I wrote a program to make a list of primes from 2 to a user given number in both python and C. I ran both the programs looking for primes up to the same number and looked at their respective processes in activity monitor. I found that the python implementation used exactly 9 times as much memory as the C implementation. Why does python require so much more memory and why that specific multiple to store the same array of integers? Here are both implementations of the program:

Python version:

import math
import sys

top = int(input('Please enter the highest number you would like to have checked: '))
num = 3
prime_list = [2]
while num <= top:
    n = 0
    prime = True
    while int(prime_list[n]) <= math.sqrt(num):
        if num % prime_list[n] == 0:
            prime = False
            n = 0
        n = n + 1
    if prime == True:
        prime = False
    num = num + 1
print("I found ", len(prime_list), " primes")
print("The largest prime I found was ", prime_list[-1])

C version:

#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <sys/types.h>
#include <unistd.h>

int main(){
    int N;
    int arraySize = 1;
    int *primes = malloc(100*sizeof(int));
    int isPrime = 1;
    primes[0] = 2;
    int timesRealloc = 0;
    int availableSlots = 100;

    printf("Please enter the largest number you want checked: \n");
    scanf("%d", &N);

    int j = 0;
    int i;
    for (i = 3; i <= N; i+=2){
        j = 0;
        isPrime = 1;
        while (primes[j] <= sqrt(i)) {
            if (i%primes[j] == 0) {
                isPrime = 0;
        if (isPrime == 1){
            primes[arraySize] = i;
        if (availableSlots == arraySize){
            availableSlots += 100;
            primes = realloc(primes, availableSlots*sizeof(int));

    printf("I found %d primes\n", arraySize);
    printf("Memory was reallocated %d times\n", timesRealloc);
    printf("The largest prime I found was %d\n", primes[(arraySize-1)]);

    return 0;
  • 4
    First C uses assembly language to execute your program while Python uses an interpreter to execute some intermediate code. Second arrays in C are just memory areas while in Python they are (actually I'm nor sure) complex data structures. Third they may be dead dynamic objects not garbage-collected. Typically OO_languages with a rich type hierarchy and garbage collection use much more memory than C does.
    – U. Windl
    Mar 26 '19 at 22:43
  • 5
    Python does not have arrays, so it can not be "the same array". Also the int types in C and Python are very different.
    – Klaus D.
    Mar 26 '19 at 22:44
  • 1
    @U.Windl yes, everything in CPython is a full-fledged object. List objects do use a primitive array of PyObject pointers underneath the hood, but there's a lot more going on than a C primitive array. Mar 26 '19 at 23:26
  • Excellent research BTW! Mar 27 '19 at 0:33
>>> import sys
>>> sys.getsizeof(123456)

That's 7 times the size of C int. In Python 3 integers are instances of struct _longobject a.k.a PyLong:

struct _longobject {
    PyVarObject ob_base;
    digit ob_digit[1];

where PyVarObject is

typedef struct {
    PyObject ob_base;
    Py_ssize_t ob_size;
} PyVarObject;

and PyObject is

typedef struct _object {
    Py_ssize_t ob_refcnt;
    struct _typeobject *ob_type;
} PyObject;

From that we get the following memory usage for that object 123456 in 64-bit Python build:

  • 8 bytes for reference counter (Py_ssize_t)
  • 8 bytes for pointer to the type object &PyLong_Type (of type PyTypeObject *
  • 8 bytes for counting the number of bytes in the variable-length part of the object; (of type Py_ssize_t)
  • 4 bytes for each 30 bits of digits in the integer.

Since 123456 fits in the first 30 bits, this sums up to 28, or 7 * sizeof (int)

That in addition to the fact that each element in a Python list is a PyObject * which points the actual object; each of these pointers are 64 bits on 64-bit Python builds; which means that each list element reference alone consumes twice as much memory as a C int.

Add together 7 and 2 and you get 9.

For more storage-efficient code you can use arrays; with type code 'i' the memory consumption should be quite close to the C version. arrays have the append method thanks to which growing an array should be even easier than in C / with realloc.

  • 2
    OP could use array module to reduce the memory use, trading for speed as the values are translated back and forth as accessed.
    – Max
    Mar 26 '19 at 22:47

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.