A simple wrapper for Python psycopg2 with connection pooling
Project description
The pg_simple module provides a simple yet efficient layer over psycopg2 providing Python API for common SQL functions, explicit and implicit transactions management and database connection pooling for single and multi-threaded applications.
pg_simple is not intended to provide ORM-like functionality, rather to make it easier to interact with the PostgreSQL database from python code for direct SQL access using convenient wrapper methods. The module wraps the excellent psycopg2 library and most of the functionality is provided by this behind the scenes.
The pg_simple module provides:
Simplified handling of database connections/cursor
Connection pool for single or multithreaded access
Python API to wrap basic SQL functionality: select, update, delete, join et al
Query results as python namedtuple and dict objects (using psycopg2.extras.NamedTupleCursor and psycopg2.extras.DictCursor respectively)
Debug logging support
Installation
With pip or easy_install:
pip install pg_simple
or:
easy_install pg_simple
or from the source:
python setup.py install
30 Seconds Quick-start Guide
Step 1: Initialize a connection pool manager using pg_simple.config_pool()
Step 2: Create a database connection and cursor by instantiating a pg_simple.PgSimple object
Here’s a pseudo-example to illustrate the basic concepts:
import pg_simple
pg_simple.config_pool(dsn='dbname=my_db user=my_username ...')
with pg_simple.PgSimple() as db:
db.insert('table_name',
data={'column': 123,
'another_column': 'blah blah'})
db.commit()
with pg_simple.PgSimple() as db1:
rows = db1.fetchall('table_name')Connection pool management
Initialize the connection pool
import pg_simple
pg_simple.config_pool(max_conn=250,
expiration=60, # idle timeout = 60 seconds
host='localhost',
port=5432,
database='pg_simple',
user='postgres',
password='secret')or, using dsn:
pg_simple.config_pool(max_conn=250,
expiration=60,
dsn='dbname=database_name user=postgres password=secret')or, using db_url:
pg_simple.config_pool(max_conn=250,
expiration=60,
db_url= 'postgres://username:password@hostname:numeric_port/database')The above snippets will create a connection pool capable of accommodating a maximum of 250 concurrent database connections. Once that limit is reached and the pool does not contain any idle connections, all subsequent new connection request will result in a PoolError exception (until the pool gets refilled with idle connections).
Take caution to properly clean up all pg_simple.PgSimple objects after use (wrap the object inside python try-finally block or with statement). Once the object is released, it will quietly return the internal database connction to the idle pool. Failure to dispose PgSimple properly may result in pool exhaustion error.
Configure connection pool for thread-safe access
The default SimpleConnectionPool pool manager is not thread-safe. To utilize the connection pool in multi-threaded apps, use the ThreadedConnectionPool:
pg_simple.config_pool(max_conn=250,
expiration=60,
pool_manager=ThreadedConnectionPool,
dsn='...')Disable connection pooling
To disable connection pooling completely, set the disable_pooling parameter to True:
pg_simple.config_pool(disable_pooling=True, dsn='...')All database requests on this pool will create new connections on the fly, and all connections returned to the pool (upon disposal of PgSimple object or by explicitly invoking pool.put_conn()) will be discarded immediately.
Obtaining the current connection pool manager
Call the pg_simple.get_pool() method to get the current pool:
pool = pg_simple.get_pool()Garbage collect stale connections
To explicitly purge the pool of stale database connections (whose duration of stay in the pool exceeds the expiration timeout), invoke the pool.purge_expired_connections() method:
pool = pg_simple.get_pool()
pool.purge_expired_connections()Note that the pool is automatically scavenged for stale connections when an idle connection is returned to the pool (using the pool.put_conn() method).
Basic Usage
Connecting to the posgtresql server
The following snippet will connect to the posgtresql server and allocate a cursor:
import sys
import pg_simple
db = pg_simple.PgSimple(log=sys.stdout,
log_fmt=lambda x: '>> %s' % (x if isinstance(x, str) else x.query),
nt_cursor=True)By default PgSimple generates result sets as collections.namedtuple objects (using psycopg2.extras.NamedTupleCursor). If you want to access the retrieved records using an interface similar to the Python dictionaries (using psycopg2.extras.DictCursor), set the nt_cursor parameter to False:
db = pg_simple.PgSimple(nt_cursor=False)Raw SQL execution
>>> db.execute('SELECT tablename FROM pg_tables WHERE schemaname=%s and tablename=%s', ['public', 'books'])
<cursor object at 0x102352a50; closed: 0>Dropping and creating tables
db.drop('books')
db.create('books',
'''
"id" SERIAL NOT NULL,
"type" VARCHAR(20) NOT NULL,
"name" VARCHAR(40) NOT NULL,
"price" MONEY NOT NULL,
"published" DATE NOT NULL,
"modified" TIMESTAMP(6) NOT NULL DEFAULT now()
'''
)
db.execute('''ALTER TABLE "books" ADD CONSTRAINT "books_pkey" PRIMARY KEY ("id")''')
db.commit()Emptying a table or set of tables
db.truncate('tbl1')
db.truncate('tbl2, tbl3', restart_identity=True, cascade=True)
db.commit()Inserting rows
for i in range(1, 10):
db.insert("books",
{"genre": "fiction",
"name": "Book Name vol. %d" % i,
"price": 1.23 * i,
"published": "%d-%d-1" % (2000 + i, i)})
db.commit()Updating rows
with pg_simple.PgSimple() as db1:
db1.update('books',
data={'name': 'An expensive book',
'price': 998.997,
'genre': 'non-fiction',
'modified': 'NOW()'},
where=('published = %s', [datetime.date(2001, 1, 1)]))
db1.commit()Deleting rows
db.delete('books', where=('published >= %s', [datetime.date(2005, 1, 31)]))
db.commit()Inserting/updating/deleting rows with return value
row = db.insert("books",
{"type": "fiction",
"name": "Book with ID",
"price": 123.45,
"published": "1997-01-31"},
returning='id')
print(row.id)
rows = db.update('books',
data={'name': 'Another expensive book',
'price': 500.50,
'modified': 'NOW()'},
where=('published = %s', [datetime.date(2006, 6, 1)]),
returning='modified')
print(rows[0].modified)
rows = db.delete('books',
where=('published >= %s', [datetime.date(2005, 1, 31)]),
returning='name')
for r in rows:
print(r.name)Fetching a single record
book = db.fetchone('books',
fields=['name', 'published'],
where=('published = %s', [datetime.date(2002, 2, 1)]))
print(book.name + 'was published on ' + book[1])Fetching multiple records
books = db.fetchall('books',
fields=['name AS n', 'genre AS g'],
where=('published BETWEEN %s AND %s', [datetime.date(2005, 2, 1), datetime.date(2009, 2, 1)]),
order=['published', 'DESC'],
limit=5,
offset=2)
for book in books:
print(book.n + 'belongs to ' + book[1])Explicit database transaction management
with pg_simple.PgSimple() as _db:
try:
_db.execute('Some SQL statement')
_db.commit()
except:
_db.rollback()Implicit database transaction management
with pg_simple.PgSimple() as _db:
_db.execute('Some SQL statement')
_db.commit()The above transaction will be rolled back automatically should something goes awry.
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
