# calculating the real size of a python string

First of all this is my computer Spec :

So this morning I've tested the following 2 code snippets:

code A

``````a = 'a' * 1000000000
``````

and code B

``````a = 'a' * 10000000000
``````

The code A works fine. But the code B give me some error message :

``````Traceback (most recent call last):
File "<stdin>", line 1, in <module>
MemoryError
``````

So I started a researching about method to measuring the size of data on python.

The first thing I've found is the classic built-in function `len()`.

for code A function `len()` returned the value `1000000000`, but for code B the same memory error was returned.

After this I decided to get more precision on this tests. So I've found a function from the `sys` module called `getsizeof()`. With this function I made the same test on code A:

``````sys.getsizeof( 'a' * 1000000000 )
``````

the result return is `1000000037` (in bytes)

• question 1 - which means `0.9313226090744` gigabytes?

So I checked the amount of bytes of a string with a single character `'a'`

``````sys.getsizeof( 'a' )
``````

the result return is `38` (in bytes)

• question 02 - which means if we need a string composed of 1000000000 character `'a'` this will result in 38 * 1000000000 = 38.000.000.000 bytes?

• question 03 - which means we need a 35.390257835388 gigabytes to hold a string like this?

I would like to know where is the error in this reasoning! Because this not any sense to me '-'

-
Maybe it's `37 + N` where `N` is length of string in bytes? Check this: `sys.getsizeof('aa')` – alex_jordan Sep 3 '13 at 15:47
What was the size of 'aa' and 'aaa'? – Wooble Sep 3 '13 at 15:50

Python objects have a minimal size, the overhead of keeping several pieces of bookkeeping data attached to the object.

A Python `str` object is no exception. Take a look at the difference between a string with no, one, two and three characters:

``````>>> import sys
>>> sys.getsizeof('')
37
>>> sys.getsizeof('a')
38
>>> sys.getsizeof('aa')
39
>>> sys.getsizeof('aaa')
40
``````

The Python `str` object overhead is 37 bytes on my machine, but each character in the string only takes one byte over the fixed overhead.

Thus, a `str` value with 1000 million characters requires 1000 million bytes + 37 bytes overhead of memory. That is indeed about 0.931 gigabytes.

Your sample code 'B' created ten times more characters, so you needed nearly 10 gigabyte of memory just to hold that one string, not counting the rest of Python, and the OS and whatever else might be running on that machine.

-
I make it 9.31323 gb.... not 0.953.... – Jon Clements Sep 3 '13 at 16:02
@JonClements: that's string B, not A. – Martijn Pieters Sep 3 '13 at 16:03
@JonClements: String A creates 10 ** 9 strings, that's `(10 ** 9 + 37) / (1024.0 ** 3)`, sample B gives you 9.31 GB. – Martijn Pieters Sep 3 '13 at 16:06