spqr/vendor/robmorgan/phinx/docs/en/migrations.rst

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.. index::
single: Writing Migrations
Writing Migrations
==================
Phinx relies on migrations in order to transform your database. Each migration
is represented by a PHP class in a unique file. It is preferred that you write
your migrations using the Phinx PHP API, but raw SQL is also supported.
Creating a New Migration
------------------------
Generating a skeleton migration file
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Let's start by creating a new Phinx migration. Run Phinx using the ``create``
command:
.. code-block:: bash
$ vendor/bin/phinx create MyNewMigration
This will create a new migration in the format
``YYYYMMDDHHMMSS_my_new_migration.php``, where the first 14 characters are
replaced with the current timestamp down to the second.
If you have specified multiple migration paths, you will be asked to select
which path to create the new migration in.
Phinx automatically creates a skeleton migration file with a single method:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Change Method.
*
* Write your reversible migrations using this method.
*
* More information on writing migrations is available here:
* https://book.cakephp.org/phinx/0/en/migrations.html#the-change-method
*
* Remember to call "create()" or "update()" and NOT "save()" when working
* with the Table class.
*
*/
public function change()
{
}
}
All Phinx migrations extend from the ``AbstractMigration`` class. This class
provides the necessary support to create your database migrations. Database
migrations can transform your database in many ways, such as creating new
tables, inserting rows, adding indexes and modifying columns.
The Change Method
~~~~~~~~~~~~~~~~~
Phinx 0.2.0 introduced a new feature called reversible migrations. This feature
has now become the default migration method. With reversible migrations, you
only need to define the ``up`` logic, and Phinx can figure out how to migrate
down automatically for you. For example:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class CreateUserLoginsTable extends AbstractMigration
{
public function change()
{
// create the table
$table = $this->table('user_logins');
$table->addColumn('user_id', 'integer')
->addColumn('created', 'datetime')
->create();
}
}
When executing this migration, Phinx will create the ``user_logins`` table on
the way up and automatically figure out how to drop the table on the way down.
Please be aware that when a ``change`` method exists, Phinx will automatically
ignore the ``up`` and ``down`` methods. If you need to use these methods it is
recommended to create a separate migration file.
.. note::
When creating or updating tables inside a ``change()`` method you must use
the Table ``create()`` and ``update()`` methods. Phinx cannot automatically
determine whether a ``save()`` call is creating a new table or modifying an
existing one.
The following actions are reversible when done through the Table API in Phinx,
and will be automatically reversed:
- Creating a table
- Renaming a table
- Adding a column
- Renaming a column
- Adding an index
- Adding a foreign key
If a command cannot be reversed then Phinx will throw an
``IrreversibleMigrationException`` when it's migrating down. If you wish to
use a command that cannot be reversed in the change function, you can use an
if statement with ``$this->isMigratingUp()`` to only run things in the
up or down direction. For example:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class CreateUserLoginsTable extends AbstractMigration
{
public function change()
{
// create the table
$table = $this->table('user_logins');
$table->addColumn('user_id', 'integer')
->addColumn('created', 'datetime')
->create();
if ($this->isMigratingUp()) {
$table->insert([['user_id' => 1, 'created' => '2020-01-19 03:14:07']])
->save();
}
}
}
The Up Method
~~~~~~~~~~~~~
The up method is automatically run by Phinx when you are migrating up and it
detects the given migration hasn't been executed previously. You should use the
up method to transform the database with your intended changes.
The Down Method
~~~~~~~~~~~~~~~
The down method is automatically run by Phinx when you are migrating down and
it detects the given migration has been executed in the past. You should use
the down method to reverse/undo the transformations described in the up method.
The Init Method
~~~~~~~~~~~~~~~
The ``init()`` method is run by Phinx before the migration methods if it exists.
This can be used for setting common class properties that are then used within
the migration methods.
The Should Execute Method
~~~~~~~~~~~~~~~~~~~~~~~~~
The ``shouldExecute()`` method is run by Phinx before executing the migration.
This can be used to prevent the migration from being executed at this time. It always
returns true by default. You can override it in your custom ``AbstractMigration``
implementation.
Executing Queries
-----------------
Queries can be executed with the ``execute()`` and ``query()`` methods. The
``execute()`` method returns the number of affected rows whereas the
``query()`` method returns the result as a
`PDOStatement <https://php.net/manual/en/class.pdostatement.php>`_. Both methods
accept an optional second parameter ``$params`` which is an array of elements,
and if used will cause the underlying connection to use a prepared statement.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
// execute()
$count = $this->execute('DELETE FROM users'); // returns the number of affected rows
// query()
$stmt = $this->query('SELECT * FROM users'); // returns PDOStatement
$rows = $stmt->fetchAll(); // returns the result as an array
// using prepared queries
$count = $this->execute('DELETE FROM users WHERE id = ?', [5]);
$stmt = $this->query('SELECT * FROM users WHERE id > ?', [5]); // returns PDOStatement
$rows = $stmt->fetchAll();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
.. note::
These commands run using the PHP Data Objects (PDO) extension which
defines a lightweight, consistent interface for accessing databases
in PHP. Always make sure your queries abide with PDOs before using
the ``execute()`` command. This is especially important when using
DELIMITERs during insertion of stored procedures or triggers which
don't support DELIMITERs.
.. note::
If you wish to execute multiple queries at once, you may not also use the prepared
variant of these functions. When using prepared queries, PDO can only execute
them one at a time.
.. warning::
When using ``execute()`` or ``query()`` with a batch of queries, PDO doesn't
throw an exception if there is an issue with one or more of the queries
in the batch.
As such, the entire batch is assumed to have passed without issue.
If Phinx was to iterate any potential result sets, looking to see if one
had an error, then Phinx would be denying access to all the results as there
is no facility in PDO to get a previous result set
`nextRowset() <https://php.net/manual/en/pdostatement.nextrowset.php>`_ -
but no ``previousSet()``).
So, as a consequence, due to the design decision in PDO to not throw
an exception for batched queries, Phinx is unable to provide the fullest
support for error handling when batches of queries are supplied.
Fortunately though, all the features of PDO are available, so multiple batches
can be controlled within the migration by calling upon
`nextRowset() <https://php.net/manual/en/pdostatement.nextrowset.php>`_
and examining `errorInfo <https://php.net/manual/en/pdostatement.errorinfo.php>`_.
Fetching Rows
-------------
There are two methods available to fetch rows. The ``fetchRow()`` method will
fetch a single row, whilst the ``fetchAll()`` method will return multiple rows.
Both methods accept raw SQL as their only parameter.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
// fetch a user
$row = $this->fetchRow('SELECT * FROM users');
// fetch an array of messages
$rows = $this->fetchAll('SELECT * FROM messages');
}
/**
* Migrate Down.
*/
public function down()
{
}
}
Inserting Data
--------------
Phinx makes it easy to insert data into your tables. Whilst this feature is
intended for the :doc:`seed feature <seeding>`, you are also free to use the
insert methods in your migrations.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class NewStatus extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('status');
// inserting only one row
$singleRow = [
'id' => 1,
'name' => 'In Progress'
];
$table->insert($singleRow)->saveData();
// inserting multiple rows
$rows = [
[
'id' => 2,
'name' => 'Stopped'
],
[
'id' => 3,
'name' => 'Queued'
]
];
$table->insert($rows)->saveData();
}
/**
* Migrate Down.
*/
public function down()
{
$this->execute('DELETE FROM status');
}
}
.. note::
You cannot use the insert methods inside a `change()` method. Please use the
`up()` and `down()` methods.
Working With Tables
-------------------
The Table Object
~~~~~~~~~~~~~~~~
The Table object is one of the most useful APIs provided by Phinx. It allows
you to easily manipulate database tables using PHP code. You can retrieve an
instance of the Table object by calling the ``table()`` method from within
your database migration.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('tableName');
}
/**
* Migrate Down.
*/
public function down()
{
}
}
You can then manipulate this table using the methods provided by the Table
object.
Saving Changes
~~~~~~~~~~~~~~
When working with the Table object, Phinx stores certain operations in a
pending changes cache. Once you have made the changes you want to the table,
you must save them. To perform this operation, Phinx provides three methods,
``create()``, ``update()``, and ``save()``. ``create()`` will first create
the table and then run the pending changes. ``update()`` will just run the
pending changes, and should be used when the table already exists. ``save()``
is a helper function that checks first if the table exists and if it does not
will run ``create()``, else it will run ``update()``.
As stated above, when using the ``change()`` migration method, you should always
use ``create()`` or ``update()``, and never ``save()`` as otherwise migrating
and rolling back may result in different states, due to ``save()`` calling
``create()`` when running migrate and then ``update()`` on rollback. When
using the ``up()``/``down()`` methods, it is safe to use either ``save()`` or
the more explicit methods.
When in doubt with working with tables, it is always recommended to call
the appropriate function and commit any pending changes to the database.
Creating a Table
~~~~~~~~~~~~~~~~
Creating a table is really easy using the Table object. Let's create a table to
store a collection of users.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
public function change()
{
$users = $this->table('users');
$users->addColumn('username', 'string', ['limit' => 20])
->addColumn('password', 'string', ['limit' => 40])
->addColumn('password_salt', 'string', ['limit' => 40])
->addColumn('email', 'string', ['limit' => 100])
->addColumn('first_name', 'string', ['limit' => 30])
->addColumn('last_name', 'string', ['limit' => 30])
->addColumn('created', 'datetime')
->addColumn('updated', 'datetime', ['null' => true])
->addIndex(['username', 'email'], ['unique' => true])
->create();
}
}
Columns are added using the ``addColumn()`` method. We create a unique index
for both the username and email columns using the ``addIndex()`` method.
Finally calling ``create()`` commits the changes to the database.
.. note::
Phinx automatically creates an auto-incrementing primary key column called ``id`` for every
table.
The ``id`` option sets the name of the automatically created identity field, while the ``primary_key``
option selects the field or fields used for primary key. ``id`` will always override the ``primary_key``
option unless it's set to false. If you don't need a primary key set ``id`` to false without
specifying a ``primary_key``, and no primary key will be created.
To specify an alternate primary key, you can specify the ``primary_key`` option
when accessing the Table object. Let's disable the automatic ``id`` column and
create a primary key using two columns instead:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
public function change()
{
$table = $this->table('followers', ['id' => false, 'primary_key' => ['user_id', 'follower_id']]);
$table->addColumn('user_id', 'integer')
->addColumn('follower_id', 'integer')
->addColumn('created', 'datetime')
->create();
}
}
Setting a single ``primary_key`` doesn't enable the ``AUTO_INCREMENT`` option.
To simply change the name of the primary key, we need to override the default ``id`` field name:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
public function up()
{
$table = $this->table('followers', ['id' => 'user_id']);
$table->addColumn('follower_id', 'integer')
->addColumn('created', 'timestamp', ['default' => 'CURRENT_TIMESTAMP'])
->create();
}
}
In addition, the MySQL adapter supports following options:
========== ===========
Option Description
========== ===========
comment set a text comment on the table
row_format set the table row format
engine define table engine *(defaults to ``InnoDB``)*
collation define table collation *(defaults to ``utf8mb4_unicode_ci``)*
signed whether the primary key is ``signed`` *(defaults to ``false``)*
limit set the maximum length for the primary key
========== ===========
By default, the primary key is ``unsigned``.
To simply set it to be signed just pass ``signed`` option with a ``true`` value:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
public function change()
{
$table = $this->table('followers', ['signed' => false]);
$table->addColumn('follower_id', 'integer')
->addColumn('created', 'timestamp', ['default' => 'CURRENT_TIMESTAMP'])
->create();
}
}
The PostgreSQL adapter supports the following options:
========= ===========
Option Description
========= ===========
comment set a text comment on the table
========= ===========
To view available column types and options, see `Valid Column Types`_ for details.
Determining Whether a Table Exists
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
You can determine whether or not a table exists by using the ``hasTable()``
method.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$exists = $this->hasTable('users');
if ($exists) {
// do something
}
}
/**
* Migrate Down.
*/
public function down()
{
}
}
Dropping a Table
~~~~~~~~~~~~~~~~
Tables can be dropped quite easily using the ``drop()`` method. It is a
good idea to recreate the table again in the ``down()`` method.
Note that like other methods in the ``Table`` class, ``drop`` also needs ``save()``
to be called at the end in order to be executed. This allows phinx to intelligently
plan migrations when more than one table is involved.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$this->table('users')->drop()->save();
}
/**
* Migrate Down.
*/
public function down()
{
$users = $this->table('users');
$users->addColumn('username', 'string', ['limit' => 20])
->addColumn('password', 'string', ['limit' => 40])
->addColumn('password_salt', 'string', ['limit' => 40])
->addColumn('email', 'string', ['limit' => 100])
->addColumn('first_name', 'string', ['limit' => 30])
->addColumn('last_name', 'string', ['limit' => 30])
->addColumn('created', 'datetime')
->addColumn('updated', 'datetime', ['null' => true])
->addIndex(['username', 'email'], ['unique' => true])
->save();
}
}
Renaming a Table
~~~~~~~~~~~~~~~~
To rename a table access an instance of the Table object then call the
``rename()`` method.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('users');
$table
->rename('legacy_users')
->update();
}
/**
* Migrate Down.
*/
public function down()
{
$table = $this->table('legacy_users');
$table
->rename('users')
->update();
}
}
Changing the Primary Key
~~~~~~~~~~~~~~~~~~~~~~~~
To change the primary key on an existing table, use the ``changePrimaryKey()`` method.
Pass in a column name or array of columns names to include in the primary key, or ``null`` to drop the primary key.
Note that the mentioned columns must be added to the table, they will not be added implicitly.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$users = $this->table('users');
$users
->addColumn('username', 'string', ['limit' => 20, 'null' => false])
->addColumn('password', 'string', ['limit' => 40])
->save();
$users
->addColumn('new_id', 'integer', ['null' => false])
->changePrimaryKey(['new_id', 'username'])
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
Changing the Table Comment
~~~~~~~~~~~~~~~~~~~~~~~~~~
To change the comment on an existing table, use the ``changeComment()`` method.
Pass in a string to set as the new table comment, or ``null`` to drop the existing comment.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$users = $this->table('users');
$users
->addColumn('username', 'string', ['limit' => 20])
->addColumn('password', 'string', ['limit' => 40])
->save();
$users
->changeComment('This is the table with users auth information, password should be encrypted')
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
Working With Columns
--------------------
.. _valid-column-types:
Valid Column Types
~~~~~~~~~~~~~~~~~~
Column types are specified as strings and can be one of:
- binary
- boolean
- char
- date
- datetime
- decimal
- float
- double
- smallinteger
- integer
- biginteger
- string
- text
- time
- timestamp
- uuid
In addition, the MySQL adapter supports ``enum``, ``set``, ``blob``, ``tinyblob``, ``mediumblob``, ``longblob``, ``bit`` and ``json`` column types
(``json`` in MySQL 5.7 and above). When providing a limit value and using ``binary``, ``varbinary`` or ``blob`` and its subtypes, the retained column
type will be based on required length (see `Limit Option and MySQL`_ for details);
In addition, the Postgres adapter supports ``interval``, ``json``, ``jsonb``, ``uuid``, ``cidr``, ``inet`` and ``macaddr`` column types
(PostgreSQL 9.3 and above).
Valid Column Options
~~~~~~~~~~~~~~~~~~~~
The following are valid column options:
For any column type:
======= ===========
Option Description
======= ===========
limit set maximum length for strings, also hints column types in adapters (see note below)
length alias for ``limit``
default set default value or action
null allow ``NULL`` values, defaults to false if `identity` option is set to true, else defaults to true
after specify the column that a new column should be placed after, or use ``\Phinx\Db\Adapter\MysqlAdapter::FIRST`` to place the column at the start of the table *(only applies to MySQL)*
comment set a text comment on the column
======= ===========
For ``decimal`` columns:
========= ===========
Option Description
========= ===========
precision combine with ``scale`` set to set decimal accuracy
scale combine with ``precision`` to set decimal accuracy
signed enable or disable the ``unsigned`` option *(only applies to MySQL)*
========= ===========
For ``enum`` and ``set`` columns:
========= ===========
Option Description
========= ===========
values Can be a comma separated list or an array of values
========= ===========
For ``smallinteger``, ``integer`` and ``biginteger`` columns:
======== ===========
Option Description
======== ===========
identity enable or disable automatic incrementing
signed enable or disable the ``unsigned`` option *(only applies to MySQL)*
======== ===========
For Postgres, when using ``identity``, it will utilize the ``serial`` type appropriate for the integer size, so that
``smallinteger`` will give you ``smallserial``, ``integer`` gives ``serial``, and ``biginteger`` gives ``bigserial``.
For ``timestamp`` columns:
======== ===========
Option Description
======== ===========
default set default value (use with ``CURRENT_TIMESTAMP``)
update set an action to be triggered when the row is updated (use with ``CURRENT_TIMESTAMP``) *(only applies to MySQL)*
timezone enable or disable the ``with time zone`` option for ``time`` and ``timestamp`` columns *(only applies to Postgres)*
======== ===========
You can add ``created_at`` and ``updated_at`` timestamps to a table using the ``addTimestamps()`` method. This method accepts
three arguments, where the first two allow setting alternative names for the columns while the third argument allows you to
enable the ``timezone`` option for the columns. The defaults for these arguments are ``created_at``, ``updated_at``, and ``false``
respectively. For the first and second argument, if you provide ``null``, then the default name will be used, and if you provide
``false``, then that column will not be created. Please note that attempting to set both to ``false`` will throw a
``\RuntimeException``. Additionally, you can use the ``addTimestampsWithTimezone()`` method, which is an alias to
``addTimestamps()`` that will always set the third argument to ``true`` (see examples below). The ``created_at`` column will
have a default set to ``CURRENT_TIMESTAMP``. For MySQL only, ``update_at`` column will have update set to
``CURRENT_TIMESTAMP``.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Change.
*/
public function change()
{
// Use defaults (without timezones)
$table = $this->table('users')->addTimestamps()->create();
// Use defaults (with timezones)
$table = $this->table('users')->addTimestampsWithTimezone()->create();
// Override the 'created_at' column name with 'recorded_at'.
$table = $this->table('books')->addTimestamps('recorded_at')->create();
// Override the 'updated_at' column name with 'amended_at', preserving timezones.
// The two lines below do the same, the second one is simply cleaner.
$table = $this->table('books')->addTimestamps(null, 'amended_at', true)->create();
$table = $this->table('users')->addTimestampsWithTimezone(null, 'amended_at')->create();
// Only add the created_at column to the table
$table = $this->table('books')->addTimestamps(null, false);
// Only add the updated_at column to the table
$table = $this->table('users')->addTimestamps(false);
// Note, setting both false will throw a \RuntimeError
}
}
For ``boolean`` columns:
======== ===========
Option Description
======== ===========
signed enable or disable the ``unsigned`` option *(only applies to MySQL)*
======== ===========
For ``string`` and ``text`` columns:
========= ===========
Option Description
========= ===========
collation set collation that differs from table defaults *(only applies to MySQL)*
encoding set character set that differs from table defaults *(only applies to MySQL)*
========= ===========
For foreign key definitions:
========== ===========
Option Description
========== ===========
update set an action to be triggered when the row is updated
delete set an action to be triggered when the row is deleted
constraint set a name to be used by foreign key constraint
========== ===========
You can pass one or more of these options to any column with the optional
third argument array.
Limit Option and MySQL
~~~~~~~~~~~~~~~~~~~~~~
When using the MySQL adapter, there are a couple things to consider when working with limits:
- When using a ``string`` primary key or index on MySQL 5.7 or below, or the MyISAM storage engine, and the default charset of ``utf8mb4_unicode_ci``, you must specify a limit less than or equal to 191, or use a different charset.
- Additional hinting of database column type can be made for ``integer``, ``text``, ``blob``, ``tinyblob``, ``mediumblob``, ``longblob`` columns. Using ``limit`` with one the following options will modify the column type accordingly:
============ ==============
Limit Column Type
============ ==============
BLOB_TINY TINYBLOB
BLOB_REGULAR BLOB
BLOB_MEDIUM MEDIUMBLOB
BLOB_LONG LONGBLOB
TEXT_TINY TINYTEXT
TEXT_REGULAR TEXT
TEXT_MEDIUM MEDIUMTEXT
TEXT_LONG LONGTEXT
INT_TINY TINYINT
INT_SMALL SMALLINT
INT_MEDIUM MEDIUMINT
INT_REGULAR INT
INT_BIG BIGINT
============ ==============
For ``binary`` or ``varbinary`` types, if limit is set greater than allowed 255 bytes, the type will be changed to the best matching blob type given the length.
.. code-block:: php
<?php
use Phinx\Db\Adapter\MysqlAdapter;
//...
$table = $this->table('cart_items');
$table->addColumn('user_id', 'integer')
->addColumn('product_id', 'integer', ['limit' => MysqlAdapter::INT_BIG])
->addColumn('subtype_id', 'integer', ['limit' => MysqlAdapter::INT_SMALL])
->addColumn('quantity', 'integer', ['limit' => MysqlAdapter::INT_TINY])
->create();
Custom Column Types & Default Values
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Some DBMS systems provide additional column types and default values that are specific to them.
If you don't want to keep your migrations DBMS-agnostic you can use those custom types in your migrations
through the ``\Phinx\Util\Literal::from`` method, which takes a string as its only argument, and returns an
instance of ``\Phinx\Util\Literal``. When Phinx encounters this value as a column's type it knows not to
run any validation on it and to use it exactly as supplied without escaping. This also works for ``default``
values.
You can see an example below showing how to add a ``citext`` column as well as a column whose default value
is a function, in PostgreSQL. This method of preventing the built-in escaping is supported in all adapters.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
use Phinx\Util\Literal;
class AddSomeColumns extends AbstractMigration
{
public function change()
{
$this->table('users')
->addColumn('username', Literal::from('citext'))
->addColumn('uniqid', 'uuid', [
'default' => Literal::from('uuid_generate_v4()')
])
->addColumn('creation', 'timestamp', [
'timezone' => true,
'default' => Literal::from('now()')
])
->create();
}
}
User Defined Types (Custom Data Domain)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Building upon the base types and column options you can define your custom
user defined types. Custom user defined types are configured in the
``data_domain`` root config option.
.. code-block:: yaml
data_domain:
phone_number:
type: string
length: 20
address_line:
type: string
length: 150
Each user defined type can hold any valid type and column option, they are just
used as "macros" and replaced at the time of migration.
.. code-block:: php
<?php
//...
$table = $this->table('user_data');
$table->addColumn('user_phone_number', 'phone_number')
->addColumn('user_address_line_1', 'address_line')
->addColumn('user_address_line_2', 'address_line', ['null' => true])
->create();
Specifying a data domain at the beginning of your project is crucial to have a
homogeneous data model. It avoids mistakes like having many ``contact_name``
columns with different lengths, mismatched integer types (long vs. bigint, etc).
.. note::
For ``integer``, ``text`` and ``blob`` columns you can use the special
constants from MySQL and Postgress adapter classes.
You can even customize some internal types to add your own default options,
but some column options can't be overriden in the data model (some options
are fixed like ``limit`` for the ``uuid`` special data type).
.. code-block:: yaml
# Some examples of custom data types
data_domain:
file:
type: blob
limit: BLOB_LONG # For MySQL DB. Uses MysqlAdapter::BLOB_LONG
boolean:
type: boolean # Customization of the boolean to be unsigned
signed: false
image_type:
type: enum # Enums can use YAML lists or a comma separated string
values:
- gif
- jpg
- png
Get a column list
~~~~~~~~~~~~~~~~~
To retrieve all table columns, simply create a `table` object and call `getColumns()`
method. This method will return an array of Column classes with basic info. Example below:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class ColumnListMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$columns = $this->table('users')->getColumns();
...
}
/**
* Migrate Down.
*/
public function down()
{
...
}
}
Get a column by name
~~~~~~~~~~~~~~~~~~~~
To retrieve one table column, simply create a `table` object and call the `getColumn()`
method. This method will return a Column class with basic info or NULL when the column doesn't exist. Example below:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class ColumnListMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$column = $this->table('users')->getColumn('email');
...
}
/**
* Migrate Down.
*/
public function down()
{
...
}
}
Checking whether a column exists
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
You can check if a table already has a certain column by using the
``hasColumn()`` method.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Change Method.
*/
public function change()
{
$table = $this->table('user');
$column = $table->hasColumn('username');
if ($column) {
// do something
}
}
}
Renaming a Column
~~~~~~~~~~~~~~~~~
To rename a column, access an instance of the Table object then call the
``renameColumn()`` method.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('users');
$table->renameColumn('bio', 'biography')
->save();
}
/**
* Migrate Down.
*/
public function down()
{
$table = $this->table('users');
$table->renameColumn('biography', 'bio')
->save();
}
}
Adding a Column After Another Column
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
When adding a column with the MySQL adapter, you can dictate its position using the ``after`` option,
where its value is the name of the column to position it after.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Change Method.
*/
public function change()
{
$table = $this->table('users');
$table->addColumn('city', 'string', ['after' => 'email'])
->update();
}
}
This would create the new column ``city`` and position it after the ``email`` column. The
``\Phinx\Db\Adapter\MysqlAdapter::FIRST`` constant can be used to specify that the new column should be
created as the first column in that table.
Dropping a Column
~~~~~~~~~~~~~~~~~
To drop a column, use the ``removeColumn()`` method.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate up.
*/
public function up()
{
$table = $this->table('users');
$table->removeColumn('short_name')
->save();
}
}
Specifying a Column Limit
~~~~~~~~~~~~~~~~~~~~~~~~~
You can limit the maximum length of a column by using the ``limit`` option.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Change Method.
*/
public function change()
{
$table = $this->table('tags');
$table->addColumn('short_name', 'string', ['limit' => 30])
->update();
}
}
Changing Column Attributes
~~~~~~~~~~~~~~~~~~~~~~~~~~
To change column type or options on an existing column, use the ``changeColumn()`` method.
See :ref:`valid-column-types` and `Valid Column Options`_ for allowed values.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$users = $this->table('users');
$users->changeColumn('email', 'string', ['limit' => 255])
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
Working With Indexes
--------------------
To add an index to a table you can simply call the ``addIndex()`` method on the
table object.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('users');
$table->addColumn('city', 'string')
->addIndex(['city'])
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
By default Phinx instructs the database adapter to create a normal index. We
can pass an additional parameter ``unique`` to the ``addIndex()`` method to
specify a unique index. We can also explicitly specify a name for the index
using the ``name`` parameter, the index columns sort order can also be specified using
the ``order`` parameter. The order parameter takes an array of column names and sort order key/value pairs.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('users');
$table->addColumn('email', 'string')
->addColumn('username','string')
->addIndex(['email', 'username'], [
'unique' => true,
'name' => 'idx_users_email',
'order' => ['email' => 'DESC', 'username' => 'ASC']]
)
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
The MySQL adapter also supports ``fulltext`` indexes. If you are using a version before 5.6 you must
ensure the table uses the ``MyISAM`` engine.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
public function change()
{
$table = $this->table('users', ['engine' => 'MyISAM']);
$table->addColumn('email', 'string')
->addIndex('email', ['type' => 'fulltext'])
->create();
}
}
In addition, MySQL adapter also supports setting the index length defined by limit option.
When you are using a multi-column index, you are able to define each column index length.
The single column index can define its index length with or without defining column name in limit option.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
public function change()
{
$table = $this->table('users');
$table->addColumn('email', 'string')
->addColumn('username','string')
->addColumn('user_guid', 'string', ['limit' => 36])
->addIndex(['email','username'], ['limit' => ['email' => 5, 'username' => 2]])
->addIndex('user_guid', ['limit' => 6])
->create();
}
}
The SQL Server and PostgreSQL adapters also supports ``include`` (non-key) columns on indexes.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
public function change()
{
$table = $this->table('users');
$table->addColumn('email', 'string')
->addColumn('firstname','string')
->addColumn('lastname','string')
->addIndex(['email'], ['include' => ['firstname', 'lastname']])
->create();
}
}
In addition PostgreSQL adapters also supports Generalized Inverted Index ``gin`` indexes.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
public function change()
{
$table = $this->table('users');
$table->addColumn('address', 'string')
->addIndex('address', ['type' => 'gin'])
->create();
}
}
Removing indexes is as easy as calling the ``removeIndex()`` method. You must
call this method for each index.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('users');
$table->removeIndex(['email'])
->save();
// alternatively, you can delete an index by its name, ie:
$table->removeIndexByName('idx_users_email')
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
Working With Foreign Keys
-------------------------
Phinx has support for creating foreign key constraints on your database tables.
Let's add a foreign key to an example table:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('tags');
$table->addColumn('tag_name', 'string')
->save();
$refTable = $this->table('tag_relationships');
$refTable->addColumn('tag_id', 'integer', ['null' => true])
->addForeignKey('tag_id', 'tags', 'id', ['delete'=> 'SET_NULL', 'update'=> 'NO_ACTION'])
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
"On delete" and "On update" actions are defined with a 'delete' and 'update' options array. Possibles values are 'SET_NULL', 'NO_ACTION', 'CASCADE' and 'RESTRICT'. If 'SET_NULL' is used then the column must be created as nullable with the option ``['null' => true]``.
Constraint name can be changed with the 'constraint' option.
It is also possible to pass ``addForeignKey()`` an array of columns.
This allows us to establish a foreign key relationship to a table which uses a combined key.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('follower_events');
$table->addColumn('user_id', 'integer')
->addColumn('follower_id', 'integer')
->addColumn('event_id', 'integer')
->addForeignKey(['user_id', 'follower_id'],
'followers',
['user_id', 'follower_id'],
['delete'=> 'NO_ACTION', 'update'=> 'NO_ACTION', 'constraint' => 'user_follower_id'])
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
We can add named foreign keys using the ``constraint`` parameter. This feature is supported as of Phinx version 0.6.5
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('your_table');
$table->addForeignKey('foreign_id', 'reference_table', ['id'],
['constraint' => 'your_foreign_key_name']);
->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
We can also easily check if a foreign key exists:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('tag_relationships');
$exists = $table->hasForeignKey('tag_id');
if ($exists) {
// do something
}
}
/**
* Migrate Down.
*/
public function down()
{
}
}
Finally, to delete a foreign key, use the ``dropForeignKey`` method.
Note that like other methods in the ``Table`` class, ``dropForeignKey`` also needs ``save()``
to be called at the end in order to be executed. This allows phinx to intelligently
plan migrations when more than one table is involved.
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$table = $this->table('tag_relationships');
$table->dropForeignKey('tag_id')->save();
}
/**
* Migrate Down.
*/
public function down()
{
}
}
Using the Query Builder
-----------------------
It is not uncommon to pair database structure changes with data changes. For example, you may want to
migrate the data in a couple columns from the users to a newly created table. For this type of scenarios,
Phinx provides access to a Query builder object, that you may use to execute complex ``SELECT``, ``UPDATE``,
``INSERT`` or ``DELETE`` statements.
The Query builder is provided by the `cakephp/database <https://github.com/cakephp/database>`_ project, and should
be easy to work with as it resembles very closely plain SQL. Accesing the query builder is done by calling the
``getQueryBuilder()`` function:
.. code-block:: php
<?php
use Phinx\Migration\AbstractMigration;
class MyNewMigration extends AbstractMigration
{
/**
* Migrate Up.
*/
public function up()
{
$builder = $this->getQueryBuilder();
$statement = $builder->select('*')->from('users')->execute();
var_dump($statement->fetchAll());
}
}
Selecting Fields
~~~~~~~~~~~~~~~~
Adding fields to the SELECT clause:
.. code-block:: php
<?php
$builder->select(['id', 'title', 'body']);
// Results in SELECT id AS pk, title AS aliased_title, body ...
$builder->select(['pk' => 'id', 'aliased_title' => 'title', 'body']);
// Use a closure
$builder->select(function ($builder) {
return ['id', 'title', 'body'];
});
Where Conditions
~~~~~~~~~~~~~~~~
Generating conditions:
.. code-block:: php
// WHERE id = 1
$builder->where(['id' => 1]);
// WHERE id > 1
$builder->where(['id >' => 1]);
As you can see you can use any operator by placing it with a space after the field name. Adding multiple conditions is easy as well:
.. code-block:: php
<?php
$builder->where(['id >' => 1])->andWhere(['title' => 'My Title']);
// Equivalent to
$builder->where(['id >' => 1, 'title' => 'My title']);
// WHERE id > 1 OR title = 'My title'
$builder->where(['OR' => ['id >' => 1, 'title' => 'My title']]);
For even more complex conditions you can use closures and expression objects:
.. code-block:: php
<?php
// Coditions are tied together with AND by default
$builder
->select('*')
->from('articles')
->where(function ($exp) {
return $exp
->eq('author_id', 2)
->eq('published', true)
->notEq('spam', true)
->gt('view_count', 10);
});
Which results in:
.. code-block:: sql
SELECT * FROM articles
WHERE
author_id = 2
AND published = 1
AND spam != 1
AND view_count > 10
Combining expressions is also possible:
.. code-block:: php
<?php
$builder
->select('*')
->from('articles')
->where(function ($exp) {
$orConditions = $exp->or_(['author_id' => 2])
->eq('author_id', 5);
return $exp
->not($orConditions)
->lte('view_count', 10);
});
It generates:
.. code-block:: sql
SELECT *
FROM articles
WHERE
NOT (author_id = 2 OR author_id = 5)
AND view_count <= 10
When using the expression objects you can use the following methods to create conditions:
* ``eq()`` Creates an equality condition.
* ``notEq()`` Create an inequality condition
* ``like()`` Create a condition using the ``LIKE`` operator.
* ``notLike()`` Create a negated ``LIKE`` condition.
* ``in()`` Create a condition using ``IN``.
* ``notIn()`` Create a negated condition using ``IN``.
* ``gt()`` Create a ``>`` condition.
* ``gte()`` Create a ``>=`` condition.
* ``lt()`` Create a ``<`` condition.
* ``lte()`` Create a ``<=`` condition.
* ``isNull()`` Create an ``IS NULL`` condition.
* ``isNotNull()`` Create a negated ``IS NULL`` condition.
Aggregates and SQL Functions
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
.. code-block:: php
<?php
// Results in SELECT COUNT(*) count FROM ...
$builder->select(['count' => $builder->func()->count('*')]);
A number of commonly used functions can be created with the func() method:
* ``sum()`` Calculate a sum. The arguments will be treated as literal values.
* ``avg()`` Calculate an average. The arguments will be treated as literal values.
* ``min()`` Calculate the min of a column. The arguments will be treated as literal values.
* ``max()`` Calculate the max of a column. The arguments will be treated as literal values.
* ``count()`` Calculate the count. The arguments will be treated as literal values.
* ``concat()`` Concatenate two values together. The arguments are treated as bound parameters unless marked as literal.
* ``coalesce()`` Coalesce values. The arguments are treated as bound parameters unless marked as literal.
* ``dateDiff()`` Get the difference between two dates/times. The arguments are treated as bound parameters unless marked as literal.
* ``now()`` Take either 'time' or 'date' as an argument allowing you to get either the current time, or current date.
When providing arguments for SQL functions, there are two kinds of parameters you can use,
literal arguments and bound parameters. Literal parameters allow you to reference columns or
other SQL literals. Bound parameters can be used to safely add user data to SQL functions. For example:
.. code-block:: php
<?php
// Generates:
// SELECT CONCAT(title, ' NEW') ...;
$concat = $builder->func()->concat([
'title' => 'literal',
' NEW'
]);
$query->select(['title' => $concat]);
Getting Results out of a Query
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Once youve made your query, youll want to retrieve rows from it. There are a few ways of doing this:
.. code-block:: php
<?php
// Iterate the query
foreach ($builder as $row) {
echo $row['title'];
}
// Get the statement and fetch all results
$results = $builder->execute()->fetchAll('assoc');
Creating an Insert Query
~~~~~~~~~~~~~~~~~~~~~~~~
Creating insert queries is also possible:
.. code-block:: php
<?php
$builder = $this->getQueryBuilder();
$builder
->insert(['first_name', 'last_name'])
->into('users')
->values(['first_name' => 'Steve', 'last_name' => 'Jobs'])
->values(['first_name' => 'Jon', 'last_name' => 'Snow'])
->execute();
For increased performance, you can use another builder object as the values for an insert query:
.. code-block:: php
<?php
$namesQuery = $this->getQueryBuilder();
$namesQuery
->select(['fname', 'lname'])
->from('users')
->where(['is_active' => true]);
$builder = $this->getQueryBuilder();
$st = $builder
->insert(['first_name', 'last_name'])
->into('names')
->values($namesQuery)
->execute();
var_dump($st->lastInsertId('names', 'id'));
The above code will generate:
.. code-block:: sql
INSERT INTO names (first_name, last_name)
(SELECT fname, lname FROM USERS where is_active = 1)
Creating an update Query
~~~~~~~~~~~~~~~~~~~~~~~~
Creating update queries is similar to both inserting and selecting:
.. code-block:: php
<?php
$builder = $this->getQueryBuilder();
$builder
->update('users')
->set('fname', 'Snow')
->where(['fname' => 'Jon'])
->execute();
Creating a Delete Query
~~~~~~~~~~~~~~~~~~~~~~~
Finally, delete queries:
.. code-block:: php
<?php
$builder = $this->getQueryBuilder();
$builder
->delete('users')
->where(['accepted_gdpr' => false])
->execute();