Higher-order functions in Python allows you to manipulate functions for increasing the flexibility and re-usability of your code. You can create higher-order functions using nested scopes or callable objects.
Additionally, the functools module provides utilities for working with higher-order functions, making it easier to create decorators and other function-manipulating constructs. This tutorial will explore the concept of higher-order functions in Python and demonstrate how to create them.
What is a Higher-Order Function?
A higher-order function is a function that either, takes one or more functions as arguments or returns a function as its result. Below you can observe the some of the properties of the higher-order function in Python −
- A function can be stored in a variable.
- A function can be passed as a parameter to another function.
- A high order functions can be stored in the form of lists, hash tables, etc.
- Function can be returned from a function.
To create higher-order function in Python you can use nested scopes or callable objects. Below we will discuss about them briefly.
Creating Higher Order Function with Nested Scopes
One way to defining a higher-order function in Python is by using nested scopes. This involves defining a function within another function and returns the inner function.
Example
Let’s observe following example for creating a higher order function in Python. In this example, the multiplier function takes one argument, a, and returns another function multiply, which calculates the value a * b
defmultiplier(a):# Nested function with second number defmultiply(b):# Multiplication of two numbers return a * b
return multiply
# Assigning nested multiply function to a variable
multiply_second_number = multiplier(5)# Using variable as high order function
Result = multiply_second_number(10)# Printing result print("Multiplication of Two numbers is: ", Result)
Output
On executing the above program, you will get the following results −
Multiplication of Two numbers is: 50
Creating Higher-Order Functions with Callable Objects
Another approach to create higher-order functions is by using callable objects. This involves defining a class with a __call__ method.
Example
Here is the another approach to creating higher-order functions is using callable objects.
classMultiplier:def__init__(self, factor):def__call__(self, x):return self.factor * x # Create an instance of the Multiplier class multiply_second_number = Multiplier(2)# Call the Multiplier object to computes factor * x Result = multiply_second_number(100)# Printing result print("Multiplication of Two numbers is: ", Result)self.factor = factor
Output
On executing the above program, you will get the following results −
Multiplication of Two numbers is: 200
Higher-order functions with the ‘functools’ Module
The functools module provides higher-order functions that act on or return other functions. Any callable object can be treated as a function for the purposes of this module.
Working with Higher-order functions using the wraps()
In this example, my_decorator is a higher-order function that modifies the behavior of invite function using the functools.wraps() function.
import functools
defmy_decorator(f):@functools.wraps(f)defwrapper(*args,**kwargs):print("Calling", f.__name__)return f(*args,**kwargs)return wrapper
@my_decoratordefinvite(name):print(f"Welcome to, {name}!")
invite("Tutorialspoint")
Output
On executing the above program, you will get the following results −
Calling invite Welcome to, Tutorialspoint!
Working with Higher-order functions using the partial()
The partial() function of the functools module is used to create a callable ‘partial’ object. This object itself behaves like a function. The partial() function receives another function as argument and freezes some portion of a functions arguments resulting in a new object with a simplified signature.
Example
In following example, a user defined function myfunction() is used as argument to a partial function by setting default value on one of the arguments of original function.
import functools defmyfunction(a,b):return a*b partfunction = functools.partial(myfunction,b =10)print(partfunction(10))
Output
On executing the above program, you will get the following results −
100
Working with Higher-order functions using the reduce()
Similar to the above approach the functools module provides the reduce()function, that receives two arguments, a function and an iterable. And, it returns a single value. The argument function is applied cumulatively two arguments in the list from left to right. Result of the function in first call becomes first argument and third item in list becomes second. This is repeated till list is exhausted.
Example
import functools
defmult(x,y):return x*y
# Define a number to calculate factorial
n =4
num = functools.reduce(mult,range(1, n+1))print(f'Factorial of {n}: ',num)
Output
On executing the above program, you will get the following results −
Factorial of 4: 24
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