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Say, for example, that I set x = [1,2,3], and then set temp = x.

Then, because x and temp are referring to the same value, if we do temp.reverse(), both temp and x are reversed.

Why, then, if we set x = [1,2,3] and set temp = x , and then temp = [7,8,9], is x not still equal to temp (x = [1,2,3] and temp = [7,8,9])? We've still modified temp, but unlike in the above example, the alias does not stick. Why is this?

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    No you did not modified the object tmp refers to, you modified the reference of tmp... Mar 16, 2017 at 15:29
  • The object behind the variable temp is not modified by assignment to temp. The statement "temp = some_new_value" (re)binds the name temp to a new object, leaving the old object, if any, intact.
    – Leon
    Mar 16, 2017 at 15:31
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    Changing by mutating (.reverse()) is different than changing by rebinding (x = ...). See Facts and Myths about Python Names and Values for more details. Mar 16, 2017 at 15:43
  • @NedBatchelder I think I understand that. But why, when you're creating a clone, does changing the thing of which you made a clone, not affect the clone itself? For example, if a = [1,2,3] and b = a[:], and then we set a.append(4), why is it that b = [1,2,3]? Surely, since b refers to a[:] which refers to a, changing a changes a[:] which changes b. Why is this not the case?
    – alexqwx
    Mar 16, 2017 at 20:58
  • a[:] does not refer to a. It used a to create an entirely new list that has no relationship to a. Just like 2+2 is 4, and has no connection to 2 any more. Mar 16, 2017 at 23:47

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