Author: | Catherine Devlin, http://catherinedevlin.blogspot.com |
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Introduces a %sql (or %%sql) magic.
Connect to a database, using SQLAlchemy connect strings, then issue SQL commands within IPython or IPython Notebook.
In [1]: %load_ext sql
In [2]: %%sql postgresql://will:longliveliz@localhost/shakes
...: select * from character
...: where abbrev = 'ALICE'
...:
Out[2]: [(u'Alice', u'Alice', u'ALICE', u'a lady attending on Princess Katherine', 22)]
In [3]: result = _
In [4]: print(result)
charid charname abbrev description speechcount
=================================================================================
Alice Alice ALICE a lady attending on Princess Katherine 22
In [4]: result.keys
Out[5]: [u'charid', u'charname', u'abbrev', u'description', u'speechcount']
In [6]: result[0][0]
Out[6]: u'Alice'
In [7]: result[0].description
Out[7]: u'a lady attending on Princess Katherine'
After the first connection, connect info can be omitted:
In [8]: %sql select count(*) from work Out[8]: [(43L,)]
Connections to multiple databases can be maintained. You can refer to an existing connection by username@database
In [9]: %%sql will@shakes
...: select charname, speechcount from character
...: where speechcount = (select max(speechcount)
...: from character);
...:
Out[9]: [(u'Poet', 733)]
In [10]: print(_)
charname speechcount
======================
Poet 733
If no connect string is supplied, %sql
will provide a list of existing connections;
however, if no connections have yet been made and the environment variable DATABASE_URL
is available, that will be used.
For secure access, you may dynamically access your credentials (e.g. from your system environment or getpass.getpass) to avoid storing your password in the notebook itself. Use the $ before any variable to access it in your %sql command.
In [11]: user = os.getenv('SOME_USER')
....: password = os.getenv('SOME_PASSWORD')
....: connection_string = "postgresql://{user}:{password}@localhost/some_database".format(user=user, password=password)
....: %sql $connection_string
Out[11]: u'Connected: some_user@some_database'
You may use multiple SQL statements inside a single cell, but you will only see any query results from the last of them, so this really only makes sense for statements with no output
In [11]: %%sql sqlite://
....: CREATE TABLE writer (first_name, last_name, year_of_death);
....: INSERT INTO writer VALUES ('William', 'Shakespeare', 1616);
....: INSERT INTO writer VALUES ('Bertold', 'Brecht', 1956);
....:
Out[11]: []
Bind variables (bind parameters) can be used in the "named" (:x) style. The variable names used should be defined in the local namespace
In [12]: name = 'Countess'
In [13]: %sql select description from character where charname = :name
Out[13]: [(u'mother to Bertram',)]
As a convenience, dict-style access for result sets is supported, with the leftmost column serving as key, for unique values.
In [14]: result = %sql select * from work
43 rows affected.
In [15]: result['richard2']
Out[15]: (u'richard2', u'Richard II', u'History of Richard II', 1595, u'h', None, u'Moby', 22411, 628)
Results can also be retrieved as an iterator of dictionaries (result.dicts()
)
or a single dictionary with a tuple of scalar values per key (result.dict()
)
Ordinary IPython assignment works for single-line %sql queries:
In [16]: works = %sql SELECT title, year FROM work
43 rows affected.
The << operator captures query results in a local variable, and
can be used in multi-line %%sql
:
In [17]: %%sql works << SELECT title, year
...: FROM work
...:
43 rows affected.
Returning data to local variable works
Connection strings are SQLAlchemy standard.
Some example connection strings:
mysql+pymysql://scott:tiger@localhost/foo oracle://scott:[email protected]:1521/sidname sqlite:// sqlite:///foo.db mssql+pyodbc://username:password@host/database?driver=SQL+Server+Native+Client+11.0
Note that mysql
and mysql+pymysql
connections (and perhaps others)
don't read your client character set information from .my.cnf. You need
to specify it in the connection string:
mysql+pymysql://scott:tiger@localhost/foo?charset=utf8
Note that impala
connecion with impyla for HiveServer2 requires to disable autocommit:
%config SqlMagic.autocommit=False %sql impala://hserverhost:port/default?kerberos_service_name=hive&auth_mechanism=GSSAPI
Query results are loaded as lists, so very large result sets may use up your system's memory and/or hang your browser. There is no autolimit by default. However, autolimit (if set) limits the size of the result set (usually with a LIMIT clause in the SQL). displaylimit is similar, but the entire result set is still pulled into memory (for later analysis); only the screen display is truncated.
In [2]: %config SqlMagic
SqlMagic options
--------------
SqlMagic.autocommit=<Bool>
Current: True
Set autocommit mode
SqlMagic.autolimit=<Int>
Current: 0
Automatically limit the size of the returned result sets
SqlMagic.autopandas=<Bool>
Current: False
Return Pandas DataFrames instead of regular result sets
SqlMagic.displaylimit=<Int>
Current: 0
Automatically limit the number of rows displayed (full result set is still
stored)
SqlMagic.feedback=<Bool>
Current: True
Print number of rows affected by DML
SqlMagic.short_errors=<Bool>
Current: True
Don't display the full traceback on SQL Programming Error
SqlMagic.style=<Unicode>
Current: 'DEFAULT'
Set the table printing style to any of prettytable's defined styles
(currently DEFAULT, MSWORD_FRIENDLY, PLAIN_COLUMNS, RANDOM)
In[3]: %config SqlMagic.feedback = False
Please note: if you have autopandas set to true, the displaylimit option will not apply. You can set the pandas display limit by using the pandas max_rows
option as described in the pandas documentation.
If you have installed pandas
, you can use a result set's
.DataFrame()
method
In [3]: result = %sql SELECT * FROM character WHERE speechcount > 25
In [4]: dataframe = result.DataFrame()
The bogus non-standard pseudo-SQL command PERSIST
will create a table name
in the database from the named DataFrame.
In [5]: %sql PERSIST dataframe
In [6]: %sql SELECT * FROM dataframe;
If you have installed matplotlib
, you can use a result set's
.plot()
, .pie()
, and .bar()
methods for quick plotting
In[5]: result = %sql SELECT title, totalwords FROM work WHERE genretype = 'c'
In[6]: %matplotlib inline
In[7]: result.pie()
Result sets come with a .csv(filename=None)
method. This generates
comma-separated text either as a return value (if filename
is not
specified) or in a file of the given name.
In[8]: result = %sql SELECT title, totalwords FROM work WHERE genretype = 'c'
In[9]: result.csv(filename='work.csv')
psql
-style "backslash" meta-commands commands (\d
, \dt
, etc.)
are provided by PGSpecial. Example:
In[9]: %sql \d
Install the lastest release with:
pip install ipython-sql
or download from https://github.com/catherinedevlin/ipython-sql and:
cd ipython-sql sudo python setup.py install
https://github.com/catherinedevlin/ipython-sql
- Matthias Bussonnier for help with configuration
- Olivier Le Thanh Duong for
%config
fixes and improvements - Distribute
- Buildout
- modern-package-template
- Mike Wilson for bind variable code
- Thomas Kluyver and Steve Holden for debugging help
- Berton Earnshaw for DSN connection syntax
- Andrés Celis for SQL Server bugfix
- Michael Erasmus for DataFrame truth bugfix
- Noam Finkelstein for README clarification
- Xiaochuan Yu for << operator, syntax colorization
- Amjith Ramanujam for PGSpecial and incorporating it here