An assignment in python never ever creates a copy (it is technically possible only if the assignment for a class member is redefined for example by using
__setattr__, properties or descriptors).
a = foo()
b = a
whatever was returned from
foo has not been copied, and instead you have two variables
b pointing to the same object. No matter if the object is immutable or not.
With immutable objects however it's hard to tell if this is the case (because you cannot mutate the object using one variable and check if the change is visible using the other) so you are free to think that indeed
b cannot influence each other.
For some immutable objects also Python is free to reuse old objects instead of creating new ones and after
a = x + y
b = x + y
y are numbers (so the sum is a number and is immutable) may be that both
b will be pointing to the same object. Note that there is no such a guarantee... it may also be that instead they will be pointing to different objects with the same value.
The important thing to remember is that Python never ever makes a copy unless specifically instructed to using e.g.
deepcopy. This is very important with mutable objects to avoid surprises.
One common idiom you can see is for example:
def __init__(self, pts):
self.pts = pts[:]
In this case
self.pts = pts[:] is used instead of
self.pts = pts to make a copy of the whole array of points to be sure that the point list will not change unexpectedly if after creating the object changes are applied to the list that was passed to the constructor.