I would like to serialize on machine A and deserialize on machine B a python lambda. There are a couple of obvious problems with that:

  • the pickle module does not serialize or deserialize code. It only serializes the names of classes/methods/functions
  • some of the answers I found with google suggest the use of the low-level marshal module to serialize the func_code attribute of the lambda but they fail to describe how one could reconstruct a function object from the deserialized code object
  • marhshal(l.func_code) will not serialize the closure associated with the lambda which leads to the problem of detecting when a given lambda really needs a closure and warning the user that he is trying to serialize a lambda that uses a closure

Hence, my question(s):

  • how would one reconstruct a function from the deserialized (demarshaled) code object ?
  • how would one detect that a given lambda will not work properly without the associated closure ?
up vote 18 down vote accepted

Surprisingly, checking whether a lambda will work without its associated closure is actually fairly easy. According to the data model documentation, you can just check the func_closure attribute:

>>> def get_lambdas():
...     bar = 42
...     return (lambda: 1, lambda: bar)
>>> no_vars, vars = get_lambdas()
>>> print no_vars.func_closure
>>> print vars.func_closure
(<cell at 0x1020d3d70: int object at 0x7fc150413708>,)
>>> print vars.func_closure[0].cell_contents

Then serializing + loading the lambda is fairly straight forward:

>>> import marshal, types
>>> old = lambda: 42
>>> old_code_serialized = marshal.dumps(old.func_code)
>>> new_code = marshal.loads(old_code_serialized)
>>> new = types.FunctionType(new_code, globals())
>>> new()

It's worth taking a look at the documentation for the FunctionType:

function(code, globals[, name[, argdefs[, closure]]])

Create a function object from a code object and a dictionary.
The optional name string overrides the name from the code object.
The optional argdefs tuple specifies the default argument values.
The optional closure tuple supplies the bindings for free variables.

Notice that you can also supply a closure… Which means you might even be able to serialize the old function's closure then load it at the other end :)

  • there is a typo in the last print statement. finc_closure should be func_closure – mathieu Aug 9 '12 at 7:15
  • I do not know about other versions of python but the one I am using (2.7.3) is not able to serialize the closure (either with marshal or pickle) or to print its content like you did with 'print vars.func_closure[0]'. – mathieu Aug 9 '12 at 8:22
  • D'oh! That's because you need to print x.func_closure[0].cell_contents — I've updated the answer now. Are you still having trouble with serializing the lambda's func_code? – David Wolever Aug 9 '12 at 20:03
  • yes, cell_contents is simply not defined in the version of python that is running on my system. I eventually gave up and made the lambdas class-based functors. – mathieu Aug 20 '12 at 10:13
  • 2
    Just a note for others using python 3.0+. They've changed the name of func_closure to __closure__. See docs.python.org/3.0/whatsnew/… for more info. – jmagnusson Sep 29 '15 at 6:47

I'm not sure exactly what you want to do, but you could try dill. Dill can serialize and deserialize lambdas and I believe also works for lambdas inside closures. The pickle API is a subset of it's API. To use it, just "import dill as pickle" and go about your business pickling stuff.

>>> import dill
>>> testme = lambda x: lambda y:x
>>> _testme = dill.loads(dill.dumps(testme))
>>> testme
<function <lambda> at 0x1d92530>
>>> _testme
<function <lambda> at 0x1d924f0>
>>> def complicated(a,b):
...   def nested(x):
...     return testme(x)(a) * b
...   return nested
>>> _complicated = dill.loads(dill.dumps(complicated))
>>> complicated 
<function complicated at 0x1d925b0>
>>> _complicated
<function complicated at 0x1d92570>

Dill registers it's types into the pickle registry, so if you have some black box code that uses pickle and you can't really edit it, then just importing dill can magically make it work without monkeypatching the 3rd party code. Or, if you want the whole interpreter session sent over the wire as an "python image", dill can do that too.

>>> # continuing from above
>>> dill.dump_session('foobar.pkl')
>>> ^D
dude@sakurai>$ python
Python 2.7.5 (default, Sep 30 2013, 20:15:49) 
[GCC 4.2.1 (Apple Inc. build 5566)] on darwin
Type "help", "copyright", "credits" or "license" for more information.
>>> import dill
>>> dill.load_session('foobar.pkl')
>>> testme(4)
<function <lambda> at 0x1d924b0>
>>> testme(4)(5)
>>> dill.source.getsource(testme)
'testme = lambda x: lambda y:x\n'

You can easily send the image across ssh to another computer, and start where you left off there as long as there's version compatibility of pickle and the usual caveats about python changing and things being installed. As shown, you can also extract the source of the lambda that was defined in the previous session.

Dill also has some good tools for helping you understand what is causing your pickling to fail when your code fails.

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