When should I write my functions in curried form? does not match my thought, need to correct myself.

As part of my learning link, this is what I understand from function currying. Below is one example:

```
def curry2(f):
"""Returns a function g such that g(x)(y) == f(x, y)
>>> from operator import add
>>> add_three = curry2(add)(3)
>>> add_three(4)
"""
def g(x):
def h(y):
return f(x, y)
return h
return g
```

In any application, if I know that the number of arguments are fixed (say 2 arguments) and
function name is `normalise_range`

(say), then I will define `def normalise_range(x, y):`

function and use it in my application directly by calling `normalise_range(x, y)`

.

In any application, if I know that, the number of arguments are fixed (say 2 arguments),
but the function name is varying (can be `normalise_range`

/`average`

/I don't know..),
then I will use `def curry2(f):`

as shown above, which will accept all functions that take two arguments (fixed).

My question:

- Is my understanding correct?
- If yes, can we think of currying for functions of variable number of arguments?

`curry2(f)`

, you could call`f(x, y)`

just fine without currying it. – user2357112 Jul 22 '14 at 8:11`Function Currying`

and`partial application`

– overexchange Aug 3 '14 at 8:41