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In C, we can find the size of an int, char, etc. I want to know how to get size of objects like a string, integer, etc. in Python.

Related question: How many bytes per element are there in a Python list (tuple)?

I am using an XML file which contains size fields that specify the size of value. I must parse this XML and do my coding. When I want to change the value of a particular field, I will check the size field of that value. Here I want to compare whether the new value that I'm gong to enter is of the same size as in XML. I need to check the size of new value. In case of a string I can say its the length. But in case of int, float, etc. I am confused.

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45  
You might want to make sure nothing insane is happening, like a 10 megabyte variable, etc. –  Kurt Jan 16 '09 at 8:32
37  
There is value in such information when optimising memory usage for the same reason profiler stats are valuable for optimising speed - knowing where to focus your effort. There's no point optimising your 50 Bar class instances for low memory when a list of 100000 Foos takes up the bulk of memory. –  Brian Jan 16 '09 at 13:05
    
"optimizing memory"? I suppose one might. Generally, we optimize speed -- if we don't have enough speed we use more memory. If the system as a whole is slow, someone may be hogging memory, and then we might care. Usually it's cheaper to buy more memory. But it's possible to optimize memory. –  S.Lott Jan 16 '09 at 19:02
24  
@S.Lott it does in a scientific programming context, if you're trying to figure out if a particular problem will fit in memory. –  saffsd May 17 '09 at 1:28
15  
@S. Lott Knowing the size of variables become's invaluable for sanity checking an event driven environment, like say a Twisted based application where there are numerous queue's and delegating constructs –  David Jan 22 '10 at 2:26

7 Answers 7

Just use the sys.getsizeof function defined in the sys module.

sys.getsizeof(object[, default]):

Return the size of an object in bytes. The object can be any type of object. All built-in objects will return correct results, but this does not have to hold true for third-party extensions as it is implementation specific.

The default argument allows to define a value which will be returned if the object type does not provide means to retrieve the size and would cause a TypeError.

getsizeof calls the object’s __sizeof__ method and adds an additional garbage collector overhead if the object is managed by the garbage collector.

Usage example, in python 3.0:

>>> import sys
>>> x = 2
>>> sys.getsizeof(x)
14
>>> sys.getsizeof(sys.getsizeof)
32
>>> sys.getsizeof('this')
38
>>> sys.getsizeof('this also')
48

If you are in python < 2.6 and don't have sys.getsizeof you can use this extensive module instead. Never used it though.

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how to do in Python 2.5.2 ? –  user46646 Jan 17 '09 at 6:20
    
As a special case, to find out the largest integer supported by the integer type, use sys.maxint. –  Vlad the Impala Mar 31 '10 at 4:19
110  
Thanks, but I disagree that it's "almost useless." –  g33kz0r Feb 13 '11 at 9:10
10  
why the int obj takes 14 bytes? –  RNA Jun 6 '13 at 18:11
5  
it IS QUITE IMPORTANT if you're trying to find which object keeps building up memory in self vars. I have several objects, each of which stores internal state and some cached data. Memory is running low, but I don't know which object is using all the memory. Thus, this is QUITE useful. –  Kevin J. Rice Oct 23 '13 at 15:50

For numpy arrays, getsizeof doesn't work - for me it always returns 40 for some reason:

from pylab import *
from sys import getsizeof
A = rand(10)
B = rand(10000)

Then (in ipython):

In [64]: getsizeof(A)
Out[64]: 40

In [65]: getsizeof(B)
Out[65]: 40

Happily, though:

In [66]: A.nbytes
Out[66]: 80

In [67]: B.nbytes
Out[67]: 80000
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19  
>All built-in objects will return correct results, but this does not have to hold true for third-party extensions as it is implementation specific. docs.python.org/library/sys.html#sys.getsizeof –  warvariuc Jun 30 '11 at 11:59
9  
"If you are using a numpy array (docs.scipy.org/doc/numpy/reference/arrays.ndarray.html) then you can use the attribute 'ndarray.nbytes' to evaluate its size in memory." stackoverflow.com/a/15591157/556413 –  glarrain Apr 22 '13 at 22:24
3  
I would guess 40 bytes is correct, however getsizeof() only gives you the size of the object (the header of the array), not of the data inside. Same for python containers where sys.getsizeof([1,2,4]) == sys.getsizeof([1,123**456,4]) == 48, while sys.getsizeof(123**456) = 436 –  yota May 15 '14 at 13:57

This can be more complicated than it looks depending on how you want to count things. For instance, if you have a list of ints, do you want the size of the list containing the references to the ints? (ie. list only, not what is contained in it), or do you want to include the actual data pointed to, in which case you need to deal with duplicate references, and how to prevent double-counting when two objects contain references to the same object.

You may want to take a look at one of the python memory profilers, such as pysizer to see if they meet your needs.

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How do I determine the size of an object in Python?

The answer, "Just use sys.getsizeof" is not quite a complete answer.

This does work for builtin objects directly, but it does not account for what they may contain, specifically, what types other than numbers and strings contain.

Using 64 bit Python 2.7 from the Anaconda distribution and guppy.hpy along with sys.getsizeof, I have determined the minimum size of the following objects, and note that sets and dicts preallocate space so empty ones don't grow again until after a set amount (which may vary by implementation of the language):

Bytes  type        empty + scaling notes
24     int         NA
28     long        NA
37     str         + 1 byte per additional character
52     unicode     + 4 bytes per additional character
56     tuple       + 8 bytes per additional item
72     list        + 32 for first, 8 for each additional
232    set         sixth item increases to 744; 22nd, 2280; 86th, 8424
280    dict        sixth item increases to 1048; 22nd, 3352; 86th, 12568
64     class inst  has a __dict__ attr, same scaling as dict above
16     __slots__   class with slots has no dict, seems to store in 
                   mutable tuple-like structure.
120    func def    doesn't include default args and other attrs
904    class def   has a proxy __dict__ structure for class attrs
104    old class   makes sense, less stuff, has real dict though.

I think 8 bytes per addition item to reference makes a lot of sense on a 64 bit machine. Those 8 bytes point to the place in memory the contained item is at. The 4 bytes are fixed width for unicode in Python 2, if I recall correctly, but in Python 3, str becomes a unicode of width equal to the max width of the characters.

(And for more on slots, see this answer: http://stackoverflow.com/a/28059785/541136 )

To cover most of these types, I wrote this recursive function to try to estimate the size of most Python objects:

import sys
import numbers
import collections

def getsize(obj):
    # recursive function to dig out sizes of member objects:               
    def inner(obj, _seen_ids = set()):
        obj_id = id(obj)
        if obj_id in _seen_ids:
            return 0
        _seen_ids.add(obj_id)
        size = sys.getsizeof(obj)
        if isinstance(obj, (basestring, numbers.Number, xrange)):
            pass # bypass remaining control flow and return                
        elif isinstance(obj, (tuple, list, set, frozenset)):
            size += sum(inner(i) for i in obj)
        elif isinstance(obj, collections.Mapping) or hasattr(obj, 'iteritems'):
            size += sum(inner(k) + inner(v) for k, v in obj.iteritems())
        else:
            attr = getattr(obj, '__dict__', None)
            if attr is not None:
                size += inner(attr)
        return size
    return inner(obj)

And I tested it rather casually (I should unittest it):

>>> getsize(['a', tuple('bcd'), Foo()])
344
>>> getsize(Foo())
16
>>> getsize(tuple('bcd'))
194
>>> getsize(['a', tuple('bcd'), Foo(), {'foo': 'bar', 'baz': 'bar'}])
752
>>> getsize({'foo': 'bar', 'baz': 'bar'})
400
>>> getsize({})
280
>>> getsize({'foo':'bar'})
360
>>> getsize('foo')
40
>>> class Bar():
...     def baz():
...         pass
>>> getsize(Bar())
352
>>> getsize(Bar().__dict__)
280
>>> sys.getsizeof(Bar())
72
>>> getsize(Bar.__dict__)
872
>>> sys.getsizeof(Bar.__dict__)
280

It kind of breaks down on class definitions and function definitions because I don't go after all of their attributes, but since they should only exist once in memory for the process, their size really doesn't matter too much.

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First: an answer.

import sys

try: print sys.getsizeof(object)
except AttributeError:
    print "sys.getsizeof exists in Python ≥2.6"

Discussion:
In Python, you cannot ever access "direct" memory addresses. Why, then, would you need or want to know how many such addresses are occupied by a given object?? It's a question that's entirely inappropriate at that level of abstraction. When you're painting your house, you don't ask what frequencies of light are absorbed or reflected by each of the constituent atoms within the paint, you just ask what color it is -- the details of the physical characteristics that create that color are beside the point. Similarly, the number of bytes of memory that a given Python object occupies is beside the point.

So, why are you trying to use Python to write C code? :)

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2  
Your answer was incorrectly voted up since it was generally useful, but not an actual answer to the question. So I added an answer part first. As it was, it should be a comment to the question. –  tzot Jan 16 '09 at 13:07
62  
The discussion part not justified. If you run into memory problems it can be very relevant to know where the memory goes. For example large scale scientific calculations using numpy easily run into this problem. Just because you can't think of a use case does not mean there isn't one! –  nikow May 29 '09 at 16:00
2  
If sys.getsizeof(obj) <= 256, then it will be allocated alongside similar-sized objects using Python's small request allocator (see Object/obmalloc.c in the Python source code), thus avoiding memory fragmentation. If the size is > 256, then it'll just use malloc(). This can matter if you have a long-running process and you're going to be creating a lot of these objects. –  dlitz Apr 18 '13 at 22:15
    
If python doesn't have to care about memory, then why would a functionality like __slots__ exist? slots is an optimization done to reduce the size of an object. –  Jeeyoung Kim Apr 23 at 21:08

Here is a quick script I wrote based on the previous answers to list sizes of all variables

for i in dir():
    try:
        print (i, eval(i).nbytes )
    except:
        print (i, sys.getsizeof(eval(i)) )
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What's wrong with this approach? Why the downvotes? –  mlissner Oct 3 '13 at 6:06
    
It is not wrong, it is ambiguous. sys.getsizeof will always return value is needed, so there is no need to loose performance with try..except. –  der_fenix Jul 14 '14 at 8:14
    
oh, that's a good point and I didn't think about it - the code in the form it is right now just shows how it was chronologically written - first I knew about numpy (hence nbytes), then I looked up a more generic solution. Thank you for the explanation _/\_ –  alexey Jul 14 '14 at 22:32

Besides int and float, nothing is really fixed in size (And int is now long in Python 3, so so much for that). So you'd have to make a function sizeof function that specially works on the object based on type() or something. Either way, sizeof messes seem unpythonic

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3  
Even ints aren't fixed since they automatically spill over to long ints when they don't fit. –  Cristian Jan 16 '09 at 7:20
    
-1: this function already exists. –  nosklo Jan 16 '09 at 10:45
    
You are correct Cristian –  user46646 Jan 17 '09 at 10:24

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