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You will need the MySQLdb Python module. The main development site for this module is found at sourceforge. There is also a cheeseshop page.
Best Approach:
If that fails:
$ easy_install MySQL-python
You will need the MySQLdb binary installer for Windows (the file will be called something like MySQL-python-1.2.2.win32-py2.5.exe).
For Darwin Ports:
$ sudo port install mysql4 +server
or:
$ sudo port install mysql5 +server
Alternatively, you can just download the MySQL package format installer from the MySQL site (Mirror).
There have been reports about problems when trying to install MySQLdb via easy_install on Mac OS X, so you may be better of using one of the above alternatives.
Another issue with installing mysql-python on OS X Leopard (and a work-around for it) is described in the article the MySQLdb on Leopard. In short, before attempting to install, ensure that the MySQL bin directory is in your path, otherwise mysql_config will not be found.
First set the database connection string in your project’s deployment configuration (i.e. dev.cfg for a development environment, prod.cfg for a production environment):
sqlobject.dburi="mysql://george@localhost/test"
assuming george as the database user name, localhost as the hostname of the database server and test as the database name. See the TurboGears Configuration page for more information on TurboGears’ configuration files.
Then we need to create database using the mysql shell (give the password for the MySQL root user when prompted for):
$ mysql -h localhost -u root -p
mysql> CREATE DATABASE test;
Query OK, 1 row affected (0.03 sec)
mysql> GRANT ALL ON test.* TO 'george'@'localhost';
Query OK, 0 rows affected (0.11 sec)
mysql> [Press CTRL+D]
Bye
Now we can test the DB connection as follows:
shell> mysql -h localhost -u george -p test
Enter password: ENTER
Now it is everything prepared and we can create database structure using our model:
tg-admin sql create
MySQL includes several storage engines (e.g. MyISAM and InnoDB). MyISAM is older and most sites only use this engine. MyISAM is somewhat faster than InnoDB but is not able to handle transactions (and you like to keep your data integrity, right? ;-).
Note that transactions are not the only reason why using InnoDB is a good idea. InnoDB also enforces data integrity more strictly than MyISAM and also has many more features.
Every table in MySQL can have its own engine. When creating a table, you can specify which engine to use. The default engine in MySQL is MyISAM.
Unfortunately, SQLObject does not allow the specification of a storage engine as most databases only use one storage engine.
When the command tg-admin sql create is issued, the default table type is used.
There are several ways to use InnoDB with MySQL:
By default TurboGears uses transactions. But there is a hook that allows you to disable transactions in TurboGears. If you do not want TurboGears to manage transactions put :doc:`/notrans` in front of the dburi, TurboGears will silently ignore all begin / commit / rollback / end instructions. Here is the above dburi string with transactions disabled:
sqlobject.dburi="notrans_mysql://george@localhost/test"
To change the default storage engine of MySQL to InnoDB, you have to add the following line to the [mysqld] section of your my.ini / my.cnf file:
default-storage-engine=INNODB
This will have the effect that when you issue a CREATE TABLE statement, MySQL will create an InnoDB table by default. Under Windows the file is usually found in the C:\Program Files\MySQL\MySQL Server X.Y directory and on Linux under the path name /etc/my.cnf or /etc/mysql/my.cnf.
If you have the MySQL Administrator GUI installed, you can also change this setting from within this program.
Select “StartUp Variables” from the left pane
Then choose the “General Parameters tab”
Down the bottom you’ll see a “Default Storage” section.
Choose “InnoDB” from the drop-down.
For detailed information on this topic, see the MySQL Reference Manual.
If you want to store international characters in your database (and who doesn’t want to?), there are several things your should take care of:
Use an UTF-8 encoding declaration for all your Python source files by writing the following on the first line of every .py file:
# -*- coding: utf-8 -*-
and make sure that you really save the files with UTF-8 encoding.
In your deployment configuration file (i.e. dev.cfg for development, prod.cfg for production), add the follwing suffix to the dburi:
?charset=utf8&sqlobject_encoding=utf8
For example, your dburi may now look like this (all on one line):
sqlobject.dburi = \
"mysql://george:secret@localhost/mydb?charset=utf8&sqlobject_encoding=utf8"
Note
Please note, that the encoding name used here is utf8 not utf-8.
In your application’s configuration (<yourpackage>/config/app.cfg), make sure that you have the following setting:
kid.encoding="utf-8"
In your my.ini / my.cnf file, make sure that you have the following setting in the [mysql] section:
default-character-set=utf8
Now you can verify that everything is OK in the database. Open the MySQL command line client and try the following SQL statements:
mysql> SHOW VARIABLES LIKE '%character_set%';
+--------------------------+------------------------------+
| Variable_name | Value |
+--------------------------+------------------------------+
| character_set_client | utf8 |
| character_set_connection | utf8 |
| character_set_database | utf8 |
| character_set_filesystem | binary |
| character_set_results | utf8 |
| character_set_server | utf8 |
| character_set_system | utf8 |
| character_sets_dir | <mysql home>\share\charsets\ |
+--------------------------+------------------------------+
8 rows in set (0.00 sec)
mysql> SHOW CREATE DATABASE my_db;
+----------+----------------------------------------------------------------+
| Database | Create Database |
+----------+----------------------------------------------------------------+
| my_db | CREATE DATABASE `my_db` /*!40100 DEFAULT CHARACTER SET utf8 */ |
+----------+----------------------------------------------------------------+
1 row in set (0.24 sec)
To change the default character set of an existing database, execute the following SQL statement:
ALTER DATABASE data_base DEFAULT CHARACTER SET=utf8;
Or to change the character set of a table:
ALTER TABLE table_name DEFAULT CHARACTER SET=utf8;
Your version of the MySQLdb module must be compatible with the database you want to connect to. Old versions of MySQLdb may not support newer MySQL versions as data formats may have changed or the underlying C libraries behave differently in certain situations (such as “Connection lost”).
If you experience problems because your MySQL server version is too new, the correct solution to this problem is to update your MySQLdb module.
Unfortunately, Redhat ships incompatible versions of MySQLdb (version 1.0) and MySQL (version 4.1) in its Redhat Enterprise Linux 4 (Update 4). You may experience problems with that configuration if you have database fields with the MySQL type TIMESTAMP which changed its format from MySQL 4.0 to 4.1. If your SQLObject class is being autogenerated from the database, this error will be raised:
File "/usr/lib/python2.3/site-packages/MySQLdb/connections.py", line 33, in
defaulterrorhandler
raise errorclass, errorvalue
ValueError: invalid literal for int(): 1-
Due to the popularity of this platform, a special workaround was added in TurboGears 1.0.1. This workaround consists of a custom converter for timestamp fields.
You can enable this converter by adding this option to your configuration file:
turbogears.enable_mysql41_timestamp_workaround = True
This option defaults to False, and is only in effect if your version of MySQLdb is <= 1.0.
Please note that this workaround is currently implemented for SQLObject only. However, you are welcome to submit a patch for SQLAlchemy, too.
Further information: