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I have been using Python's pickle module for implementing a thin file-based persistence layer. The persistence layer (part of a larger library) relies heavily on pickle's persistent_id feature to save objects of specified classes as separate files.

The only issue with this approach is that pickle files are not human editable, and I'd much rather have objects saved in a format that is human readable and editable with a text editor (e.g., YAML or JSON).

Do you know of any library that uses a human-editable format and offers features similar to pickle's persistent_id? Alternatively, do you have suggestions for implementing them on top of a YAML- or JSON-based serialization library, without rewriting a large subset of pickle?

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It is difficult to make suggestions on how to implement a persistence system without any description of its purpose or requirements. –  taleinat Nov 4 '11 at 11:27
@taleinat well the question has a narrower scope than implementing a persistence system: is there any library that offers a feature similar to pickle's persistent_id mechanism, but uses a human-editable format? (But you're right the last part could cause some confusion - I'll try to reword it) –  Riccardo Murri Nov 5 '11 at 15:15

1 Answer 1

up vote 4 down vote accepted

I haven't tried this yet myself, but I think you should be able to do this elegantly with PyYAML using what they call "representers" and "resolvers".


After an extensive exchange of comments with the poster, here is a method to achieve the required behavior with PyYAML.

Important Note: If a Persistable instance has another such instance as an attribute, or contained somehow inside one of its attributes, then the contained Persistable instance will not be saved to yet another separate file, rather it will be saved inline in the same file as the parent Persistable instance. To the best of my understanding, this limitation also existed in the OP's pickle-based system, and may be acceptable for his/her use cases. I haven't found an elegant solution for this which doesn't involve hacking yaml.representer.BaseRepresenter.

import yaml
from functools import partial

class Persistable(object):
    # simulate a unique id
    _unique = 0

    def __init__(self, *args, **kw):
        Persistable._unique += 1
        self.persistent_id = ("%s.%d" %
                              (self.__class__.__name__, Persistable._unique))

def persistable_representer(dumper, data):
    id = data.persistent_id
    print "Writing to file: %s" % id
    outfile = open(id, 'w')
    return dumper.represent_scalar(u'!xref', u'%s' % id)

class PersistingDumper(yaml.Dumper):

PersistingDumper.add_representer(Persistable, persistable_representer)
my_yaml_dump = partial(yaml.dump, Dumper=PersistingDumper)

def persistable_constructor(loader, node):
    xref = loader.construct_scalar(node)
    print "Reading from file: %s" % id
    infile = open(xref, 'r')
    value = yaml.load(
    return value

yaml.add_constructor(u'!xref', persistable_constructor)

# example use, also serves as a test
class Foo(Persistable):
    def __init__(self): = 1

class Bar(Persistable):
    def __init__(self, foo): = foo

foo = Foo()
bar = Bar(foo)
print "=== foo ==="
dumped_foo = my_yaml_dump(foo)
print dumped_foo
print yaml.load(dumped_foo)
print yaml.load(dumped_foo).one

print "=== bar ==="
dumped_bar = my_yaml_dump(bar)
print dumped_bar
print yaml.load(dumped_bar)
print yaml.load(dumped_bar).foo
print yaml.load(dumped_bar)

baz = Bar(Persistable())
print "=== baz ==="
dumped_baz = my_yaml_dump(baz)
print dumped_baz
print yaml.load(dumped_baz)

From now on use my_yaml_dump instead of yaml.dump when you want to save instances of the Persistable class to separate files. But don't use it inside persistable_representer and persistable_constructor! No special loading function is necessary, just use yaml.load.

Phew, that took some work... I hope this helps!

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Many thanks for the suggestion! However, I can't make this work (not easily, at least): Main problems: (1) PyYAML decides which representer to use based on an object's primary class only, so adding an attribute persistent_id or making objects subclasses of a specified Persistent class does not work; (2) So the representer function cannot decide whether to use the "cross-ref" representation or the plain YAML one: this would require telling when the representer is called as part of dumping another object, or "natively"-otherwise we get infinite recursion. –  Riccardo Murri Nov 8 '11 at 19:42
Your code is entering an infinite recursion because you're calling yaml.dump(data) inside the representer, and you told yaml.dump to use that representer to dump that data! Try building upon the representer/constructor example in the PyYAML documentation page I linked to. Specifically, you should use dumper.represent_scalar instead of yaml.dump inside your representer, and loader.construct_scalar instead of yaml.load in your constructor. –  taleinat Nov 8 '11 at 20:34
Yes, I know why it's entering an infinite recursion. The point is that I cannot use the represent_scalar/construct_scalar functions, because the "persistent" objects are not simple scalars, they are Python objects of which I have to get a "regular" YAML representation. This is what pickle's persistent_id does: it generates the normal pickled representation, but saves it to a different file. –  Riccardo Murri Nov 8 '11 at 21:03
I see, you want to yaml.dump the object again but without the special treatment, and save that to a file, correct? If so, wouldn't doing the same thing with pickle would the same problem? How did you overcome this in your pickle-based solution? –  taleinat Nov 8 '11 at 21:20
Yes, correct. In the pickle-based solution I did not do any special magic; it's a feature of pickle, documented here. –  Riccardo Murri Nov 8 '11 at 21:32

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