167

I get this pep8 warning whenever I use lambda expressions. Are lambda expressions not recommended? If not why?

  • 3
    For clarity, the question refers to a message for an automated check in flake8 (flake8.pycqa.org) – rakslice Oct 31 '18 at 1:10
192

The recommendation in PEP-8 you are running into is:

Always use a def statement instead of an assignment statement that binds a lambda expression directly to a name.

Yes:

def f(x): return 2*x 

No:

f = lambda x: 2*x 

The first form means that the name of the resulting function object is specifically 'f' instead of the generic '<lambda>'. This is more useful for tracebacks and string representations in general. The use of the assignment statement eliminates the sole benefit a lambda expression can offer over an explicit def statement (i.e. that it can be embedded inside a larger expression)

Assigning lambdas to names basically just duplicates the functionality of def - and in general, it's best to do something a single way to avoid confusion and increase clarity.

The legitimate use case for lambda is where you want to use a function without assigning it, e.g:

sorted(players, key=lambda player: player.rank)

For simple operations, the operator module provides some useful options in attrgetter, itemgetter and methodcaller which can often replace labmdas that are just accessing attribute(s), item(s) and calling methods.

For example, the above could be done with operator.attrgetter like so:

sorted(players, key=operator.attrgetter('rank'))
  • 3
    I don't see how it's worse. The traceback is still going to include the errant line number and source file. One might say "f" whereas the other says "lambda". Maybe the lambda error is easier to scan because it's not a single-character function name, or a poorly-named long name? – g33kz0r Feb 17 '15 at 19:08
  • 4
    @g33kz0r Well, sure, if you assume the rest of your code is going to have poor quality, following conventions won't gain you much. In general, no, it's not the end of the world, but it's still a bad idea. – Gareth Latty Feb 17 '15 at 20:42
  • 28
    This answer is not very helpful, because when running the suggested approach of using def through the PEP8 checker, you get E704 multiple statements on one line (def), and if you split it into two lines you get E301 expected 1 blank line, found 0 :-/ – Adam Spiers Feb 20 '15 at 14:10
  • 3
    I agree it should be split. My points were that a) it is not split in the answer's code above, causing E704, and b) if you split it, you need an ugly blank line above it to avoid E301. – Adam Spiers Feb 21 '15 at 2:10
  • 3
    I use lambdas when I want to emphasize a pure function (no side effects), and sometimes I have to use the same function in two places, i.e. groupby and sort together. So I ignore this convention. – manu Jan 28 '16 at 21:53
101

Here is the story, I had a simple lambda function which I was using twice.

a = map(lambda x : x + offset, simple_list)
b = map(lambda x : x + offset, another_simple_list)

This is just for the representation, I have faced couple of different versions of this.

Now, to keep things DRY, I start to reuse this common lambda.

f = lambda x : x + offset
a = map(f, simple_list)
b = map(f, another_simple_list)

At this point my code quality checker complains about lambda being a named function so I convert it into a function.

def f(x):
    return x + offset
a = map(f, simple_list)
b = map(f, another_simple_list)

Now the checker complains that a function has to be bounded by one blank line before and after.

def f(x):
    return x + offset

a = map(f, simple_list)
b = map(f, another_simple_list)

Here we have now 6 lines of code instead of original 2 lines with no increase in readability and no increase in being pythonic. At this point the code checker complains about the function not having docstrings.

In my opinion this rule better be avoided and broken when it makes sense, use your judgement.

  • 8
    a = [x + offset for x in simple_list]. No need to use map and lambda here. – Georgy Apr 23 '18 at 16:39
  • 4
    @Georgy I believe the point was to move the x + offset portion to an abstracted location that can be updated without changing more than one line of code. With list comprehensions as you mentioned, you would still need two lines of code that contained x + offset they would just now be in list comprehensions. In order to pull those out as the author wanted, you would need a def or lambda. – Julian Nov 3 '18 at 2:18
  • @Julian Apart from def and lambda one could also use functools.partial: f = partial(operator.add, offset) and then a = list(map(f, simple_list)). – Georgy Nov 18 '18 at 18:33
  • What about def f(x): return x + offset (i.e., a simple function defined on a single line)? At least with flake8 I do not get complaints about blank lines. – DocOc Aug 22 at 10:50
21

Lattyware is absolutely right: Basically PEP-8 wants you to avoid things like

f = lambda x: 2 * x

and instead use

def f(x):
    return 2 * x

However, as addressed in a recent bugreport (Aug 2014), statements such as the following are now compliant:

a.f = lambda x: 2 * x
a["f"] = lambda x: 2 * x

Since my PEP-8 checker doesn't implement this correctly yet, I turned off E731 for the time being.

  • 8
    Even when using def, the PEP8 checker complains with E301 expected 1 blank line, found 0, so you then have to add an ugly blank line before it. – Adam Spiers Feb 20 '15 at 14:11
2

I also encountered a situation in which it was even impossible to use a def(ined) function.

class SomeClass(object):
  # pep-8 does not allow this
  f = lambda x: x + 1  # NOQA

  def not_reachable(self, x):
    return x + 1

  @staticmethod
  def also_not_reachable(x):
    return x + 1

  @classmethod
  def also_not_reachable(cls, x):
    return x + 1

  some_mapping = {
      'object1': {'name': "Object 1", 'func': f},
      'object2': {'name': "Object 2", 'func': some_other_func},
  }

In this case, I really wanted to make a mapping which belonged to the class. Some objects in the mapping needed the same function. It would be illogical to put the a named function outside of the class. I have not found a way to refer to a method (staticmethod, classmethod or normal) from inside the class body. SomeClass does not exist yet when the code is run. So referring to it from the class isn't possible either.

  • You could refer to also_not_reachable in the mapping definition as SomeClass.also_not_reachable – yaccz Sep 26 '18 at 23:07
  • I don't know what point you're trying to make here. Every one of your function names is as reachable as f in both 2.7 and 3.5 for me – Eric Nov 12 '18 at 3:15
  • Nope, all the functions, except for the lambda function, are not reachable from within the Class body. You'll get a AttributeError: type object 'SomeClass' has no attribute '...' if you try to access one of those function in the some_mapping object. – simP Jun 26 at 9:44
  • @simP all of them are perfectly accessible. The ones with @staticmethod and @classmethod don't need an object, just SomeClass.also_not_reachable (although they need distinctive names). If you need to access them from class methods just use self.also_not_reachable – ababak Sep 16 at 11:34

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