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This question got me thinking: should we apply the principle that "flat is better than nested" to data as well as to code? Even when there is a "logical tree structure" to the data?

In this case, I suppose it would mean representing children as a list of IDs, rather than an actual list of children, with all the nodes in a single list:

[ {'id': 4, 'children': ()},
  {'id': 2, 'children': (1, 7)},
  {'id': 1, 'children': (6, 5)},
  {'id': 6, 'children': ()},
  {'id': 5, 'children': ()},
  {'id': 7, 'children': (3,)},
  {'id': 3, 'children': ()} ]

(I used tuples because I prefer not to give myself the flexibility to mutate an object until that flexibility proves itself to be useful and usable in a clear manner. In any case I would never use None here instead of an empty sequence, because it complicates the logic, and "special cases aren't special enough" - here, it isn't special at all.)

Certainly this is shorter, but the tree structure is obscured. Does that contradict "explicit is better than implicit"?

Personally I find that "flat is better than nested" is of limited applicability, and nowhere near the most important aspect of the Zen. (Certainly I could not do a lot of the nice functional-programming things that I do if I didn't allow myself significant nesting.) I suspect that the problem with "nested" is that it requires context switching when you comprehend the information. I really think this is more of a problem when following imperative logic than for parsing data or functional-style code - where it's easier to just mentally name the nested block, and consider its workings separately from the outer context.

What say you?

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Good question, as the asker of the question you linked I am curious as well. I would prefer not to obscure the tree structure but what you have in your post would certainly simplify the approach for performing an operation on each node in the tree. Looking forward to seeing what others think. – Andrew Clark Dec 7 '10 at 0:19
I think you have to bear in mind the context that aphorism was made in. Python allows a certain degree of functional programming, but ambivalently (for instance destructive operations don't return values, closures are subtly broken, etc.) I don't think it would even occur to most people who mainly do pure functional programming to prescriptively say that flat is better than nested. If what I am operating on is a tree, I would rather see it represented as a tree. – T Duncan Smith Dec 7 '10 at 0:22
Terrible question. Conflating data with source code is like comparing an island and the Empire State Building. Yes, the building is located on an island, but that's the only relationship they have. – S.Lott Dec 7 '10 at 1:02
Not a terrible question at all. It's good to think laterally. And asking questions is rarely terrible. He is asking, not telling, after all. :) – Craig McQueen Dec 7 '10 at 2:08
... OTOH, nesting feels like a big mistake if you later realize that you need a graph structure. :) I've been playing devil's advocate for the flat structure here largely because my gut reaction to the question was "nested, hands down; I don't even really like the principle applied to code all that much, although I understand what it's trying to accomplish". ;) – Karl Knechtel Dec 7 '10 at 5:42
up vote 5 down vote accepted

I wouldn't inherently prefer either, but rather use whatever seems best suited to the task.

If the structure is important, nesting makes life simple. If you're regularly operating over each node, the flat structure makes it easy to use for node in tree. Of course, if you define your own class, its easy enough to abstract it so both options are simple; but it may be harder to use with external systems, such as converting to JSON.

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"Everything should be made as simple as possible, but not simpler." Flat is simpler than nested. If you're dealing with data with relevant nesting, then flattening it probably violates the "but not simpler" part. I took the Zen of Python instead to be encouraging you not to complicate your life with nesting you don't really need, like an XML config file where a simpler flat format might suffice.

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should we apply the principle that "flat is better than nested" to data as well as to code?


Even when there is a "logical tree structure" to the data?

That's what "flat is better than nested" doesn't apply to data. Only to code.

... the tree structure is obscured. Does that contradict "explicit is better than implicit"?

It's not even comparable. The "flat tree" is a common SQL implementation because SQL can't handle indefinite recursion of a proper tree.

Comparing the Zen of Python (the language) with data structure design is nonsensical. The two are no more comparable than than the number "2" and splitting a brick of cheese into "2" pieces. One's a thing, the other's an action.

Data structures are things.

Python describes actions.

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On the other hand, code is a type of data with a structure and syntax, for a particular purpose. Some programming problems can be implemented entirely in code, or in smaller amounts of code with look-up tables (e.g. state machines). So I think it's not so silly to compare code and data. – Craig McQueen Dec 7 '10 at 2:18
@Craig McQueen: While true, it's not helpful. Both code and data are just sequences of bytes. In which case, we can analyze them as long, complex numeric values, also. Not very helpful. – S.Lott Dec 7 '10 at 3:22
But the structure of your data tends to determine the structure of your code. Declaratively nested structures tend to lead to nested code, though whether the nesting happens lexically or at run-time is a language detail. And this is part of what Karl was getting at, I think- when you program functionally nesting is a natural consequence of the paradigm. But Python is not a functional programming language. I tend to nest more in Python than most Pythonistas, but I do so less than I do in functional languages. Python is not CL, and it is not Haskell. Python's idiom is not functional. – T Duncan Smith Dec 7 '10 at 3:48
Well, who can understand Zen? And how? The truth might be that it is easier to understand Zen if you can't read the texts. Frankly I don't claim to understand it at all. But I know that it changed a lot over time. I think ;). But I think it might be a mistake to be dogmatic about Zen itself. I am almost sure that it is better to not make a lighthearted post Tim Peters made many years ago dogma when what we are dealing with is programming rather than Zen. – T Duncan Smith Jan 16 '11 at 7:10
@T Duncan Smith: "dogma"? Sorry. Just trying to clarify a distinction that is pretty clear. Code != data. It doesn't seem like dogma to me. But, if it's dogma to you, I apologize. I've always found it a helpful distinction that code is active and data is passive. But I guess that's a false duality and unhelpful even when a programming language seems designed around that duality. – S.Lott Jan 16 '11 at 22:26

This question can't be answered "in general" - there is no right answer.

For this particular example, I actually like the tree structure better. Without knowing anything about the original application, and just looking at the structure, the relationship between the items is obvious. With the flat structure, I have to read some documentation, or application code to "know" that your tuple of children refer to id's.

The tree structure is self-documenting - the flat structure isn't.

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The question was actually partly motivated by reflection upon some work I did at a previous job, where I wrote something that required configuration data with a tree structure. A co-worker complained that it was harder to get the brackets right and/or visualise the nesting, or something, when you actually nest the data. But for files with a large number of "nodes", it becomes difficult to match up the IDs and see what's going on, too. – Karl Knechtel Dec 7 '10 at 5:35
There's often not a "right" answer in programming...although often there are wrong answers! – Gerrat Dec 7 '10 at 14:16

Does that contradict "explicit is better than implicit"?

Yes, particularly when being explicit prevents you from implicitly shooting yourself in the foot. The "tree" in your example can have multiple parents claiming to own the same children. It can also have multiple root nodes (and it does: 2 is a root node; 4 is a root as well as a leaf node.)

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The data accurately corresponds to the original. I would argue that data can have a "logical tree structure" without all being in one tree :) Regardless, you make a good point. – Karl Knechtel Dec 7 '10 at 5:26
True enough. But if you refer to it as "a" tree, then you're not seeing the forest for the "tree". :-) – Dan Breslau Dec 7 '10 at 16:38

This is a completely subjective question. The answer is, "it depends."

It depends on the primary use of your data. If you continually have to reference the nested structure, then it makes sense to represent it that way. And if you never reference the flat representation except when building the nested structure, then why have the flat structure at all?

The "flat" representation is one of the basics of the relational database model: each type of data exists in a table just for that type, and any relationships among the items are contained in separate tables. It's a useful abstraction, but at times difficult to work with in code. On the other hand, processing all the data of a particular type is trivial.

Consider, for example, if I wanted to find all the descendants of the record with id 2 in your example data. If the data is already in the hierarchy (i.e. native representation is the "nested" structure), then it's trivial to locate record id 2 and then traverse its children, children's children, etc.

But if the native representation is sequential as you've shown it then I have to pass through the entire data set to create the hierarchical structure and then find record 2 and its children.

So, as I said, "it depends."

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Yeah, actually when I saw that example I was instantly reminded of the typical "org tree" example that many books on relational databases include. There's a time for that sort of organization, certainly. But there are also times when it can become really painful. – T Duncan Smith Dec 7 '10 at 0:54
+1 - It's very subjective, I for one find a flat tree far, far easier to read than a heavily nested one. Don't ask me why. – detly Dec 7 '10 at 1:34
Finding "all descendants of record X" with flat data is not as hard as you make it sound. You just find the node itself in the flat data (which should be fast because id should be a primary key, or rather, I should have organized the data like {id: {rest of node}} instead of [{node}] :) ) and build the hierarchical structure of that subtree - on demand. – Karl Knechtel Dec 7 '10 at 5:40
+1 for pointing out the database connection. This is how databases store tree-like things. If you are going to serialize the tree, storing it flat can be helpful. Some such structures have ordering conventions, e.g. that all immed. children of a given node must be contiguous, or that a node must be immediately followed by all the subtrees below it -- so that traversing the list in order represents a known tree traversal. As a general comment I'd recommend hiding the entire tree inside a class, so you can encapsulate all the access methods. – greggo Nov 17 '11 at 17:54

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