Traversal over Python's objects subtree and calculate the total size of the subtree in bytes (deep size).
Project description
objsize
Traversal over Python's objects subtree and calculate the total size of the subtree in bytes (deep size).
This module traverses all child objects using Python's internal GC implementation.
It attempts to ignore singletons (e.g., None
) and type objects (i.e., classes and modules), as they are common among all objects.
It is implemented without recursive calls for high performance.
Features
- Traverse objects' subtree
- Calculate objects' (deep) size in bytes
- Exclude non-exclusive objects
- Exclude specified objects
- Allow the user to specify how to handle a specific type's size calculation
Pympler also supports determining an object deep size via pympler.asizeof()
.
There are two main differences between objsize
and pympler
.
objsize
has additional features:- Traversing the object subtree: iterating all the object's descendants one by one.
- Excluding non-exclusive objects. That is, objects that are also referenced from somewhere else in the program. This is true for calculating the object's deep size and for traversing its descendants.
objsize
has a simple and robust implementation with significantly fewer lines of code, compared topympler
. The Pympler implementation uses recursion, and thus have to use a maximal depth argument to avoid reaching Python's max depth.objsize
, however, uses BFS which is more efficient and simple to follow. Moreover, the Pympler implementation carefully takes care of any object type.objsize
archives the same goal with a simple and generic implementation, which has fewer lines of code.
Install
pip install objsize
Basic Usage
Calculate the size of the object including all its members in bytes.
>>> import objsize
>>> objsize.get_deep_size(dict(arg1='hello', arg2='world'))
340
It is possible to calculate the deep size of multiple objects by passing multiple arguments:
>>> objsize.get_deep_size(['hello', 'world'], dict(arg1='hello', arg2='world'), {'hello', 'world'})
628
Complex Data
objsize
can calculate the size of an object's entire subtree in bytes regardless of the type of objects in it, and its depth.
Here is a complex data structure, for example, that include a self reference:
my_data = (list(range(3)), list(range(3,6)))
class MyClass:
def __init__(self, x, y):
self.x = x
self.y = y
self.d = {'x': x, 'y': y, 'self': self}
def __repr__(self):
return "MyClass"
my_obj = MyClass(*my_data)
We can calculate my_obj
deep size, including its stored data.
>>> objsize.get_deep_size(my_obj)
708
We might want to ignore non-exclusive objects such as the ones stored in my_data
.
>>> objsize.get_exclusive_deep_size(my_obj)
384
Or simply let objsize
know which objects to exclude:
>>> objsize.get_deep_size(my_obj, exclude=[my_data])
384
Special Objects
Some objects handle their data in a way that prevents Python's GC from detecting it. The user can supply a special way to calculate the actual size of these objects.
import torch
t = torch.rand(200)
Simply calculating this object size won't work:
>>> objsize.get_deep_size(t)
72
So the user can define its own handler for such cases:
import sys
import torch
def get_size_of_torch(o):
if isinstance(o, torch.Tensor):
return sys.getsizeof(o.storage())
else:
return sys.getsizeof(o)
Then use it as follows:
>>> objsize.get_deep_size(t, get_size_func=get_size_of_torch)
848
Traversal
A user can implement its own function over the entire subtree using the traversal method, which traverses all the objects in the subtree.
>>> for o in objsize.traverse_bfs(my_obj):
... print(o)
...
MyClass
{'x': [0, 1, 2], 'y': [3, 4, 5], 'd': {'x': [0, 1, 2], 'y': [3, 4, 5], 'self': MyClass}}
[0, 1, 2]
[3, 4, 5]
{'x': [0, 1, 2], 'y': [3, 4, 5], 'self': MyClass}
2
1
0
5
4
3
Similar to before, non-exclusive objects can be ignored.
>>> for o in objsize.traverse_exclusive_bfs(my_obj):
... print(o)
...
MyClass
{'x': [0, 1, 2], 'y': [3, 4, 5], 'd': {'x': [0, 1, 2], 'y': [3, 4, 5], 'self': MyClass}}
{'x': [0, 1, 2], 'y': [3, 4, 5], 'self': MyClass}
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