objgraph is a module that lets you visually explore Python object graphs.

You’ll need graphviz if you want to draw the pretty graphs.

I recommend xdot for interactive use. pip install xdot should suffice; objgraph will automatically look for it in your PATH .

If you prefer to handle your own file output, you can provide a file object to the output parameter of show_refs and show_backrefs instead of a filename. The contents of this file will contain the graph source in DOT format.

You should see a graph like this:

(If you’ve installed xdot , omit the filename argument to get the interactive viewer.)

Memory leak example¶

The original purpose of objgraph was to help me find memory leaks. The idea was to pick an object in memory that shouldn’t be there and then see what references are keeping it alive.

To get a quick overview of the objects in memory, use the imaginatively-named show_most_common_types() :

>>> objgraph . show_most_common_types () tuple 5224 function 1329 wrapper_descriptor 967 dict 790 builtin_function_or_method 658 method_descriptor 340 weakref 322 list 168 member_descriptor 167 type 163

But that’s looking for a small needle in a large haystack. Can we limit our haystack to objects that were created recently? Perhaps.

Let’s define a function that “leaks” memory

>>> class MyBigFatObject ( object ): ... pass ... >>> def computate_something ( _cache = {}): ... _cache [ 42 ] = dict ( foo = MyBigFatObject (), ... bar = MyBigFatObject ()) ... # a very explicit and easy-to-find "leak" but oh well ... x = MyBigFatObject () # this one doesn't leak

We take a snapshot of all the objects counts that are alive before we call our function

>>> objgraph . show_growth ( limit = 3 ) tuple 5228 +5228 function 1330 +1330 wrapper_descriptor 967 +967

and see what changes after we call it

>>> computate_something () >>> objgraph . show_growth () MyBigFatObject 2 +2 dict 797 +1

It’s easy to see MyBigFatObject instances that appeared and were not freed. I can pick one of them at random and trace the reference chain back to one of the garbage collector’s roots.

For simplicity’s sake let’s assume all of the roots are modules. objgraph provides a function, is_proper_module() , to check this. If you’ve any examples where that isn’t true, I’d love to hear about them (although see Reference counting bugs).

>>> import random >>> objgraph . show_chain ( ... objgraph . find_backref_chain ( ... random . choice ( objgraph . by_type ( 'MyBigFatObject' )), ... objgraph . is_proper_module ), ... filename = 'chain.png' ) Graph written to ...dot (13 nodes) Image generated as chain.png

It is perhaps surprising to find linecache at the end of that chain (apparently doctest monkey-patches it), but the important things – computate_something() and its cache dictionary – are in there.

There are other tools, perhaps better suited for memory leak hunting: heapy, Dozer.