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Suppose I have some object x that may be a single instance of a data type (say float) or it may be a list of float types.

Is there any what I can ensure that x is wrapped as a list, perhaps being a singleton list if necessary, without checking its type or doing anything like that.

I'd like for something like list(x) to just always work, whether x was a singleton or not, but this doesn't work since a singleton isn't iterable.

Edit: see my answer below for some elaboration.

At the same time, I don't want to define my own function to construct lists from singeltons, and I don't want to do anything inline like this either:

from collections import Iterable
y = [x] if not isinstance(x, Iterable) else list(x)

If nothing more concise than this exists, that's OK. I am looking for some clean way of doing this that's already built into the language.

I'm sure some may think the isinstance approach is clean and good, but I'm specifically looking for something more concise that doesn't require me to write anything new before hand. I just can't find anything when searching doc pages and I'm not sure how to ask this question to a search engine.

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When you find yourself trying to do something dirt simple that requires introspection or other esoterica, assume that you are defining your goal improperly, possibly bringing conceptual habits from another language. If you want a list of one or more floats, why didn't you just make one? –  msw Aug 9 '12 at 22:35
One problem with your code is that the string "abc" will be turned into the list ["a", "b", "c"] – in most cases, this will not be the desired result. –  Sven Marnach Aug 9 '12 at 22:41
@msw I appreciate the comment, but I also dislike it when people offer advice like "stop wanting to do what you want to do." Suffice it to say that existing system limitations on a large project that I cannot personally refactor dictate that what I'm trying to do makes sense. –  Mr. F Aug 9 '12 at 22:43
@EMS: I do like if people provide this kind of advice, since in my experience it solves 95 % of the questions asked on SO in a better way than the poster originally intended. –  Sven Marnach Aug 9 '12 at 22:46
So this happens exactly once in one "weird spot" in a project with design flaws, and it can be solved with a total of under 80 characters of code, and you're surprised that the language doesn't have something built in to cover that situation? –  David Robinson Aug 10 '12 at 9:01

3 Answers 3

I don't know of anything like this that is built in. Your solution looks like the best bet to me, though you may want to use a sequence ABC instead of Iterable.

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In my opinion, Iterable is exactly the right concept to check for. –  Sven Marnach Aug 9 '12 at 22:31
The problem is I want something else that already does that checking, such as the list constructor. I'm surprised it's put on the programmer to do this check. I understand that the programmer should know when they are doing something with singletons, but it seems like just by default making a singleton list is a lot better than throwing a TypeError. –  Mr. F Aug 9 '12 at 22:33
@EMS: I think throwing TypeError is a lot better. Hiding errors is evil. The attitude of always trying hard to make sense of expressions leads to atrocities like PHP and JavaScript. –  Sven Marnach Aug 9 '12 at 22:43
But it's not an error that you're hiding. –  Mr. F Aug 9 '12 at 22:46
@EMS: As long as TypeError is raised, it is, by definition. That's exactly the point. In PHP it's not an error to add a number to a string. I strongly prefer Python's approach. –  Sven Marnach Aug 9 '12 at 22:54

Here's an answer the question you didn't ask, but perhaps should have. I can only guess though because you failed to give the relevant context.

How can I cope with an argument passed to me that violates my interface contract?

You shouldn't try to. If I call sum(2) I properly get

TypeError: 'int' object is not iterable

because sum was expecting an iterable and I didn't give it one. If you are concerned that someone will call both

my_function([2.2, 4.4])

The proper response is to raise a TypeError, not try to patch things up for the caller because as soon as you fix the first case, someone will then call

my_function([2.2, 'loretta'])

Do you cover that case also? What if they hand you a self-referential list? If you come from a strongly-typed language background, there is strong temptation to abuse Python so that it acts like Java. This only yields bad Python code: you've piled a hack on top of a defect.

And "type safety" is a bit of a canard too or else double sqrt(float) would not have to return domain errors, but it does. Should sqrt take the absolute value of its argument? Masking errors in call signatures only ensures that the defects go undiscovered, and then break later when you get an invalid argument that you didn't anticipate.

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I think this is a solid answer for someone coming from a design and object-oriented perspective. But if you have some experience dealing with a large, unwieldy, production level scientific computation, you start to see where rules like these need to be broken. Most of the stuff I am picking up and working with was not built by programmers. It was hacked together by engineers who knew only Matlab, say. Fitting well-designed stuff as a backend on their work is hard enough. You cannot make the system conform to design principles, no matter how hard you try. –  Mr. F Aug 10 '12 at 1:46
The "but I don't have time to do it right" excuse is usually taken by people who think they have the time to do it wrong over and over and over again. I appreciate the comment, but I dislike when people try to justify their weaknesses by blaming extrinsic factors. "No matter how hard you try" is another way of saying "I don't care to try harder"; good luck with that. –  msw Aug 10 '12 at 2:13
After revisiting this thread months later, which included time spent copiously reading The Mythical Man-Month and The Pragmatic Programmer, I think that I even more emphatically disagree with what you're saying. In fact the entire notion that time constraints imply laziness or that it is equivalent to blaming extrinsic factors is ludicrous. –  Mr. F Sep 16 '13 at 14:40
In scientific computing applications, where you have no programming manager, no product manager, just a mathematician or physicist or economist or other domain expert with no background in software, more often it is the unilateral design choices of that manager that prevent "doing it right." I can't tell you the number of times I've pitched design ideas and bolstered them with best practices links (such as many of the readings linked here) only to have well-thought-out interfaces overridden by a mathematician's personal convenience choices. –  Mr. F Sep 16 '13 at 14:43
Anyway, the whole "you don't have time to do it incorrectly because it is so important" thing just doesn't apply in my line of work. I wish it did, but when non-programmers manage all of the programmers, it doesn't work that way. –  Mr. F Sep 16 '13 at 14:44

In revisiting this question after much more experience with Python, one solution occurred to me, but it violates my then-required property of not defining a function.

def make_list_containing(*args):
    return list(args)

Then make_list_containing(3) or make_list_containing('foo') behave as one would expect (as opposed to the list constructor, which you have to alter your intuitions to learn how to expect it to act).

It still is surprising to me that list as a constructor is synonymous with "convert to list type" rather than "place into a list object instance".

I can see how the polymorphic behavior of the constructor could be ambiguous in the case of singletons that are also iterables, like strings. But still, why not support the "place into list" behavior for non-iterable singletons?

Another thing is that, at least to me, the approach I am describing seems more consistent and more adherent to least astonishment.

With make_list_containing you know you are always getting a list back, and that it will contain the elements that were passed in. As long as you pass them in with the format you desire, then that's exactly what you'll get out. Consider:

In [34]: make_list_containing(*'foo')
Out[34]: ['f', 'o', 'o']

In [35]: make_list_containing('foo')
Out[35]: ['foo']


In [40]: make_list_containing(*enumerate(range(3)))
Out[40]: [(0, 0), (1, 1), (2, 2)]

In [41]: make_list_containing(enumerate(range(3)))
Out[41]: [<enumerate at 0x7f61a7f0fd70>]

Now that seems much more intuitive to me. Preprending the * is exactly how I am supposed to "de-iterate" the items within something as arguments. If I don't go out of my way to choose that, then I must be treating 'foo' as a singleton and plan to handle its elements or iterability myself interior to the function call.

One thing that is frustrating within this conversation is that just because this convention of Python is old people seem to conflate that with meaning it is not surprising. But that's a narrow definition of surprise. Yes, when I fire up the interpreter, I am no longer "surprised" when list('foo') give me ['f', 'o', 'o']. But I still am surprised that that is the interface choice of the language for a constructor as important as list. It surprises me because it seems to have more design weaknesses than strengths, and that what was used to justify it originally was some fixation of slickness of syntax, rather than clarity of thought.

At this point it strays too far into the opinion zone, and I'm obviously OK with the fact that, due to overwhelming historical momentum, this will not be changed in Python. But the spirit of my question is still about this very legitimate point. It's not a matter of "laziness" or "just write a wrapper function and move on" as most of the comments seem to want it to be.

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lol at the downvote. –  Mr. F Sep 24 '14 at 16:16

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