# What exactly is meant by “partial function” in functional programming?

According to my understanding, partial functions are functions that we get by passing fewer parameters to a function than expected. For example, if this were directly valid in Python:

``````>>> def add(x,y):
...    return x+y
...
>>> new_function(2)
3
``````

In the snippet above, `new_function` is a partial function. However, according to the Haskell Wiki, the definition of partial function is

A partial function is a function that is not defined for all possible arguments of the specified type.

so, my question is: what exactly is meant by "partial function"?

• You are confusing a partially applied function with a partial function. – Willem Van Onsem Oct 11 at 10:13
• Python's `partial` performs partial application, whereas Haskell does that automatically. The wiki entry refers to partial functions, which is a term from mathematics. – L3viathan Oct 11 at 10:15
• Strictly speaking, Haskell doesn't do partial function application. Every function takes one argument, and function application applies a function to a single argument. Currying simulates what you would think of as partial application in another language by simulating multiple-argument functions in the first place. Something like `add 3 5` isn't a single function application. This first applies `add` to 3 to get a new function, which is then applied to 5. – chepner Oct 11 at 11:19
• And in C#, a `partial` method is a forward declaration of an optionally implemented private method elsewhere in the project codebase. – Dai Oct 12 at 2:01
• Your example could be made valid: `new_function = functools.partial(add, 1)` – wjandrea Oct 12 at 2:21

You are here confusing two concepts. A partially applied function [haskell-wiki] with a partial function [haskell-wiki].

A partially applied function is:

Partial application in Haskell involves passing less than the full number of arguments to a function that takes multiple arguments.

whereas a partial function indeed is a non-total function:

A partial function is a function that is not defined for all possible arguments of the specified type.

• This is a good answer, but it could be improved by adding an example of a partial function to the answer itself. – ApproachingDarknessFish Oct 13 at 6:00
• I'm not sure I agree with that exact definition of a partially applied function. Functions in Haskell always only take one argument, never "multiple arguments". I would use the definition "partial application (partially applying functions) in Haskell involves supplying fewer than the full number of arguments needed to obtain a value that cannot be further applied to another argument." (adapted from here) – TerryA Oct 14 at 0:50

A partial function (both in the context of functional programming and mathematics) is exactly what the wiki says: a function not defined for all of its possible arguments. In the context of programming, we usually interpret "not defined" as one of several things, including undefined behaviour, exceptions or non-termination.

An example of a partial function would be integer division, which is not defined if the divisor is 0 (in Haskell it will throw an error).

in above snippet new_function is partial function.

That code would simply cause an error in Python, but if it worked as you intended, it would be a total (meaning not partial) function.

As commentors already pointed out, you're most likely thinking of the fact that it'd be a partially applied function.

The answers explain all, I will just add one example in each language:

``````def add(x,y):
return x+y

print(f(3))

TypeError: add() missing 1 required positional argument: 'y'
``````

this is neither a partial function nor a curried function, this is only a function that you didn't gave all its arguments.

A curried function in python should be like this:

``````partialAdd= lambda x: lambda y: x + y

print(plusOne(3))

4
``````

``````plus :: Int -> Int -> Int
plus x y = x + y

plusOne = plus 1

plusOne 4

5
``````

A partial function in python:

``````def first(ls):
return ls

print(first([2,4,5]))
print(first([]))
``````

output

``````2

print(first([]))
File "main.py", line 2, in first
return ls
IndexError: list index out of range
``````

``````head [1,2,3]
3

``````

So what is a total function?

Well, basically the opposite: this is a function that will work for any input of that type. Here is an example in python:

``````def addElem(xs, x):
xs.append(x)
return xs
``````

and this works even for infinite lists, if you use a little trick:

``````def infiniList():
count = 0
ls = []
while True:
yield ls
count += 1
ls.append(count)

ls = infiniList()
for i in range(5):
rs = next(ls)

[1, 2, 3, 4]
[1, 2, 3, 4, 5] [1, 2, 3, 4, 5]
``````

``````addElem :: a -> [a] -> [a]