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I'm running a large query in a python script against my postgres database using psycopg2 (I upgraded to version 2.5). After the query is finished, I close the cursor and connection, and even run gc, but the process still consumes a ton of memory (7.3gb to be exact). Am I missing a cleanup step?

import psycopg2
conn = psycopg2.connect("dbname='dbname' user='user' host='host'")
cursor = conn.cursor()
cursor.execute("""large query""")
rows = cursor.fetchall()
del rows
cursor.close()
conn.close()
import gc
gc.collect()
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1 Answer

up vote 4 down vote accepted

First, you shouldn't need all that RAM in the first place. What you should be doing here is fetching chunks of the result set. Don't do a fetchall(). Instead, use the much more efficient cursor.fetchmany method. See the psycopg2 documentation.

Now, the explanation for why it isn't freed, and why that isn't a memory leak in the formally correct use of that term.

Most processes don't release memory back to the OS when it's freed, they just make it available for re-use elsewhere in the program.

Memory may only be released to the OS if the program can compact the remaining objects scattered through memory. This is only possible if indirect handle references are used, since otherwise moving an object would invalidate existing pointers to the object. Indirect references are rather inefficient, especially on modern CPUs where chasing pointers around does horrible things to performance.

What usually lands up happening unless extra caution is exersised by the program is that each large chunk of memory allocated with brk() lands up with a few small pieces still in use.

The OS can't tell whether the program considers this memory still in use or not, so it can't just claim it back. Since the program doesn't tend to access the memory the OS will usually swap it out over time, freeing physical memory for other uses. This is one of the reasons you should have swap space.

It's possible to write programs that hand memory back to the OS, but I'm not sure that you can do it with Python.

See also:

So: this isn't actually a memory leak. If you do something else that uses lots of memory, the process shouldn't grow much if at all, it'll re-use the previously freed memory from the last big allocation.

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Thanks! Confirmed that memory is reused by running the above code twice in the same process. Memory didn't increase during the second run. –  Adam Berlinsky-Schine Jun 20 '13 at 20:15
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