I've heard it said that multiline lambdas can't be added in Python because they would clash syntactically with the other syntax constructs in Python. I was thinking about this on the bus today and realized I couldn't think of a single Python construct that multiline lambdas clash with. Given that I know the language pretty well, this surprised me.

Now, I'm sure Guido had a reason for not including multiline lambdas in the language, but out of curiosity: what's a situation where including a multiline lambda would be ambiguous? Is what I've heard true, or is there some other reason that Python doesn't allow multiline lambdas?

  • 3
    tl;dr version: because Python is a lazy language without { } blocks and so this was not allowed in order to keep a consistent syntactical design. – Andrew Aug 11 '17 at 15:02
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    Also: I'm thoroughly surprised no one mentioned this in the answers... You can end lines with the \ character in Python and continue onto the next line... This information kinda supersedes this whole question so... – Andrew Aug 11 '17 at 16:48

11 Answers 11


Look at the following:

map(multilambda x:
      return y
   , [1,2,3])

Is this a lambda returning (y, [1,2,3]) (thus map only gets one parameter, resulting in an error)? Or does it return y? Or is it a syntax error, because the comma on the new line is misplaced? How would Python know what you want?

Within the parens, indentation doesn't matter to python, so you can't unambiguously work with multilines.

This is just a simple one, there's probably more examples.

  • 82
    they could force the use of parentheses if you want to return a tuple from a lambda. IMO, this should have always been enforced to prevent such ambiguities, but oh well. – mpen Jul 28 '12 at 23:28
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    This is a simple ambiguity that must be solved by adding an extra set of parens, something that exists in many places already, e.g. generator expressions surrounded by other arguments, calling a method on an integer literal (although this need not be the case since a function name can't begin with a digit), and of course single-line lambdas as well (which may be long expressions written on multiple lines). Multi-line lambdas would not be especially different from these cases that it warrants excluding them on that basis. This is the real answer. – nmclean Mar 7 '14 at 13:41

Guido van Rossum (the inventor of Python) answers this exact question himself in an old blog post.
Basically, he admits that it's theoretically possible, but that any proposed solution would be un-Pythonic:

"But the complexity of any proposed solution for this puzzle is immense, to me: it requires the parser (or more precisely, the lexer) to be able to switch back and forth between indent-sensitive and indent-insensitive modes, keeping a stack of previous modes and indentation level. Technically that can all be solved (there's already a stack of indentation levels that could be generalized). But none of that takes away my gut feeling that it is all an elaborate Rube Goldberg contraption."

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    Why isn't this the top answer? It's not about the technical reasons, it's a design choice, as clearly stated by the inventor. – Dan Abramov Nov 15 '11 at 21:33
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    @DanAbramov because the OP didn't log in for years probably. – Prof. Falken Jan 10 '13 at 8:26
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    For those who didn't understood the Rube Goldberg reference, see: en.wikipedia.org/wiki/Rube_Goldberg_Machine – fjsj Feb 9 '13 at 22:06
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    Guido's answer is just another reason I wish Python didn't depend on indentation to define blocks. – L S Apr 16 '14 at 14:12
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    I'm not sure I'd call "gut feeling" a design choice. ;) – Elliot Cameron Dec 4 '15 at 21:04

This is generally very ugly (but sometimes the alternatives are even more ugly), so a workaround is to make a braces expression:

lambda: (

It won't accept any assignments though, so you'll have to prepare data beforehand. The place I found this useful is the PySide wrapper, where you sometimes have short callbacks. Writing additional member functions would be even more ugly. Normally you won't need this.


    lambda: (
  • 2
    My boss was just asking for something like this in our PyQt application. Awesome! – TheGerm Jan 26 '15 at 23:55
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    Thanks for this, I was also looking for a good way to use short (but still multiline) lambdas as callbacks for our PySide UI. – Michael Leonard Nov 18 '16 at 3:19
  • And now I've seen this it instantly suggested using lambda arg and setattr(arg, 'attr','value') to subvert "no assignments ...". And then there's short-circuit evaluation of and and or ... it's the Javascript that does it. Sinks roots into you, like ivy into a wall. I almost hope I forget this over Xmas. – nigel222 Dec 20 '18 at 17:47

A couple of relevant links:

For a while, I was following the development of Reia, which was initially going to have Python's indentation based syntax with Ruby blocks too, all on top of Erlang. But, the designer wound up giving up on indentation sensitivity, and this post he wrote about that decision includes a discussion about problems he ran into with indentation + multi-line blocks, and an increased appreciation he gained for Guido's design issues/decisions:


Also, here's an interesting proposal for Ruby-style blocks in Python I ran across where Guido posts a response w/o actually shooting it down (not sure whether there has been any subsequent shoot down, though):



[Edit] Read this answer. It explains why multiline lambda is not a thing.

Simply put, it's unpythonic. From Guido van Rossum's blog post:

I find any solution unacceptable that embeds an indentation-based block in the middle of an expression. Since I find alternative syntax for statement grouping (e.g. braces or begin/end keywords) equally unacceptable, this pretty much makes a multi-line lambda an unsolvable puzzle.

As for the rest of this answer. Either use a single-line1 lambda or a named function. Please do not use exec--I regret ever suggested that.

1You'd be surprised what you can do with one line of python.

A workaround to get multiline lambda functions (an extension to skriticos's answer):

(lambda n: (exec('global x; x=4; x=x+n'), x-2)[-1])(0)

What it does:

  • Python simplifies (executes) every component of a tuple before reading the delimiters.

  • e.g., lambda x: (functionA(), functionB(), functionC(), 0)[-1] would execute all three functions even though the only information that's used is the last item in the list (0).

  • Normally you can't assign to or declare variables within lists or tuples in python, however using the exec function you can (note that it always returns: None).

  • Note that unless you declare a variable as global it won't exist outside of that exec function call (this is only true for exec functions within lambda statements).

  • e.g., (lambda: exec('x=5;print(x)'))() works fine without global declaration. However, (lambda: (exec('x=5'), exec('print(x)')))() or (lambda: (exec('x=5'), x)() do not.

  • Note that all global variables are stored in the global namespace and will continue to exist after the function call is complete. For this reason, this is not a good solution and should be avoided if at all possible. global variables declared from the exec function inside a lambda function are kept separate from the global namespace. (tested in Python 3.3.3)

  • The [-1] at the end of the tuple gets the last index. For example [1,2,3,4][-1] is 4. This is done so only the desired output value(s) is returned rather than an entire tuple containing None from exec functions and other extraneous values.

Equivalent multi-line function:

def function(n):
    x = 4
    x = x+n
    return x-2


Ways to avoid needing a multi-line lambda:


f = lambda i: 1 if i==0 or i==1 else f(i-1)+f(i-2)

Booleans are Integers:

lambda a, b: [(0, 9), (2, 3)][a<4][b>3]


lambda x: [n**2 for n in x] #Assuming x is a list or tuple in this case
  • Any idea why your code is throwing a syntax error? imgur.com/a/pWuH1 – Andy Nov 30 '16 at 23:00
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    @AndrewAnthonyGerst The code only seems to work in Python 3. See it run here: repl.it/Ed67/0 exec went from being a statement in Python 2 to being a function in Python 3. (Much like print). Here's a SO Q/A with more details: stackoverflow.com/questions/15086040/… – Samy Bencherif Dec 1 '16 at 20:17
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    Is there a way to dislike an answer more than once? – khajvah Apr 27 '17 at 8:32
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    "glorious but terrifying hack" applies here, too. – Josiah Yoder Jul 11 '17 at 16:15

Let me present to you a glorious but terrifying hack:

import types

def _obj():
  return lambda: None

def LET(bindings, body, env=None):
  '''Introduce local bindings.
  ex: LET(('a', 1,
           'b', 2),
          lambda o: [o.a, o.b])
  gives: [1, 2]

  Bindings down the chain can depend on
  the ones above them through a lambda.
  ex: LET(('a', 1,
           'b', lambda o: o.a + 1),
          lambda o: o.b)
  gives: 2
  if len(bindings) == 0:
    return body(env)

  env = env or _obj()
  k, v = bindings[:2]
  if isinstance(v, types.FunctionType):
    v = v(env)

  setattr(env, k, v)
  return LET(bindings[2:], body, env)

You can now use this LET form as such:

map(lambda x: LET(('y', x + 1,
                   'z', x - 1),
                  lambda o: o.y * o.z),
    [1, 2, 3])

which gives: [0, 3, 8]


Let me try to tackle @balpha parsing problem. I would use parentheses around the multiline lamda. If there is no parentheses, the lambda definition is greedy. So the lambda in

map(lambda x:
      y = x+1
      z = x-1

returns a function that returns (y*z, [1,2,3])


map((lambda x:
      y = x+1
      z = x-1


map(func, [1,2,3])

where func is the multiline lambda that return y*z. Does that work?

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    I'm thinking the top one should return map(func, [1,2,3]) and the bottom one should be an error because the map function doesn't have enough arguments. Also there are some extra parenthesis in the code. – Samy Bencherif Dec 1 '16 at 20:28
  • dropping that into pycharm running python2.7.13 it gives a syntax error. – simbo1905 Sep 11 '18 at 15:04
  • extra parenthesis – Samy Bencherif Nov 24 '18 at 6:35

(For anyone still interested in the topic.)

Consider this (includes even usage of statements' return values in further statements within the "multiline" lambda, although it's ugly to the point of vomiting ;-)

>>> def foo(arg):
...     result = arg * 2;
...     print "foo(" + str(arg) + ") called: " + str(result);
...     return result;
>>> f = lambda a, b, state=[]: [
...     state.append(foo(a)),
...     state.append(foo(b)),
...     state.append(foo(state[0] + state[1])),
...     state[-1]
... ][-1];
>>> f(1, 2);
foo(1) called: 2
foo(2) called: 4
foo(6) called: 12
  • This doesn't work when called a second time with different parameters and causes a memory leak unless the first line is state.clear() since default arguments are only created once when the function is created. – Matthew D. Scholefield Aug 10 '18 at 18:12

On the subject of ugly hacks, you can always use a combination of exec and a regular function to define a multiline function like this:

f = exec('''
def mlambda(x, y):
    d = y - x
    return d * d
''', globals()) or mlambda

You can wrap this into a function like:

def mlambda(signature, *lines):
    exec_vars = {}
    exec('def mlambda' + signature + ':\n' + '\n'.join('\t' + line for line in lines), exec_vars)
    return exec_vars['mlambda']

f = mlambda('(x, y)',
            'd = y - x',
            'return d * d')

I'm guilty of practicing this dirty hack in some of my projects which is bit simpler:

    lambda args...:( expr1, expr2, expr3, ...,
            exprN, returnExpr)[-1]

I hope you can find a way to stay pythonic but if you have to do it this less painful than using exec and manipulating globals.


I was just playing a bit to try to make a dict comprehension with reduce, and come up with this one liner hack:

In [1]: from functools import reduce
In [2]: reduce(lambda d, i: (i[0] < 7 and d.__setitem__(*i[::-1]), d)[-1], [{}, *{1:2, 3:4, 5:6, 7:8}.items()])                                                                                                                                                                 
Out[3]: {2: 1, 4: 3, 6: 5}

I was just trying to do the same as what was done in this Javascript dict comprehension: https://stackoverflow.com/a/11068265

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