+ 3

Working of *(arg1, arg2) in python in function call.

>>def f(a, b): print a, b >>f(a=1, *(2, )) error: f() has got multiple values for a >>f(1, *(2, )) 1 2 >>f( *(1,2)) 1 2 >>f(a=1, *( ,2)) error: invalid syntax ------>>>>> can someone please explain all these 4 cases and its output. also, please explain the working behind the *( arg1, arg2). and *(arg1, ).?????? thanx in advance. :-)

18th Apr 2017, 6:15 AM
Atul Anand Jha
Atul Anand Jha - avatar
5 odpowiedzi
+ 6
While testing I found this text related to "variable unpacking", which is faster: http://caisbalderas.com/blog/JUMP_LINK__&&__python__&&__JUMP_LINK-function-unpacking-args-and-kwargs/ Specifically: "arbitrary arguments will try to >>fill function arguments in order<< therefore may conflict with named arguments". That's what's wrong in your first test. Test 2 is an unnamed argument + a single-value tuple. I believe this allows Python to apply all of them as a single expansion, leading to no conflict. Notice the linked example: assert(z=2, *t) succeeds. z is third in line; the 2-value tuple tries to expand into the first arguments (x, y) and never clobbers z. Your third example is just star expansion, working as designed; starting at parameter 1 and filling to the right. Example 4 is an invalid tuple; (,2) is a syntax error--unrelated to star expansion.
19th Apr 2017, 4:29 PM
Kirk Schafer
Kirk Schafer - avatar
+ 4
I'll be able to answer more; mobile's just slow. Take a look at this related example: def expander(*vars): ... for var in vars: ... print(var) ... >>> expander(1,2,3,4) 1 2 3 4 Edit: This was intended to show "expansion" of a variable that collects multiple values.
19th Apr 2017, 3:26 PM
Kirk Schafer
Kirk Schafer - avatar
+ 4
I'm working on it--I have to edit in another app; I don't think you're following 'star syntax' rules and I'm trying to prove it without a lot of text.
19th Apr 2017, 4:03 PM
Kirk Schafer
Kirk Schafer - avatar
+ 1
but...I am not getting its connection with my question.
19th Apr 2017, 4:00 PM
Atul Anand Jha
Atul Anand Jha - avatar
+ 1
oh thanks..@ kirk. now this is something understandable to me.
20th Apr 2017, 9:51 AM
Atul Anand Jha
Atul Anand Jha - avatar