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I'm trying to pickle quite an involved object hierarchy and getting the exception:

pickle.PicklingError: Can't pickle <class 'function'>: attribute lookup builtins.function failed

Are there any reasonable methods one can use to test the pickleablility of an object hierarchy? My aim would be to find the location of the offending function

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up vote 3 down vote accepted

To do this, I'd use dill, which can serialize almost anything in python. Dill also has some good tools for helping you understand what is causing your pickling to fail when your code fails.

>>> import dill
>>> dill.loads(dill.dumps(your_bad_object))
>>> ...
>>> # if you get a pickling error, use dill's tools to figure out a workaround
>>> dill.detect.badobjects(your_bad_object, depth=0)
>>> dill.detect.badobjects(your_bad_object, depth=1)
>>> ...

If you absolutely wanted to, you could use dill's badobjects (or one of the other detection functions) to dive recursively into your object's reference chain, and pop out the unpickleable objects, instead of calling it at at every depth, as above.

Also, objgraph is a pretty handy compliment to the test suite too.

>>> # visualize the references in your bad objects
>>> objgraph.show_refs(your_bad_object, filename='your_bad_object.png')
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I did this, it does the trick for me a lot of the time... I'll update this once I have found something totally foolproof

It makes a bunch of prints then raises an exception if there is one to be raised so you can see what part of the object hierarchy is causing the problem.

def test_pickle(xThing,lTested = []):
    import pickle
    if id(xThing) in lTested:
        return lTested
    sType = type(xThing).__name__
    print('Testing {0}...'.format(sType))

    if sType in ['type','int','str']:
        print('...too easy')
        return lTested
    if sType == 'dict':
        print('...testing members')
        for k in xThing:
            lTested = Pickalable.test_pickle(xThing[k],lTested)
        print('...tested members')
        return lTested
    if sType == 'list':
        print('...testing members')
        for x in xThing:
            lTested = Pickalable.test_pickle(x)
        print('...tested members')
        return lTested

    lTested.append(id(xThing))
    oClass = type(xThing)

    for s in dir(xThing):
        if s.startswith('_'):
            print('...skipping *private* thingy')
            continue
        #if it is an attribute: Skip it
        try:
            xClassAttribute = oClass.__getattribute__(oClass,s)
        except AttributeError:
            pass
        else:
            if type(xClassAttribute).__name__ == 'property':
                print('...skipping property')
                continue

        xAttribute = xThing.__getattribute__(s)
        print('Testing {0}.{1} of type {2}'.format(sType,s,type(xAttribute).__name__))
        #if it is a function make sure it is stuck to the class...
        if type(xAttribute).__name__ == 'function':
            raise Exception('ERROR: found a function')
        if type(xAttribute).__name__ == 'method':
            print('...skipping method')
            continue
        if type(xAttribute).__name__ == 'HtmlElement':
            continue
        if type(xAttribute) == dict:
            print('...testing dict values for {0}.{1}'.format(sType,s))
            for k in xAttribute:
                lTested = Pickalable.test_pickle(xAttribute[k])
                continue
            print('...finished testing dict values for {0}.{1}'.format(sType,s))

        try:
            oIter = xAttribute.__iter__()
        except AttributeError:
            pass
        except AssertionError:
            pass #lxml elements do this
        else:
            print('...testing iter values for {0}.{1} of type {2}'.format(sType,s,type(xAttribute).__name__))
            for x in xAttribute:   
                lTested = Pickalable.test_pickle(x,lTested)
            print('...finished testing iter values for {0}.{1}'.format(sType,s))

        try:
            xAttribute.__dict__
        except AttributeError:
            pass
        else:
            #this attribute should be explored seperately...
            lTested = Pickalable.test_pickle(xAttribute,lTested)
            continue
        pickle.dumps(xAttribute)


    print('Testing {0} as complete object'.format(sType))
    pickle.dumps(xThing)
    return lTested   
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