sqlalchemy-2179 / README.unittests

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SQLAlchemy unit tests by default run using Python's built-in sqlite3 
module.  If running on Python 2.4, pysqlite must be installed.

Unit tests are run using nose.  Note that in most cases,
nose needs to be installed manually.  Documentation and
downloads for nose are available at:

Or using setuptools:

    $ easy_install nose

SQLAlchemy implements a nose plugin that must be present when tests are run.
This plugin is available when SQLAlchemy is installed via setuptools.


A plain vanilla run of all tests using sqlite can be run via

    $ python test

(NOTE: this command is broken for Python 2.7 with nose 0.11.3, see 
Nose issue 340.  You will need to use 'nosetests' directly, see below.)

Setuptools will take care of the rest !   To run nose directly and have
its full set of options available, read on...


All that's required is for SQLAlchemy to be installed via setuptools.
For example, to create a local install in a source distribution directory:

    $ export PYTHONPATH=.
    $ python develop -d .

The above will create a setuptools "development" distribution in the local
path, which allows the Nose plugin to be available when nosetests is run.
The plugin is enabled using the "with-sqlalchemy=True" configuration
in setup.cfg.

To run all tests:

    $ nosetests

(NOTE: if running with Python 2.7 and nose 0.11.3, add "-w test/" to the command.
Again this is a Nose issue, see Nose issue 342.)

If you're running the tests on Microsoft Windows, then there is an additional
argument that must be passed to nosetests:

    > nosetests --first-package-wins=True

This is required because nose’s importer will normally evict a package from
sys.modules if it sees a package with the same name in a different location.
Setting this argument disables that behavior.

Assuming all tests pass, this is a very unexciting output.  To make it more 

    $ nosetests -v


The script "" is a front-end to Nose which manually associates
the SQLAlchemy testing plugin with Nose at runtime.   This script can run the 
tests without any reliance upon setuptools.   In 0.7 we'll be removing the 
Nose plugin from setup, so this will be the way going forward to run tests:

    $ python -v

Any directory of test modules can be run at once by specifying the directory

    $ nosetest test/dialect

Any test module can be run directly by specifying its module name:

    $ nosetests test.orm.test_mapper

To run a specific test within the module, specify it as module:ClassName.methodname:

    $ nosetests test.orm.test_mapper:MapperTest.test_utils

Help is available via --help:

    $ nosetests --help

The --help screen is a combination of common nose options and options which 
the SQLAlchemy nose plugin adds.  The most commonly SQLAlchemy-specific 
options used are '--db' and '--dburi'.


Tests will target an in-memory SQLite database by default.  To test against
another database, use the --dburi option with any standard SQLAlchemy URL:


Use an empty database and a database user with general DBA privileges.
The test suite will be creating and dropping many tables and other DDL, and
preexisting tables will interfere with the tests.

Several tests require alternate usernames or schemas to be present, which
are used to test dotted-name access scenarios.  On some databases such
as Oracle or Sybase, these are usernames, and others such as Postgresql
and MySQL they are schemas.   The requirement applies to all backends
except SQLite and Firebird.  The names are:

    test_schema_2 (only used on Postgresql)

Please refer to your vendor documentation for the proper syntax to create 
these namespaces - the database user must have permission to create and drop
tables within these schemas.  Its perfectly fine to run the test suite
without these namespaces present, it only means that a handful of tests which
expect them to be present will fail.

Additional steps specific to individual databases are as follows:

    ORACLE: a user named "test_schema" is created.

    The primary database user needs to be able to create and drop tables,
    synonyms, and constraints within the "test_schema" user.   For this
    to work fully, including that the user has the "REFERENCES" role
    in a remote shcema for tables not yet defined (REFERENCES is per-table),
    it is required that the test the user be present in the "DBA" role:

        grant dba to scott;

    SYBASE: Similar to Oracle, "test_schema" is created as a user, and the
    primary test user needs to have the "sa_role". 
    It's also recommened to turn on "trunc log on chkpt" and to use a
    separate transaction log device - Sybase basically seizes up when 
    the transaction log is full otherwise.

    A full series of setup assuming sa/master: 

        disk init name="translog", physname="/opt/sybase/data/translog.dat", size="10M"
        create database sqlalchemy on default log on translog="10M"
        sp_dboption sqlalchemy, "trunc log on chkpt", true
        sp_addlogin scott, "tiger7"
        sp_addlogin test_schema, "tiger7"
        use sqlalchemy
        sp_adduser scott
        sp_adduser test_schema
        grant all to scott
        sp_role "grant", sa_role, scott

    Sybase will still freeze for up to a minute when the log becomes
    full.  To manually dump the log:

        dump tran sqlalchemy with truncate_only

    MSSQL: Tests that involve multiple connections require Snapshot Isolation
    ability implented on the test database in order to prevent deadlocks that
    will occur with record locking isolation. This feature is only available
    with MSSQL 2005 and greater. You must enable snapshot isolation at the
    database level and set the default cursor isolation with two SQL commands:



    MSSQL+zxJDBC: Trying to run the unit tests on Windows against SQL Server
    requires using a test.cfg configuration file as the cmd.exe shell won't
    properly pass the URL arguments into the nose test runner.

If you'll be running the tests frequently, database aliases can save a lot of
typing.  The --dbs option lists the built-in aliases and their matching URLs:

    $ nosetests --dbs
    Available --db options (use --dburi to override)
               mysql    mysql://scott:tiger@
              oracle    oracle://scott:tiger@
            postgresql    postgresql://scott:tiger@

To run tests against an aliased database:

    $ nosetests --db=postgresql

To customize the URLs with your own users or hostnames, make a simple .ini
file called `test.cfg` at the top level of the SQLAlchemy source distribution
or a `.satest.cfg` in your home directory:


Your custom entries will override the defaults and you'll see them reflected
in the output of --dbs.

SQLAlchemy logs its activity and debugging through Python's logging package.
Any log target can be directed to the console with command line options, such

    $ nosetests test.orm.unitofwork --log-info=sqlalchemy.orm.mapper \
      --log-debug=sqlalchemy.pool --log-info=sqlalchemy.engine

This would log mapper configuration, connection pool checkouts, and SQL
statement execution.

Coverage is tracked using Nose's coverage plugin.   See the nose 
documentation for details.  Basic usage is:

    $ nosetests test.sql.test_query --with-coverage

BIG COVERAGE TIP !!!  There is an issue where existing .pyc files may
store the incorrect filepaths, which will break the coverage system.  If
coverage numbers are coming out as low/zero, try deleting all .pyc files.

You can use the SQLAlchemy test suite to test any new database dialect in
development.  All possible database features will be exercised by default.
Test decorators are provided that can exclude unsupported tests for a
particular dialect.  You'll see them all over the source, feel free to add
your dialect to them or apply new decorations to existing tests as required.

It's fine to start out with very broad exclusions, e.g. "2-phase commit is not
supported on this database" and later refine that as needed "2-phase commit is
not available until server version 8".

To be considered for inclusion in the SQLAlchemy distribution, a dialect must
be integrated with the standard test suite.  Dialect-specific tests can be
placed in the 'dialects/' directory.  Comprehensive testing of
database-specific column types and their proper reflection are a very good
place to start.

When working through the tests, start with 'engine' and 'sql' tests.  'engine'
performs a wide range of transaction tests that might deadlock on a brand-new
dialect- try disabling those if you're having problems and revisit them later.

Once the 'sql' tests are passing, the 'orm' tests should pass as well, modulo
any adjustments needed for SQL features the ORM uses that might not be
available in your database.  But if an 'orm' test requires changes to your
dialect or the SQLAlchemy core to pass, there's a test missing in 'sql'!  Any
time you can spend boiling down the problem to it's essential sql roots and
adding a 'sql' test will be much appreciated.

The test suite is very effective at illuminating bugs and inconsistencies in
an underlying DB-API (or database!) implementation.  Workarounds are almost
always possible.  If you hit a wall, join us on the mailing list or, better,