f is expecting 3 arguments (
z, in that order).
L = [1,2]. When you call
f(3, *L), what python does behind the scenes, is to call
f(3, 1, 2), without really knowing the length of
So what happens if
L was instead
Then, when you call
f(3, *L), you'll end up calling
f(3,1,2,3), which will be an error because
f is expecting exactly 3 arguments and you gave it 4.
L=[1,2]1. Look at what happens when you callf`:
>>> f(3,*L) # works fine
>>> f(*L) # will give you an error when f(1,2) is called; insufficient arguments
Now, you implicitly know when you call
f(*L, 3) that 3 will be assigned to
z, but python doesn't know that. It only knows that the last
j many elements of the input to
f will be defined by the contents of
L. But since it doesn't know the value of
len(L), it can't make assumptions about whether
f(*L,3) would have the correct number of arguments.
This however, is not the case with
f(3,*L). In this case, python knows that all the arguments EXCEPT the first one will be defined by the contents of
But if you have named arguments
f(x=1, y=2, z=3), then the arguments being assigned to by name will be bound first. Only then are the positional arguments bound. So you do
f(*L, z=3). In that case,
z is bound to
3 first, and then, the other values get bound.
Now interestingly, if you did
f(*L, y=3), that would give you an error for trying to assign to
y twice (once with the keyword, once again with the positional)
Hope this helps