

If you do not have a Person class, first you must consider whether you want to create a Person class. Do you plan to reuse the concept of a Person very often? If so, you should create a Person class. (You have access to this data in the form of a passed-in variable and you don't care about being messy and sloppy.)

To answer your question:

You have access to their birthyear, so in that case you likely have a Person class with a someperson.birthdate field. In that case, you have to ask yourself, is someperson.age a value that is reusable?

The answer is yes. We often care about age more than the birthdate, so if the birthdate is a field, age should definitely be a derived field. (A case where we would not do this: if we were calculating values like someperson.chanceIsFemale or someperson.positionToDisplayInGrid or other irrelevant values, we would not extend the Person class; you just ask yourself, "Would another program care about the fields I am thinking of extending the class with?" The answer to that question will determine if you extend the original class, or make a function (or your own class like PersonAnalysisData or something).)

  • Let's say you want a Person "type". Why would you want to use a "class" vs just a record type or a defined named tuple? OOP is based on classes, people are used to that, but stylistically many prefer simpler types. – clay May 21 '16 at 21:25

i know it is a controversial topic, and likely i get burned now. but here are my thoughts.

For myself i figured that it is best to avoid classes as long as possible. If i need a complex datatype I use simple struct (C/C++), dict (python), JSON (js), or similar, i.e. no constructor, no class methods, no operator overloading, no inheritance, etc. When using class, you can get carried away by OOP itself (What Design pattern, what should be private, bla bla), and loose focus on the essential stuff you wanted to code in the first place.

If your project grows big and messy, then OOP starts to make sense because some sort of helicopter-view system architecture is needed. "function vs class" also depends on the task ahead of you.


  • purpose: process data, manipulate data, create result sets.
  • when to use: always code a function if you want to do this: “y=f(x)”

struct/dict/json/etc (instead of class)

  • purpose: store attr./param., maintain attr./param., reuse attr./param., use attr./param. later.
  • when to use: if you deal with a set of attributes/params (preferably not mutable)
  • different languages same thing: struct (C/C++), JSON (js), dict (python), etc.
  • always prefer simple struct/dict/json/etc over complicated classes (keep it simple!)

class (if it is a new data type)

  • a simple perspective: is a struct (C), dict (python), json (js), etc. with methods attached.
  • The method should only make sense in combination with the data/param stored in the class.
  • my advice: never code complex stuff inside class methods (call an external function instead)
  • warning: do not misuse classes as fake namespace for functions! (this happens very often!)
  • other use cases: if you want to do a lot of operator overloading then use classes (e.g. your own matrix/vector multiplication class)
  • ask yourself: is it really a new “data type”? (Yes => class | No => can you avoid using a class)

array/vector/list (to store a lot of data)

  • purpose: store a lot of homogeneous data of the same data type, e.g. time series
  • advice#1: just use what your programming language already have. do not reinvent it
  • advice#2: if you really want your “class mysupercooldatacontainer”, then overload an existing array/vector/list/etc class (e.g. “class mycontainer : public std::vector…”)

enum (enum class)

  • i just mention it
  • advice#1: use enum plus switch-case instead of overcomplicated OOP design patterns
  • advice#2: use finite state machines
  • except that namespacing is important. Functional closures can privatize namespaces most of the time, but not always. The primary use of classes is to support collective (namespace-centric) templating, extensions and DRY-driven polymorphism. – cowbert Oct 26 '17 at 16:04

I'm going to break from the herd on this one and provide an alternate point of view:

Never create classes.

Reliance on classes has a significant tendency to cause coders to create bloated and slow code. Classes getting passed around (since they're objects) take a lot more computational power than calling a function and passing a string or two. Proper naming conventions on functions can do pretty much everything creating a class can do, and with only a fraction of the overhead and better code readability.

That doesn't mean you shouldn't learn to understand classes though. If you're coding with others, people will use them all the time and you'll need to know how to juggle those classes. Writing your code to rely on functions means the code will be smaller, faster, and more readable. I've seen huge sites written using only functions that were snappy and quick, and I've seen tiny sites that had minimal functionality that relied heavily on classes and broke constantly. (When you have classes extending classes that contain classes as part of their classes, you know you've lost all semblance of easy maintainability.)

When it comes down to it, all data you're going to want to pass can easily be handled by the existing datatypes.

Classes were created as a mental crutch and provide no actual extra functionality, and the overly-complicated code they have a tendency to create defeats the point of that crutch in the long run.

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    Just going to say... "A downvote without a comment is the sign of someone who doesn't like what they're hearing, but has no rebuttal," and is often the sign that someone has a hard time swallowing a difficult truth. – liljoshu Mar 2 '16 at 23:46
  • Downvoting with a comment, then. Classes exist to encapsulate and manage complexity. They provide lots of actual functionality, starting with data hiding and packaging methods together with the data they act on. Breaking your code up into classes will make your code more readable, not less. Basically, you're completely wrong here for all but the smallest systems. – Marnen Laibow-Koser Jan 21 at 7:52
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    I'm quite familiar with functional programming, and what you described isn't it. :) Did you mean modular programming? Also, note that I was referring to encapsulating methods, not just packaging them (the difference has to do with visibility). Anyway, whatever the name, it sounds like you were working in a language with poor class support—what language was it? (Different languages have very different notions of classes.) Also, what do you mean by n1 and n4? I'm not familiar with those terms, and a search yielded nothing useful without further context. – Marnen Laibow-Koser Jan 28 at 16:55
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    According to Wikipedia, Simula 67 (generally considered the first or second OO language in history) had classes, and (I think) encapsulation. Also, OO was originally designed to model simulations and processes, not for reuse. So again, I think you don't have your facts straight. – Marnen Laibow-Koser Apr 19 at 4:17
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    "Most languages, for most non-internal functions, make a copy, that's why they come out as assignments. IF you did a var X = something(Y), Y is generally unaffected by whatever 'something' is, this is because something() will make a copy of Y." Again, depends on the language. Some languages have pass-by-value, some have pass-by-reference, and some support both. In Ruby or Java, the code you posted would pass by reference in most cases. In C, it would pass by value. In C++, it might do either. – Marnen Laibow-Koser Apr 19 at 4:24

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