# Function definitions vs Lambda expression

Given these two snippets:

``````def sex (code):
return {'m': 'masculino', 'f': 'femenino', '': 'ignorado'} [code]
``````

and

``````sex = lambda code: {'m': 'masculino', 'f': 'femenino', '': 'ignorado'} [code]
``````

What is the actual difference? Do they have different behaviour?

And above all: Is one preferrable over the other?

I ask this, because one of my answers in this forum ( python3 - learning about searching, this very simple example does not work right ), which offered both possibilities, got truncated by another user ("revised"), deleting the lambda term. The reason for the revision was that the last option (the lambda expression) is worse than the function definition. This made me wonder:

Why are lambda expressions worse than function definitions? Especially simple ones like these.

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They are the same, check the disassembled python byte code

``````>>> def sex1 (code):
return {'m': 'masculino', 'f': 'femenino', '': 'ignorado'} [code]

>>> sex2 = lambda code: {'m': 'masculino', 'f': 'femenino', '': 'ignorado'} [code]
>>> dis.dis(sex1)
2           0 BUILD_MAP                3
9 STORE_MAP
16 STORE_MAP
23 STORE_MAP
27 BINARY_SUBSCR
28 RETURN_VALUE
>>> dis.dis(sex2)
1           0 BUILD_MAP                3
9 STORE_MAP
16 STORE_MAP
23 STORE_MAP
27 BINARY_SUBSCR
28 RETURN_VALUE
``````

Even both of them have the same type

``````>>> type(sex1)
<type 'function'>
>>> type(sex2)
<type 'function'>
``````
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It helps differentiate between things. If I am defining a function I will start with def, however inside of that function I will usually use lambda.

It is the same concept as writing in english. If a quote is quoting a quote you will want to change the looks of the nested quote. This is also true for parenthesis.

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They have the same behaviour, but the key difference is that lambda is an expression and as such can't contain statements. lambdas are not necessarily worse that function definitions, provided they are used appropriately. However, they are often are used to write one-line functions simply because they can, even if it makes the code practically impossible tor read. For example, consider the following:

``````sortfilter = lambda a, b, c: sorted(filter(lambda i: i % 2, (i for i in a if i in b)), key=lambda v: c.get(v, v)))
``````

Possible to write in a one-line lambda, but a really bad idea!

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In addition to the information provided in BrenBarn's excellent answer, you will find many Python programmers who insist on always using `def` over `lambda`, so I will attempt to explain why that is.

It basically comes down to the following line from the Zen of Python:

There should be one-- and preferably only one --obvious way to do it.

This is referenced in Guido van Rossum's post about this issue (Guido is the creator of Python):

Why drop lambda? Most Python users are unfamiliar with Lisp or Scheme, so the name is confusing; also, there is a widespread misunderstanding that lambda can do things that a nested function can't -- I still recall Laura Creighton's Aha!-erlebnis after I showed her there was no difference! Even with a better name, I think having the two choices side-by-side just requires programmers to think about making a choice that's irrelevant for their program; not having the choice streamlines the thought process. Also, once map(), filter() and reduce() are gone, there aren't a whole lot of places where you really need to write very short local functions; Tkinter callbacks come to mind, but I find that more often than not the callbacks should be methods of some state-carrying object anyway (the exception being toy programs).

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Thank you for your answer and the link to Guido's post. Very interesting. And I experience it myself: Since we moved from py2.7 to py3.2, most map(), filter(), etc expressions became generators like `(f(x) for x in l if x)`. Nevertheless I am happy we still got lambda. – Hyperboreus Dec 13 '12 at 5:41

There is no functional difference between a lambda and a `def` that returns the same thing. They are exactly the same and have identical bytecode.

``````>>> def sex (code):
...     return {'m': 'masculino', 'f': 'femenino', '': 'ignorado'} [code]
>>> sex2 = lambda code: {'m': 'masculino', 'f': 'femenino', '': 'ignorado'} [code]
>>> sex.__code__.co_code == sex2.__code__.co_code
True
``````

I would say it is wrong to say that either way of writing functions is "worse" in a general sense. In your example, however, the `def` version is better. The reason is that in general the purpose of lambdas is to concisely write short, anonymous functions within expressions. There is no real point to doing `name = lambda: ...`. There's no reason to define an anonymous function if you're going to immediately give it a name.

The point of lambdas is that you can do `someFuncRequiringCallback(lambda x: x+1)`, where you don't want to give the function a name or use it for anything besides this situation. If you do want to use a function across multiple contexts, just define it with a regular `def`.

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I can think of one minor difference: `print sex.__name__, sex2.__name__`. – DSM Dec 13 '12 at 5:21
@DSM: That's no more a difference than doing `def foo: return 1` and `def bar: return 1`. The two functions are still the same. – BrenBarn Dec 13 '12 at 5:23
Since the functions have the same code I completely agree that there's no functional difference, but there have been a few times when I've checked `__name__`, and I can't do that with a lambda. YMMV. – DSM Dec 13 '12 at 5:27
Thank you very much. – Hyperboreus Dec 13 '12 at 5:42

Simple lambdas aren't necessarily worse than nested functions (and no, there's no difference between those two examples but syntax), but this particular case can be even simpler:

``````sex = {'m': 'masculino', 'f': 'femenino', '': 'ignorado'}
``````

Then you use `sex.__getitem__`.

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