Embrace SQL keeps your SQL queries in SQL files. An anti-ORM inspired by HugSQL and PugSQL
Project description
Does writing complex queries in an ORM feel like driving with the handbrake on? Embrace SQL! Put your SQL queries in regular .sql files, and embrace will load them.
Installation:
pip install embrace
Usage:
import embrace # Connect to your database, using any db-api connector. # If python supports it, so does embrace. conn = psycopg2.connect("postgresql:///mydb") # Create a module populated with queries from a collection of *.sql files: queries = embrace.module("resources/sql") # Run a query users = queries.list_users(conn, order_by='created_at')
Your query would be specified like this:
-- :name list_users :many select * from users where active = :active order by :identifier:order_by
Embrace returns rows using the underlying db-api cursor. Most db-api libraries have cursor types that return dicts or namedtuples. For example in Postgresql you could do this:
conn = psycopg2.connect( "postgresql:///mydb", cursor_factory=psycopg2.extras.NamedTupleCursor) )
What is the format of a query SQL file?
Embrace-SQL tries to stick close to the format used by HugSQL and PugSQL. SQL files normally contain special comments to specify the query name and result type, and an SQL query:
-- :name get_user_count -- :result :scalar SELECT count(1) FROM users
If a result type is omitted, it will default to cursor. Also, the result type can be included directly after the name:
-- :name get_user_count :scalar
If :name is omitted, it will default to the filename without the file extension.
A single file may contain multiple queries, separated by a structured SQL comment. For example to create two query objects accessible as queries.list_users() and queries.get_user_by_id():
-- :name list_users :many select * from users -- :name get_user_by_id :one select * from users where id=:id
But if you don’t have the separating comment, embrace-sql can run multiple statements in a single query call, returning the result from just the last one.
Why? Because it makes this possible in MySQL:
-- :result :column insert into users (name, email) values (:name, :email); select last_insert_id();
What can queries return?
The following result types are supported:
:affected, :n |
The number of rows affected |
:first |
The first row, as returned by cursor.fetchone(), or None if no row is found. |
:one, :1 |
A single row, as returned by cursor.fetchone(), usually as a tuple (but most db-api modules have extensions allowing you to access rows as dicts or named tuples. If no row is generated by the query, embrace.exceptions.NoResultFound will be raised. If more than one row is generated by the query, embrace.exceptions.MultipleResultsFound will be raised. |
exactly-one`, ``:=1 |
Synonyms for :one, retained for compatibility |
:one-or-none |
As one, but returns None if no row is returned by the query. |
:many, :* |
An iterator over a number of rows. Each row will be the value returned by cursor.fetchone(), usually a tuple. |
:cursor, :raw |
The cursor object. |
:scalar |
The value of the first column of the first row returned by the query. If no row is generated by the query, a NoResultFound will be raised. |
:column |
An iterator over the values in the first column returned. |
You can override the return type specified by the query from Python code by using one of the following methods on the Query object:
affected
one
exactlyone
many
cursor
scalar
column
How do parameters work?
Placeholders inserted using the :name syntax are escaped by the db-api driver:
-- Outputs `select * from user where name = 'o''brien'`; select * from users where name = :name
You can interpolate lists and tuples too:
:tuple: creates a placeholder like this (?, ?, ?)
:value*: creates a placeholder like this ?, ?, ?
:tuple*: creates a placeholder like this (?, ?, ?), (?, ?, ?), … (useful for multiple insert queries)
-- Call this with `queries.insert_foo(data=(1, 2, 3))` INSERT INTO foo (a, b, c) VALUES :tuple:data -- Call this with `queries.get_matching_users(names=("carolyn", "douglas"))` SELECT * from users WHERE name in (:values*:names)
You can escape identifiers with :identifier:, like this:
-- Outputs `select * from "some random table"` select * from :identifier:table_name
You can pass through raw sql too. This leaves you open to SQL injection attacks if you allow user input into such parameters:
-- Outputs `select * from users order by name desc` select * from users order by :raw:order_clause
How do I handle connections? Transactions?
You must pass a db-api connection object every time you call a query. You can manage these connections yourself, but Embrace also offers a connection pooling module.
from embrace import pool # Create a connection pool connection_pool = pool.ConnectionPool( partial(psycopg2.connect, database='mydb'), limit=10 ) # Example 1 - explicit calls to getconn/release conn = connection_pool.getconn() try: queries.execute_some_query(conn) finally: connection_pool.release(conn) # Example 2 - context manager with connection_pool.connect() as conn: queries.execute_some_query(conn)
Transaction handling may be handled manually by calling commit() or rollback() on the connection object, or you can also use the transaction context run to queries in a transaction:
with queries.transaction(conn) as q: q.increment_counter()
The transaction will be commited when the with block exits, or rolled back if an exception occurred.
How do I reload queries when the underlying files change?
Pass auto_reload=True when constructing a module:
m = module('resources/sql', auto_reload=True)
Exceptions
Exceptions raised from the underlying db-api connection are wrapped in exception classes from embrace.exceptions, with PEP-249 compliant names. You can use this to catch exceptions, for example:
try: queries.execute("SELECT 1.0 / 0.0") except embrace.exceptions.DataError: pass
The original exception will be available in the __cause__ attribute of the embrace exception object.
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