3

In its essence, I do this:

a = True
b = False
ls = [a, b]

a = False

print(ls)
> [True, False]

And what happens is that whatever happens to a is decoupled from the list after the first inclusion. Is there any way to update a and also have the list updating itself, in a clean way?

Of course I could simply do ls[0] = False and be done. But in a large project, with many moving parts, I'd like to avoid non-descriptive bracket indexing.

I assume I could do some messy construct of an instantiated class, and then iterate over the attributes, but that sounds like messy business. Or is it?

  • 4
    ls is a tuple and tuples are immutable. Changing it to a list does not solve the problem but you can't expect a tuple to update. – Ev. Kounis Sep 13 '18 at 8:07
  • There are concepts like copy and deepcopy in Python. – Raviteja Ainampudi Sep 13 '18 at 8:08
  • a is a name for an object. If you assign to a you don't change the object you change what a references. – Peter Wood Sep 13 '18 at 8:09
  • 3
    In short: no. Assignment to a symbol (variable name) only ever affects that symbol. Unless you mutate mutable objects, such effects never propagate. – deceze Sep 13 '18 at 8:10
  • 1
    @barny tuples are immutable and more appropriate for heterogeneous data. Lists are more appropriate for homogeneous data. – Peter Wood Sep 13 '18 at 8:14
4

If you want to avoid indexing and have easy to read attributes then you could just use a class that has class attributes:

class Data:
    a = True

and keep multiple references to it:

data = Data
data2 = Data  # or similarly data2 = data

data.a = False
print(data2.a)
# False

Note that if you instantiate the class you'll need to keep a reference to the instance rather than the class as the original class won't be updated anymore:

data = Data()
data2 = data

data.a = 123
print(data2.a)
# 123

# original class remains unchanged
print(Data().a)
# True

From Python 3.7 you can use a dataclass, which makes instantiate with custom data simpler:

from dataclasses import dataclass

@dataclass
class Data:
    a = True

data = Data(a=False)
data2 = data
print(data2.a)
# False

Finally, if you do care about variable states then there's a good chance you'll be working in a class anyway, in which case you could use a property:

class SomeClass:
    def __init__(self):
        self.a = False
        self.b = True

    @property
    def ls(self):
        return self.a, self.b

some_class = SomeClass()
some_class.a = True
print(some_class.ls)
# True, True
  • 1
    It's probably worth noting that this only works in Py >= 3.7 – roganjosh Sep 13 '18 at 8:26
  • This is probably the densest approach, coupled with an __iter__: yield method to make it list-like. – komodovaran_ Sep 13 '18 at 8:52
0

I suggest you this quite simple solution defining ls as a function instead of a simple list. In this way, ls() will always returns the updated values of aand b. The code is very close to your original code:

a = True
b = False

ls = lambda:[a,b]

a = False
print(ls())  # [False, False]

b = True
print(ls())  # [False, True]

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