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In Python,

how big can an array/list get? I need an array about 12000 elements large... is that okay? - will I still be able to run array/list methods such as sorting, etc?

Thanks so much, Ed

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There is a big difference between arrays and lists in python. – recursive Sep 21 '09 at 20:34
up vote 117 down vote accepted

According to the source code, the maximum size of a list is PY_SSIZE_T_MAX/sizeof(PyObject*).

PY_SSIZE_T_MAX is defined in pyport.h to be ((size_t) -1)>>1

On a regular 32bit system, this is (4294967295 / 2) / 4 or 536870912.

Therefore the maximum size of a python list on a 32 bit system is 536,870,912 elements.

As long as the number of elements you have is equal or below this, all list functions should operate correctly.

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Why is sizeof(PyObject*) == 4?? What does this represent? – Matt Dec 1 '15 at 16:05
@Matt, is the number of bytes of a single PyObject *. That thing is a so called pointer(you recognize them because of the asterix at the end) . Pointers are 4 bytes long and store a memory address to the allocated object. They are "only" 4 bytes long because with 4 bytes you can address every element in a memory of nowadays computers. – Antonio Ragagnin Dec 2 '15 at 16:17

Sure it is OK. Actually you can see for yourself easily:

l = range(12000)
l = sorted(l, reverse=True)

Running the those lines on my machine took:

real    0m0.036s
user    0m0.024s
sys  0m0.004s

But sure as everyone else said. The larger the array the slower the operations will be.

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Timing this way can be misleading -- most of the time is spent starting up the Python interpreter. A better way is: python -m timeit.py "l=range(12000); l=sorted(l, reverse=True)". On my machine this gives about 1/20th of the time for this example. – dF. May 12 '09 at 23:29
@dF, You are right about accuracy. Thanks for noting that. I just wanted to prove a point. And the example proves it. – Nadia Alramli May 12 '09 at 23:34
@dF: Awesome! 0.024s was much too long for me and I'm glad I can stop worrying about that now. – Thomas Edleson Feb 19 '11 at 17:50

As the Python documentation says:


The largest positive integer supported by the platform’s Py_ssize_t type, and thus the maximum size lists, strings, dicts, and many other containers can have.

In my computer (Linux x86_64):

>>> import sys
>>> print sys.maxsize
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how does this answer the question – ldgorman Jan 29 '15 at 11:39
@ldgorman,sys.maxsize is the answer to the question. Different architectures support different maxima. – Simon Kuang Feb 2 '15 at 4:39
Does the value returned by sys.maxsize reflect the amount of available RAM in the computer in any way? – GeoJohn Mar 23 '15 at 20:11

In casual code I've created lists with millions of elements. I believe that Python's implementation of lists are only bound by the amount of memory on your system.

In addition, the list methods / functions should continue to work despite the size of the list.

If you care about performance, it might be worthwhile to look into a library such as NumPy.

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Performance characteristics for lists are described on Effbot.

Python lists are actually implemented as vector for fast random access, so the container will basically hold as many items as there is space for in memory. (You need space for pointers contained in the list as well as space in memory for the object(s) being pointed to.)

Appending is O(1) (amortized constant complexity), however, inserting into/deleting from the middle of the sequence will require an O(n) (linear complexity) reordering, which will get slower as the number of elements in your list.

Your sorting question is more nuanced, since the comparison operation can take an unbounded amount of time. If you're performing really slow comparisons, it will take a long time, though it's no fault of Python's list data type.

Reversal just takes the amount of time it required to swap all the pointers in the list (necessarily O(n) (linear complexity), since you touch each pointer once).

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12000 elements is nothing in Python... and actually the number of elements can go as far as the Python interpreter has memory on your system.

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I'd say you're only limited by the total amount of RAM available. Obviously the larger the array the longer operations on it will take.

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Generally true, but not all of them -- appending remains amortized constant time independent of the size of the array. – cdleary May 13 '09 at 0:25
Interesting, thanks for the comment. – Wayne Koorts May 13 '09 at 5:29

There is no limitation of list number. The main reason which causes your error is the RAM. Please upgrade your memory size.

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