The question is here: Double Iteration in List Comprehension
I had hammered it with what I consider canonical: How can I use list comprehensions to process a nested list?
The question seems to have been reopened (by vote) a few days after my closure. Specifically, it appears that OP requested to have it reopened, and then it got two "leave closed" votes and two "reopen" votes from review. I wasn't notified about the reopening (as I'm sure is normally the case).
I think it is the same question because, in the first case, OP wanted to perform fundamentally the same task: iterate over an input which is a nested list, using a "nested" list comprehension. I had been trying to establish the proposed duplicate as a general technique canonical - showing how to nest list comprehensions, choose the appropriate form of nesting for the problem, and then apply whatever transformation.
My refutation of the arguments against closure:
"The other question is particularly about transforming elements in nested lists, this question is about internal dependencies of multiple iterators within list comprehensions."
The important thing when working with list comprehensions is the actual iteration. The "transforming elements" part simply meant calling float on each one as they're iterated over, which is not particularly interesting. More to the point, it seems absurd to say that "How do I use float() to convert each element in a nested list to float?" "How do I use int() to convert each element in a nested list to int?" etc. are separate questions. (In fact, for the case of a simple list, we already have Apply function to each element of a list, which in my mind is still not broad enough - a list comprehension can incorporate an expression in terms of the iteration variable, not just a function call.)
At any rate, understanding the "internal dependencies of multiple iterators" bit is crucial to the problem regardless, and thoroughly explained by the answers on the second question.
While it's true that the first question doesn't ask about any transformation, the capacity for transforming the elements is inherent to list comprehensions. They're unavoidable; in the case of the first question, we're simply specifying the identity transformation.
(Of note: we also have a much more established canonical about flattening a list of lists - which can be phrased as "iterating, performing no transformation and producing a flat result". However, there are other approaches to that problem besides list comprehensions, which may have performance or other advantages; both questions discussed here specifically asked about list comprehensions exclusively.)
I don't know who closed this question as duplicate of another question that is 4 years younger than this. If at all the other question would be the duplicate.
It's well established that question age is irrelevant here. I think the answers on the proposed duplicate are much more detailed and higher quality overall (I mean, just look at that beautiful animated GIF). The proposed duplicate focuses on the same interpretation of a "nested" list comprehension as in the first question ([cell for row in grid for cell in row]), but also describes the other reasonable interpretation ([[cell for cell in row] for row in grid]; note that a different order is necessary in order to make a nested result vs. a flat result). While this could be argued to represent a lack of focus, the question attracted excellent answers for both issues; and someone with either problem might phrase it the same way - I would prefer not to have people find the "wrong" version of the question by chance with Stack Overflow and then conclude that the "right" one isn't there.
