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Is it possible to access database in one process, created in another? I tried:


import sqlite3
conn = sqlite3.connect(':memory:')
c = conn.cursor()
c.execute("create table test(testcolumn)")
c.execute("insert into test values('helloooo')")


import sqlite3
conn = sqlite3.connect(':memory:')
c = conn.cursor()
c.execute("select * from test")


Traceback (most recent call last):
  File "<pyshell#5>", line 1, in <module>
    q = c.execute("select * from test")
sqlite3.OperationalError: no such table: test
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Each process that connects to :memory: creates its own, unique, private database, invisible to all other processes. – zwol Mar 30 '13 at 16:20
up vote 9 down vote accepted

No, they cannot ever access the same in-memory database. Instead, a new connection to :memory: always creates a new database.

From the SQLite documentation:

Every :memory: database is distinct from every other. So, opening two database connections each with the filename ":memory:" will create two independent in-memory databases.

This is different from an on-disk database, where creating multiple connections with the same connection string means you are connecting to one database.

Within one process it is possible to share an in-memory database if you use the file::memory:?cache=shared URI:

conn = sqlite3.connect('file::memory:?cache=shared')

but this is still not accessible from other another process.

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Thanks for clearing it! – DDC Mar 31 '13 at 6:44
even "file::memory:?cache=shared" only allows separate database connections to share the same in-memory database. But, all database connections sharing the in-memory database need to be in the same process. sqlite.org/inmemorydb.html – corretge Jun 5 '15 at 6:52
@corretge: the file::memory:?cache=shared url was only introduced a few months before I wrote this, I see. I've added a mention, but as you say this is not usable across multiple processes. – Martijn Pieters Jun 5 '15 at 8:51

of course I agree with @Martijn because doc says so, but if you are focused on unix like systems, then you can make use of shared memory:

If you create file in /dev/shm folder, all files create there are mapped directly to RAM, so you can use to access the-same database from two-different processes.

rm -f /dev/shm/test.db
time bash -c $'
sqlite3 $FILE "create table if not exists tab(id int);"
sqlite3 $FILE "insert into tab values (1),(2)"
for i in 1 2 3 4; do sqlite3 $FILE "INSERT INTO tab (id) select (a.id+b.id+c.id)*abs(random()%1e7) from tab a, tab b, tab c limit 5e5"; done; #inserts at most 2'000'000 records to db.
sqlite3 $FILE "select count(*) from tab;"'

it takes that much time:

real    0m0.927s
user    0m0.834s
sys 0m0.092s

for at least 2 million records, doing the same on HDD takes (this is the same command but FILE=/tmp/test.db):

real    0m2.309s
user    0m0.871s
sys 0m0.138s

so basically this allows you accessing the same databases from different processes (without loosing r/w speed):

Here is demo demonstrating this what I am talking about:

xterm -hold -e 'sqlite3 /dev/shm/testbin "create table tab(id int); insert into tab values (42),(1337);"' &
xterm -hold -e 'sqlite3 /dev/shm/testbin "insert into tab values (43),(1338); select * from tab;"' &
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