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Is it possible to have a list be evaluated lazily in Python?

For example

a = 1
list = [a]
print list
a = 2
print list

If the list was set to evaluate lazily then the final line would be [2]

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This isn't what I've understood lazy evaluation to be. I'd say it's more like this: we want to find the first 30 positive numbers whose square is divisible by 3. With an eager language, you either code for performance - while(list.length < 30) if(i*i % 3 == 0) list += i++; or expressiveness (but throwing away huge unnecessary lists along the way) - list1 = range 0..10000; for i in list1 if i * i % 3 == 0 list2.add i; list2.trim(30). With lazy you write something more like the latter, but get the performance of the former. Daniel Tao explains it brilliantly. – Robert Grant Aug 14 '14 at 11:39
A lazy way might look like this: range().filter(var where var*var % 3 == 0).take(30) - it's written very expressively, but the code isn't run imperatively. It's run: range generates 1. Filter - fails because 1*1%3 != 0. Then range generates 2. Filter fails. Then range generates 3. Filter passes because 3*3%3==0. Take queues it as an answer. After take has taken 30, the algorithm stops. It only uses as much memory as it needs to, but it's also highly readable (and parallelisable) code. – Robert Grant Aug 14 '14 at 11:46

2 Answers 2

up vote 8 down vote accepted

The concept of "lazy" evaluation normally comes with functional languages -- but in those you could not reassign two different values to the same identifier, so, not even there could your example be reproduced.

The point is not about laziness at all -- it is that using an identifier is guaranteed to be identical to getting a reference to the same value that identifier is referencing, and re-assigning an identifier, a bare name, to a different value, is guaranteed to make the identifier refer to a different value from them on. The reference to the first value (object) is not lost.

Consider a similar example where re-assignment to a bare name is not in play, but rather any other kind of mutation (for a mutable object, of course -- numbers and strings are immutable), including an assignment to something else than a bare name:

>>> a = [1]
>>> list = [a]
>>> print list
>>> a[:] = [2]
>>> print list

Since there is no a - ... that reassigns the bare name a, but rather an a[:] = ... that reassigns a's contents, it's trivially easy to make Python as "lazy" as you wish (and indeed it would take some effort to make it "eager"!-)... if laziness vs eagerness had anything to do with either of these cases (which it doesn't;-).

Just be aware of the perfectly simple semantics of "assigning to a bare name" (vs assigning to anything else, which can be variously tweaked and controlled by using your own types appropriately), and the optical illusion of "lazy vs eager" might hopefully vanish;-)

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Python is not really very lazy in general.

You can use generators to emulate lazy data structures (like infinite lists, et cetera), but as far as things like using normal list syntax, et cetera, you're not going to have laziness.

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