A lot. For simple built-in types, you can use
sys.getsizeof on an object to determine the memory overhead associated with that object (for containers, this does not include the values stored in it, only the pointers used to store them).
So for example, a
list of 100 smallish
ints (but greater than 256 to avoid small
int cache) is (on my 3.5.1 Windows x64 install):
>>> sys.getsizeof( * 100) + sys.getsizeof(0) * 100
or about 3 KB of memory required. If those same values were stored in a
int32s, with no Python objects per number, and no per object pointers, the size would drop to roughly 100 * 4 (plus another few dozen bytes, for the
array object overhead itself), somewhere under 500 bytes. The incremental cost for each additional small
int is 24 bytes for the object (though it's free if it's in the small int cache for values from -5 to 256 IIRC), and 8 bytes for the storage in the
list, 32 bytes total, vs. 4 for the C level type, roughly 8x the storage requirements (and you're still storing the original object too).
If you have enough memory to deal with it, so be it. But otherwise, you might trying looking at a wrapping that lets you pass in buffer protocol supporting objects (
array.array on Py3,
ctypes arrays populated via memoryview slice assignment, etc.) so conversion to Python level types isn't needed.