# Why does python implementation use 9 times more memory than C?

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 = 
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
break
n = n + 1
if prime == True:
prime_list.append(num)
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 = 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;
break;
}
j++;
}
if (isPrime == 1){
primes[arraySize] = i;
arraySize++;
}
if (availableSlots == arraySize){
timesRealloc++;
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;
}
``````
• 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. Mar 26 '19 at 22:43
• Python does not have arrays, so it can not be "the same array". Also the int types in C and Python are very different. Mar 26 '19 at 22:44
• @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)
28
``````

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;
};
``````

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. `array`s have the `append` method thanks to which growing an array should be even easier than in C / with `realloc`.

• 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