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# Which is more preferable to use in Python: lambda functions or nested functions ('def')?

I mostly use lambda functions but sometimes use nested functions that seem to provide the same behavior.

Here are some trivial examples where they functionally do the same thing if either were found within another function:

Lambda function

``````>>> a = lambda x : 1 + x
>>> a(5)
6
``````

Nested function

``````>>> def b(x): return 1 + x

>>> b(5)
6
``````

Is there advantages to using one over the other? (Performance? Readability? Limitations? Consistency? etc.) Does it even matter? If doesn't then does that violate the Pythonic principle: “There should be one—and preferably only one—obvious way to do it”.

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If you need to assign the `lambda` to a name, use a `def` instead. `def`s are just syntactic sugar for an assignment, so the result is the same, and they are a lot more flexible and readable.

`lambda`s can be used for use once, throw away functions which won't have a name.

However, this use case is very rare. You rarely need to pass around unnamed function objects.

The builtins `map()` and `filter()` need function objects, but list comprehensions and generator expressions are generally more readable than those functions and can cover all use cases, without the need of lambdas.

For the cases you really need a small function object, you should use the `operator` module functions, like `operator.add` instead of `lambda x, y: x + y`

If you still need some `lambda` not covered, you might consider writing a `def`, just to be more readable. If the function is more complex than the ones at `operator` module, a `def` is probably better.

So, real world good `lambda` use cases are very rare.

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lambda's may be good for use once, throw away functions, but frequently they aren't even good for that. There is nothing you can do with a lambda-created function that you can't do with a def-created function; the difference is mostly in readability. Sometimes terse is good, often it isn't. – Thomas Wouters Sep 25 '08 at 17:54
Care to add that where lambdas used to be useful, nowadays you can often use functools.partial? – Torsten Marek Sep 25 '08 at 18:35
@Torsten: I think functools.partial is overrated. I'd rather def a function to call the other one with the extra params most cases. – nosklo Sep 25 '08 at 22:50
@THomas Wouters: I agree, and I have changed the answer to reflect that. Thanks. – nosklo Sep 26 '08 at 15:34
You can create dynamic functions just fine without 'lambda', and lines are not a scarce resource. There really isn't anything you can do with 'lambda' that you can't do with a normal 'def' statement in the same context. Go ahead, try it; lambda just isn't special. – Thomas Wouters Jan 24 '12 at 0:10

Practically speaking, to me there are two differences:

The first is about what they do and what they return:

• def is a keyword that doesn't return anything and creates a 'name' in the local namespace.

• lambda is a keyword that returns a function object and does not create a 'name' in the local namespace.

Hence, if you need to call a function that takes a function object, the only way to do that in one line of python code is with a lambda. There's no equivalent with def.

In some frameworks this is actually quite common; for example, I use Twisted a lot, and so doing something like

``````d.addCallback(lambda result: setattr(self, _someVariable, result))
``````

is quite common, and more concise with lambdas.

The second difference is about what the actual function is allowed to do.

• A function defined with 'def' can contain any python code
• A function defined with 'lambda' has to evaluate to an expression, and can thus not contain statements like print, import, raise, ...

For example,

``````def p(x): print x
``````

works as expected, while

``````lambda x: print x
``````

is a SyntaxError.

Of course, there are workarounds - substitute `print` with `sys.stdout.write`, or `import` with `__import__`. But usually you're better off going with a function in that case.

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You can't actually make assignments inside a lambda. However, the way around it is to use "setattr". Ex: d.addCallback(lambda result: setattr(self,"_someVar",result)) Be sure to initialize self._someVar before. – elmarco Oct 20 '09 at 9:42

In this interview, Guido van Rossum says he wishes he hadn't let 'lambda' into Python:

"Q. What feature of Python are you least pleased with?

Sometimes I've been too quick in accepting contributions, and later realized that it was a mistake. One example would be some of the functional programming features, such as lambda functions. lambda is a keyword that lets you create a small anonymous function; built-in functions such as map, filter, and reduce run a function over a sequence type, such as a list.

In practice, it didn't turn out that well. Python only has two scopes: local and global. This makes writing lambda functions painful, because you often want to access variables in the scope where the lambda was defined, but you can't because of the two scopes. There's a way around this, but it's something of a kludge. Often it seems much easier in Python to just use a for loop instead of messing around with lambda functions. map and friends work well only when there's already a built-in function that does what you want.

IMHO, Iambdas can be convenient sometimes, but usually are convenient at the expense of readibility. Can you tell me what this does:

``````str(reduce(lambda x,y:x+y,map(lambda x:x**x,range(1,1001))))[-10:]
``````

I wrote it, and it took me a minute to figure it out. This is from Project Euler - i won't say which problem because i hate spoilers, but it runs in 0.124 seconds :)

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Do note that the interview is rather old, and Python has long since added nested scopes, which makes the argument he gives against lambda no longer relevant. I'm sure he still regrets lambda, but not enough to remove it in Python 3.0. – Thomas Wouters Sep 25 '08 at 17:52
Last ten digits of the sum of the square numbers less than 1 million. And really your example should be an argument against one-liners, not lambdas. Also, you should have used the built-in sum function instead of reducing with a lambda: str(sum(map(lambda x:x**x, range(1001))))[:-10] – Triptych Jun 17 '09 at 0:20
@Triptych: `x**x` and `x*x` (square) are not the same. – J.F. Sebastian Jun 17 '09 at 0:30
Link to interview is broken, this one works at the moment: porky.linuxjournal.com:8080/LJ/055/2959.html – AJP Feb 6 '14 at 0:34
@ThomasWouters: I understand that `lambda` not being removed in 3.0 was a near thing, and that Guido was not fighting to keep it. – Ethan Furman Apr 24 '14 at 1:25

I agree with nosklo's advice: if you need to give the function a name, use `def`. I reserve `lambda` functions for cases where I'm just passing a brief snippet of code to another function, e.g.:

``````a = [ (1,2), (3,4), (5,6) ]
b = map( lambda x: x[0]+x[1], a )
``````
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In most combinations of map/lambda, you can replace it with a list comprehension or more appropriate function. For example, "map (sum, a)" or "[x[0] + x[1] for x in a]" – John Millikin Sep 25 '08 at 19:16
Yes, that's true. Sometimes I prefer map() though. This was mostly just a contrived example of using an in-line function. – Dan Lenski Sep 25 '08 at 20:22

For n=1000 here's some timeit's of calling a function vs a lambda:

``````In [11]: def f(a, b):
return a * b

In [12]: g = lambda x, y: x * y

In [13]: %%timeit -n 100
for a in xrange(n):
for b in xrange(n):
f(a, b)
....:
100 loops, best of 3: 285 ms per loop

In [14]: %%timeit -n 100
for a in xrange(n):
for b in xrange(n):
g(a, b)
....:
100 loops, best of 3: 298 ms per loop

In [15]: %%timeit -n 100
for a in xrange(n):
for b in xrange(n):
(lambda x, y: x * y)(a, b)
....:
100 loops, best of 3: 462 ms per loop
``````
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Interesting to see that the lambda and defined versions are roughly equivalent. The last test took more time because python probably needed to allocate space every time it defined that lambda function. – hlin117 Nov 21 '14 at 6:19
I guess this makes sense as the definition may reference local variables (which may have changed)... although in the case where it doesn't, like here, cpython could do a better job. – Andy Hayden Nov 21 '14 at 17:24

The primary use of lambda has always been for simple callback functions, and for map, reduce, filter, which require a function as an argument. With list comprehensions becoming the norm, and the added allowed if as in:

``````x = [f for f in range(1, 40) if f % 2]
``````

it's hard to imagine a real case for the use of lambda in daily use. As a result, I'd say, avoid lambda and create nested functions.

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An important limitation of lambdas is that they cannot contain anything besides an expression. It's nearly impossible for a lambda expression to produce anything besides trivial side effects, since it cannot have anywhere near as rich a body as a `def`'ed function.

That being said, Lua influenced my programming style toward the extensive use of anonymous functions, and I litter my code with them. On top of that, I tend to think about map/reduce as abstract operators in ways I don't consider list comprehensions or generators, almost as If I'm deferring an implementation decision explicitly by using those operators.

Edit: This is a pretty old question, and my opinions on the matter have changed, somewhat.

First off, I am strongly biased against assigning a `lambda` expression to a variable; as python has a special syntax just for that (hint, `def`). In addition to that, many of the uses for lambda, even when they don't get a name, have predefined (and more efficient) implementations. For instance, the example in question can be abbreviated to just `(1).__add__`, without the need to wrap it in a `lambda` or `def`. Many other common uses can be satisfied with some combination of the `operator`, `itertools` and `functools` modules.

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`(1).__add__` -- calling dunder methods directly should almost never happen. A thousand `lambda`s for each direct dunder call. – Ethan Furman Apr 24 '14 at 1:28
@EthanFurman: Well, in my experience, calls of the nature `(1).__add__` are somewhat uncommon, but I would not go anywhere close to "should". without a doubt, I find the former to be vastly more readable to `lambda x: 1 + x`. If we had something more akin to haskells slice notation, `(1+)` that'd be great, but we have to make do with what is semantically exactly that thing, the dunder method name. – SingleNegationElimination Apr 24 '14 at 2:39

While agreeing with the other answers, sometimes it's more readable. Here's an example where `lambda` comes in handy, in a use case I keep encountering of an N dimensional `defaultdict`.
Here's an example:

``````from collections import defaultdict
d = defaultdict(lambda: defaultdict(list))
d['Foo']['Bar'].append(something)
``````

I find it more readable than creating a `def` for the second dimension. This is even more significant for higher dimensions.

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lambda is usefull for generating new functions:

``````def somefunc(x): return lambda y: x+y
f = somefunc(10)
f(2)
>>> 12
f(4)
>>> 14
``````
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One use for lambdas I have found... is in debug messages.

Since lambdas can be lazily evaluated you can have code like this:

``````log.debug(lambda: "this is my message: %r" % (some_data,))
``````

``````log.debug("this is my message: %r" % (some_data,))
``````

which processes the format string even if the debug call does not produce output because of current logging level.

Of course for it to work as described the logging module in use must support lambdas as "lazy parameters" (as my logging module does).

The same idea may be applied to any other case of lazy evaluation for on demand content value creation.

For example this custom ternary operator:

``````def mif(condition, when_true, when_false):
if condition:
return when_true()
else:
return when_false()

mif(a < b, lambda: a + a, lambda: b + b)
``````

``````def mif(condition, when_true, when_false):
if condition:
return when_true
else:
return when_false

mif(a < b, a + a, b + b)
``````

with lambdas only the expression selected by the condition will be evaluated, without lambdas both will be evaluated.

Of course you could simply use functions instead of lambdas, but for short expressions lambdas are (c)leaner.

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Performance:

Creating a function with `lambda` is slightly faster than creating it with `def`. The difference is due to `def` creating a name entry in the locals table. The resulting function has the same execution speed.

Lambda functions are somewhat less readable for most Python users, but also much more concise in some circumstances. Consider converting from using non-functional to functional routine:

``````# Using non-functional version.

heading(math.sqrt(v.x * v.x + v.y * v.y), math.atan(v.y / v.x))

# Using lambda with functional version.

fheading(v, lambda v: math.sqrt(v.x * v.x + v.y * v.y), lambda v: math.atan(v.y / v.x))

# Using def with functional version.

def size(v):
return math.sqrt(v.x * v.x + v.y * v.y)

def direction(v):
return math.atan(v.y / v.x)

``````

As you can see, the `lambda` version is shorter and "easier" in the sense that you only need to add `lambda v:` to the original non-functional version to convert to the functional version. It's also a lot more concise. But remember, a lot of Python users will be confused by the lambda syntax, so what you lose in length and real complexity might be gained back in confusion from fellow coders.

Limitations:

• `lambda` functions can only be used once, unless assigned to a variable name.
• `lambda` functions assigned to variable names have no advantage over `def` functions.
• `lambda` functions can be difficult or impossible to pickle.
• `def` functions' names must be carefully chosen to be reasonably descriptive and unique or at least otherwise unused in scope.

Consistency:

Python mostly avoids functional programming conventions in favor of procedural and simpler objective semantics. The `lambda` operator stands in direct contrast to this bias. Moreover, as an alternative to the already prevalent `def`, the `lambda` function adds diversity to your syntax. Some would consider that less consistent.

Pre-existing functions:

As noted by others, many uses of `lambda` in the field can be replaced by members of the `operator` or other modules. For instance:

``````do_something(x, y, lambda x, y: x + y)
``````

Using the pre-existing function can make code more readable in many cases.

The Pythonic principle: “There should be one—and preferably only one—obvious way to do it”

That's similar to the single source of truth doctrine. Unfortunately, the single-obvious-way-to-do-it principle has always been more an wistful aspiration for Python, rather than a true guiding principal. Consider the very-powerful array comprehensions in Python. They are functionally equivalent to the `map` and `filter` functions:

``````[e for e in some_array if some_condition(e)]
filter(some_array, some_condition)
``````

`lambda` and `def` are the same.

It's a matter of opinion, but I would say that anything in the Python language intended for general use which doesn't obviously break anything is "Pythonic" enough.

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I agree with nosklo. By the way, even with a use once, throw away function, most of the time you just want to use something from the operator module.

E.G :

You have a function with this signature : myFunction(data, callback function).

You want to pass a function that add 2 elements.

Using lambda :

``````myFunction(data, (lambda x, y : x + y))
``````

The pythonic way :

``````import operator
``````

Or course this is a simple example, but there is a lot of stuff the operator module provides, including the items setters / getters for list and dict. Really cool.

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If you are just going to assign the lambda to a variable in the local scope, you may as well use def because it is more readable and can be expanded more easily in the future:

``````fun = lambda a, b: a ** b # a pointless use of lambda
map(fun, someList)
``````

or

``````def fun(a, b): return a ** b # more readable
map(fun, someList)
``````
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