In perl there was this idea of the tie operator, where writing to or modifying a variable can run arbitrary code (such as updating some underlying Berkeley database file). I'm quite sure there is this concept of overloading in python too.

I'm interested to know what the most idiomatic way is to basically consider a local JSON file as the canonical source of needed hierarchical information throughout the running of a python script, so that changes in a local dictionary are automatically reflected in the JSON file. I'll leave it to the OS to optimise writes and cache (I don't mind if the file is basically updated dozens of times throughout the running of the script), but ultimately this is just about a kilobyte of metadata that I'd like to keep around. It's not necessary to address concurrent access to this. I'd just like to be able to access a hierarchical structure (like nested dictionary) within the python process and have reads (and writes to) that structure automatically result in reads from (and changes to) a local JSON file.

  • 1
    In my experience, I either use shelve when I don't care at all about serialization performance/security or a database (of some flavor) when I do.
    – roippi
    Aug 20, 2014 at 14:03

3 Answers 3


well, since python itself has no signals-slots, I guess you can instead make your own dictionary class by inherit it from python dictionary. Class exactly like python dict, only in every method of it that can change dict values you will dump your json.

also you can use smth like PyQt4 QAbstractItemModel which has signals. And when it data changed signal will emitted, do your dumping - it will be only in one place, which is nice.

I know these two are sort of stupid ways, probably yea. :) If anyone knows better, go ahead and tell!

  • This would only work for the top level...and only for simple keys/values. Every nested item would have to be a special class as well, with over-ridden special methods.
    – Gerrat
    Aug 19, 2014 at 21:17
  • @Gerrat forgive me, I don't get it. What exactly will be not working and why?
    – Bruno Gelb
    Aug 19, 2014 at 21:19
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    eg. dict1 = {'x':1}; dict2 = {'a':1, 'b':dict1}; Now we "tie" dict2 to a file on disk. If I now say: dict1['x'] = 444, dict2 will be updated to reflect that change, but your copy on disk won't be, since we didn't change that member directly through dict2.
    – Gerrat
    Aug 19, 2014 at 21:23

This is a developpement from aspect_mkn8rd' answer taking into account Gerrat's comments, but it is too long for a true comment.

You will need 2 special container classes emulating a list and a dictionnary. In both, you add a pointer to a top-level object and override the following methods :

  • __setitem__(self, key, value)
  • __delitem__(self, key)
  • __reversed__(self)

All those methods are called in modification and should have the top-level object to be written to disk.

In addition, __setitem__(self, key, value) should look if value is a list and wrap it into a special list object or if it is a dictionary, wrap it into a special dictionnary object. In both case, the method should set the top-level object into the new container. If neither of them and the object defines __setitem__, it should raise an Exception saying the object is not supported. Of course you should then modify the method to take in account this new class.

Of course, there is a good deal of code to write and test, but it should work - left to the reader as an exercise :-)


If concurrency is not required, maybe consider writing 2 functions to read and write the data to a shelf file? Our is the idea to have the dictionary" aware" of changes to update the file without this kind of thing?

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