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|
**DO NOT READ THIS FILE ON GITHUB, GUIDES ARE PUBLISHED ON http://guides.rubyonrails.org.**
Active Record Migrations
========================
Migrations are a feature of Active Record that allows you to evolve your
database schema over time. Rather than write schema modifications in pure SQL,
migrations allow you to use an easy Ruby DSL to describe changes to your
tables.
After reading this guide, you will know:
* The generators you can use to create them.
* The methods Active Record provides to manipulate your database.
* The Rake tasks that manipulate migrations and your schema.
* How migrations relate to `schema.rb`.
--------------------------------------------------------------------------------
Migration Overview
------------------
Migrations are a convenient way to
[alter your database schema over time](http://en.wikipedia.org/wiki/Schema_migration)
in a consistent and easy way. They use a Ruby DSL so that you don't have to
write SQL by hand, allowing your schema and changes to be database independent.
You can think of each migration as being a new 'version' of the database. A
schema starts off with nothing in it, and each migration modifies it to add or
remove tables, columns, or entries. Active Record knows how to update your
schema along this timeline, bringing it from whatever point it is in the
history to the latest version. Active Record will also update your
`db/schema.rb` file to match the up-to-date structure of your database.
Here's an example of a migration:
```ruby
class CreateProducts < ActiveRecord::Migration
def change
create_table :products do |t|
t.string :name
t.text :description
t.timestamps null: false
end
end
end
```
This migration adds a table called `products` with a string column called
`name` and a text column called `description`. A primary key column called `id`
will also be added implicitly, as it's the default primary key for all Active
Record models. The `timestamps` macro adds two columns, `created_at` and
`updated_at`. These special columns are automatically managed by Active Record
if they exist.
Note that we define the change that we want to happen moving forward in time.
Before this migration is run, there will be no table. After, the table will
exist. Active Record knows how to reverse this migration as well: if we roll
this migration back, it will remove the table.
On databases that support transactions with statements that change the schema,
migrations are wrapped in a transaction. If the database does not support this
then when a migration fails the parts of it that succeeded will not be rolled
back. You will have to rollback the changes that were made by hand.
NOTE: There are certain queries that can't run inside a transaction. If your
adapter supports DDL transactions you can use `disable_ddl_transaction!` to
disable them for a single migration.
If you wish for a migration to do something that Active Record doesn't know how
to reverse, you can use `reversible`:
```ruby
class ChangeProductsPrice < ActiveRecord::Migration
def change
reversible do |dir|
change_table :products do |t|
dir.up { t.change :price, :string }
dir.down { t.change :price, :integer }
end
end
end
end
```
Alternatively, you can use `up` and `down` instead of `change`:
```ruby
class ChangeProductsPrice < ActiveRecord::Migration
def up
change_table :products do |t|
t.change :price, :string
end
end
def down
change_table :products do |t|
t.change :price, :integer
end
end
end
```
Creating a Migration
--------------------
### Creating a Standalone Migration
Migrations are stored as files in the `db/migrate` directory, one for each
migration class. The name of the file is of the form
`YYYYMMDDHHMMSS_create_products.rb`, that is to say a UTC timestamp
identifying the migration followed by an underscore followed by the name
of the migration. The name of the migration class (CamelCased version)
should match the latter part of the file name. For example
`20080906120000_create_products.rb` should define class `CreateProducts` and
`20080906120001_add_details_to_products.rb` should define
`AddDetailsToProducts`. Rails uses this timestamp to determine which migration
should be run and in what order, so if you're copying a migration from another
application or generate a file yourself, be aware of its position in the order.
Of course, calculating timestamps is no fun, so Active Record provides a
generator to handle making it for you:
```bash
$ bin/rails generate migration AddPartNumberToProducts
```
This will create an empty but appropriately named migration:
```ruby
class AddPartNumberToProducts < ActiveRecord::Migration
def change
end
end
```
If the migration name is of the form "AddXXXToYYY" or "RemoveXXXFromYYY" and is
followed by a list of column names and types then a migration containing the
appropriate `add_column` and `remove_column` statements will be created.
```bash
$ bin/rails generate migration AddPartNumberToProducts part_number:string
```
will generate
```ruby
class AddPartNumberToProducts < ActiveRecord::Migration
def change
add_column :products, :part_number, :string
end
end
```
If you'd like to add an index on the new column, you can do that as well:
```bash
$ bin/rails generate migration AddPartNumberToProducts part_number:string:index
```
will generate
```ruby
class AddPartNumberToProducts < ActiveRecord::Migration
def change
add_column :products, :part_number, :string
add_index :products, :part_number
end
end
```
Similarly, you can generate a migration to remove a column from the command line:
```bash
$ bin/rails generate migration RemovePartNumberFromProducts part_number:string
```
generates
```ruby
class RemovePartNumberFromProducts < ActiveRecord::Migration
def change
remove_column :products, :part_number, :string
end
end
```
You are not limited to one magically generated column. For example:
```bash
$ bin/rails generate migration AddDetailsToProducts part_number:string price:decimal
```
generates
```ruby
class AddDetailsToProducts < ActiveRecord::Migration
def change
add_column :products, :part_number, :string
add_column :products, :price, :decimal
end
end
```
If the migration name is of the form "CreateXXX" and is
followed by a list of column names and types then a migration creating the table
XXX with the columns listed will be generated. For example:
```bash
$ bin/rails generate migration CreateProducts name:string part_number:string
```
generates
```ruby
class CreateProducts < ActiveRecord::Migration
def change
create_table :products do |t|
t.string :name
t.string :part_number
end
end
end
```
As always, what has been generated for you is just a starting point. You can add
or remove from it as you see fit by editing the
`db/migrate/YYYYMMDDHHMMSS_add_details_to_products.rb` file.
Also, the generator accepts column type as `references`(also available as
`belongs_to`). For instance:
```bash
$ bin/rails generate migration AddUserRefToProducts user:references
```
generates
```ruby
class AddUserRefToProducts < ActiveRecord::Migration
def change
add_reference :products, :user, index: true
end
end
```
This migration will create a `user_id` column and appropriate index.
There is also a generator which will produce join tables if `JoinTable` is part of the name:
```bash
$ bin/rails g migration CreateJoinTableCustomerProduct customer product
```
will produce the following migration:
```ruby
class CreateJoinTableCustomerProduct < ActiveRecord::Migration
def change
create_join_table :customers, :products do |t|
# t.index [:customer_id, :product_id]
# t.index [:product_id, :customer_id]
end
end
end
```
### Model Generators
The model and scaffold generators will create migrations appropriate for adding
a new model. This migration will already contain instructions for creating the
relevant table. If you tell Rails what columns you want, then statements for
adding these columns will also be created. For example, running:
```bash
$ bin/rails generate model Product name:string description:text
```
will create a migration that looks like this
```ruby
class CreateProducts < ActiveRecord::Migration
def change
create_table :products do |t|
t.string :name
t.text :description
t.timestamps null: false
end
end
end
```
You can append as many column name/type pairs as you want.
### Passing Modifiers
Some commonly used [type modifiers](#column-modifiers) can be passed directly on
the command line. They are enclosed by curly braces and follow the field type:
For instance, running:
```bash
$ bin/rails generate migration AddDetailsToProducts 'price:decimal{5,2}' supplier:references{polymorphic}
```
will produce a migration that looks like this
```ruby
class AddDetailsToProducts < ActiveRecord::Migration
def change
add_column :products, :price, :decimal, precision: 5, scale: 2
add_reference :products, :supplier, polymorphic: true, index: true
end
end
```
TIP: Have a look at the generators help output for further details.
Writing a Migration
-------------------
Once you have created your migration using one of the generators it's time to
get to work!
### Creating a Table
The `create_table` method is one of the most fundamental, but most of the time,
will be generated for you from using a model or scaffold generator. A typical
use would be
```ruby
create_table :products do |t|
t.string :name
end
```
which creates a `products` table with a column called `name` (and as discussed
below, an implicit `id` column).
By default, `create_table` will create a primary key called `id`. You can change
the name of the primary key with the `:primary_key` option (don't forget to
update the corresponding model) or, if you don't want a primary key at all, you
can pass the option `id: false`. If you need to pass database specific options
you can place an SQL fragment in the `:options` option. For example:
```ruby
create_table :products, options: "ENGINE=BLACKHOLE" do |t|
t.string :name, null: false
end
```
will append `ENGINE=BLACKHOLE` to the SQL statement used to create the table
(when using MySQL, the default is `ENGINE=InnoDB`).
### Creating a Join Table
Migration method `create_join_table` creates a HABTM join table. A typical use
would be:
```ruby
create_join_table :products, :categories
```
which creates a `categories_products` table with two columns called
`category_id` and `product_id`. These columns have the option `:null` set to
`false` by default. This can be overridden by specifying the `:column_options`
option.
```ruby
create_join_table :products, :categories, column_options: {null: true}
```
will create the `product_id` and `category_id` with the `:null` option as
`true`.
You can pass the option `:table_name` when you want to customize the table
name. For example:
```ruby
create_join_table :products, :categories, table_name: :categorization
```
will create a `categorization` table.
`create_join_table` also accepts a block, which you can use to add indices
(which are not created by default) or additional columns:
```ruby
create_join_table :products, :categories do |t|
t.index :product_id
t.index :category_id
end
```
### Changing Tables
A close cousin of `create_table` is `change_table`, used for changing existing
tables. It is used in a similar fashion to `create_table` but the object
yielded to the block knows more tricks. For example:
```ruby
change_table :products do |t|
t.remove :description, :name
t.string :part_number
t.index :part_number
t.rename :upccode, :upc_code
end
```
removes the `description` and `name` columns, creates a `part_number` string
column and adds an index on it. Finally it renames the `upccode` column.
### Changing Columns
Like the `remove_column` and `add_column` Rails provides the `change_column`
migration method.
```ruby
change_column :products, :part_number, :text
```
This changes the column `part_number` on products table to be a `:text` field.
Besides `change_column`, the `change_column_null` and `change_column_default`
methods are used specifically to change the null and default values of a
column.
```ruby
change_column_null :products, :name, false
change_column_default :products, :approved, false
```
This sets `:name` field on products to a `NOT NULL` column and the default
value of the `:approved` field to false.
TIP: Unlike `change_column` (and `change_column_default`), `change_column_null`
is reversible.
### Column Modifiers
Column modifiers can be applied when creating or changing a column:
* `limit` Sets the maximum size of the `string/text/binary/integer` fields.
* `precision` Defines the precision for the `decimal` fields, representing the
total number of digits in the number.
* `scale` Defines the scale for the `decimal` fields, representing the
number of digits after the decimal point.
* `polymorphic` Adds a `type` column for `belongs_to` associations.
* `null` Allows or disallows `NULL` values in the column.
* `default` Allows to set a default value on the column. Note that if you
are using a dynamic value (such as a date), the default will only be calculated
the first time (i.e. on the date the migration is applied).
* `index` Adds an index for the column.
* `required` Adds `required: true` for `belongs_to` associations and
`null: false` to the column in the migration.
Some adapters may support additional options; see the adapter specific API docs
for further information.
### Foreign Keys
While it's not required you might want to add foreign key constraints to
[guarantee referential integrity](#active-record-and-referential-integrity).
```ruby
add_foreign_key :articles, :authors
```
This adds a new foreign key to the `author_id` column of the `articles`
table. The key references the `id` column of the `authors` table. If the
column names can not be derived from the table names, you can use the
`:column` and `:primary_key` options.
Rails will generate a name for every foreign key starting with
`fk_rails_` followed by 10 random characters.
There is a `:name` option to specify a different name if needed.
NOTE: Active Record only supports single column foreign keys. `execute` and
`structure.sql` are required to use composite foreign keys.
Removing a foreign key is easy as well:
```ruby
# let Active Record figure out the column name
remove_foreign_key :accounts, :branches
# remove foreign key for a specific column
remove_foreign_key :accounts, column: :owner_id
# remove foreign key by name
remove_foreign_key :accounts, name: :special_fk_name
```
### When Helpers aren't Enough
If the helpers provided by Active Record aren't enough you can use the `execute`
method to execute arbitrary SQL:
```ruby
Product.connection.execute('UPDATE `products` SET `price`=`free` WHERE 1')
```
For more details and examples of individual methods, check the API documentation.
In particular the documentation for
[`ActiveRecord::ConnectionAdapters::SchemaStatements`](http://api.rubyonrails.org/classes/ActiveRecord/ConnectionAdapters/SchemaStatements.html)
(which provides the methods available in the `change`, `up` and `down` methods),
[`ActiveRecord::ConnectionAdapters::TableDefinition`](http://api.rubyonrails.org/classes/ActiveRecord/ConnectionAdapters/TableDefinition.html)
(which provides the methods available on the object yielded by `create_table`)
and
[`ActiveRecord::ConnectionAdapters::Table`](http://api.rubyonrails.org/classes/ActiveRecord/ConnectionAdapters/Table.html)
(which provides the methods available on the object yielded by `change_table`).
### Using the `change` Method
The `change` method is the primary way of writing migrations. It works for the
majority of cases, where Active Record knows how to reverse the migration
automatically. Currently, the `change` method supports only these migration
definitions:
* `add_column`
* `add_index`
* `add_reference`
* `add_timestamps`
* `add_foreign_key`
* `create_table`
* `create_join_table`
* `drop_table` (must supply a block)
* `drop_join_table` (must supply a block)
* `remove_timestamps`
* `rename_column`
* `rename_index`
* `remove_reference`
* `rename_table`
`change_table` is also reversible, as long as the block does not call `change`,
`change_default` or `remove`.
If you're going to need to use any other methods, you should use `reversible`
or write the `up` and `down` methods instead of using the `change` method.
### Using `reversible`
Complex migrations may require processing that Active Record doesn't know how
to reverse. You can use `reversible` to specify what to do when running a
migration what else to do when reverting it. For example:
```ruby
class ExampleMigration < ActiveRecord::Migration
def change
create_table :distributors do |t|
t.string :zipcode
end
reversible do |dir|
dir.up do
# add a CHECK constraint
execute <<-SQL
ALTER TABLE distributors
ADD CONSTRAINT zipchk
CHECK (char_length(zipcode) = 5) NO INHERIT;
SQL
end
dir.down do
execute <<-SQL
ALTER TABLE distributors
DROP CONSTRAINT zipchk
SQL
end
end
add_column :users, :home_page_url, :string
rename_column :users, :email, :email_address
end
end
```
Using `reversible` will ensure that the instructions are executed in the
right order too. If the previous example migration is reverted,
the `down` block will be run after the `home_page_url` column is removed and
right before the table `distributors` is dropped.
Sometimes your migration will do something which is just plain irreversible; for
example, it might destroy some data. In such cases, you can raise
`ActiveRecord::IrreversibleMigration` in your `down` block. If someone tries
to revert your migration, an error message will be displayed saying that it
can't be done.
### Using the `up`/`down` Methods
You can also use the old style of migration using `up` and `down` methods
instead of the `change` method.
The `up` method should describe the transformation you'd like to make to your
schema, and the `down` method of your migration should revert the
transformations done by the `up` method. In other words, the database schema
should be unchanged if you do an `up` followed by a `down`. For example, if you
create a table in the `up` method, you should drop it in the `down` method. It
is wise to reverse the transformations in precisely the reverse order they were
made in the `up` method. The example in the `reversible` section is equivalent to:
```ruby
class ExampleMigration < ActiveRecord::Migration
def up
create_table :distributors do |t|
t.string :zipcode
end
# add a CHECK constraint
execute <<-SQL
ALTER TABLE distributors
ADD CONSTRAINT zipchk
CHECK (char_length(zipcode) = 5);
SQL
add_column :users, :home_page_url, :string
rename_column :users, :email, :email_address
end
def down
rename_column :users, :email_address, :email
remove_column :users, :home_page_url
execute <<-SQL
ALTER TABLE distributors
DROP CONSTRAINT zipchk
SQL
drop_table :distributors
end
end
```
If your migration is irreversible, you should raise
`ActiveRecord::IrreversibleMigration` from your `down` method. If someone tries
to revert your migration, an error message will be displayed saying that it
can't be done.
### Reverting Previous Migrations
You can use Active Record's ability to rollback migrations using the `revert` method:
```ruby
require_relative '2012121212_example_migration'
class FixupExampleMigration < ActiveRecord::Migration
def change
revert ExampleMigration
create_table(:apples) do |t|
t.string :variety
end
end
end
```
The `revert` method also accepts a block of instructions to reverse.
This could be useful to revert selected parts of previous migrations.
For example, let's imagine that `ExampleMigration` is committed and it
is later decided it would be best to use Active Record validations,
in place of the `CHECK` constraint, to verify the zipcode.
```ruby
class DontUseConstraintForZipcodeValidationMigration < ActiveRecord::Migration
def change
revert do
# copy-pasted code from ExampleMigration
reversible do |dir|
dir.up do
# add a CHECK constraint
execute <<-SQL
ALTER TABLE distributors
ADD CONSTRAINT zipchk
CHECK (char_length(zipcode) = 5);
SQL
end
dir.down do
execute <<-SQL
ALTER TABLE distributors
DROP CONSTRAINT zipchk
SQL
end
end
# The rest of the migration was ok
end
end
end
```
The same migration could also have been written without using `revert`
but this would have involved a few more steps: reversing the order
of `create_table` and `reversible`, replacing `create_table`
by `drop_table`, and finally replacing `up` by `down` and vice-versa.
This is all taken care of by `revert`.
Running Migrations
------------------
Rails provides a set of Rake tasks to run certain sets of migrations.
The very first migration related Rake task you will use will probably be
`rake db:migrate`. In its most basic form it just runs the `change` or `up`
method for all the migrations that have not yet been run. If there are
no such migrations, it exits. It will run these migrations in order based
on the date of the migration.
Note that running the `db:migrate` task also invokes the `db:schema:dump` task, which
will update your `db/schema.rb` file to match the structure of your database.
If you specify a target version, Active Record will run the required migrations
(change, up, down) until it has reached the specified version. The version
is the numerical prefix on the migration's filename. For example, to migrate
to version 20080906120000 run:
```bash
$ bin/rake db:migrate VERSION=20080906120000
```
If version 20080906120000 is greater than the current version (i.e., it is
migrating upwards), this will run the `change` (or `up`) method
on all migrations up to and
including 20080906120000, and will not execute any later migrations. If
migrating downwards, this will run the `down` method on all the migrations
down to, but not including, 20080906120000.
### Rolling Back
A common task is to rollback the last migration. For example, if you made a
mistake in it and wish to correct it. Rather than tracking down the version
number associated with the previous migration you can run:
```bash
$ bin/rake db:rollback
```
This will rollback the latest migration, either by reverting the `change`
method or by running the `down` method. If you need to undo
several migrations you can provide a `STEP` parameter:
```bash
$ bin/rake db:rollback STEP=3
```
will revert the last 3 migrations.
The `db:migrate:redo` task is a shortcut for doing a rollback and then migrating
back up again. As with the `db:rollback` task, you can use the `STEP` parameter
if you need to go more than one version back, for example:
```bash
$ bin/rake db:migrate:redo STEP=3
```
Neither of these Rake tasks do anything you could not do with `db:migrate`. They
are simply more convenient, since you do not need to explicitly specify the
version to migrate to.
### Setup the Database
The `rake db:setup` task will create the database, load the schema and initialize
it with the seed data.
### Resetting the Database
The `rake db:reset` task will drop the database and set it up again. This is
functionally equivalent to `rake db:drop db:setup`.
NOTE: This is not the same as running all the migrations. It will only use the
contents of the current `schema.rb` file. If a migration can't be rolled back,
`rake db:reset` may not help you. To find out more about dumping the schema see
[Schema Dumping and You](#schema-dumping-and-you) section.
### Running Specific Migrations
If you need to run a specific migration up or down, the `db:migrate:up` and
`db:migrate:down` tasks will do that. Just specify the appropriate version and
the corresponding migration will have its `change`, `up` or `down` method
invoked, for example:
```bash
$ bin/rake db:migrate:up VERSION=20080906120000
```
will run the 20080906120000 migration by running the `change` method (or the
`up` method). This task will
first check whether the migration is already performed and will do nothing if
Active Record believes that it has already been run.
### Running Migrations in Different Environments
By default running `rake db:migrate` will run in the `development` environment.
To run migrations against another environment you can specify it using the
`RAILS_ENV` environment variable while running the command. For example to run
migrations against the `test` environment you could run:
```bash
$ bin/rake db:migrate RAILS_ENV=test
```
### Changing the Output of Running Migrations
By default migrations tell you exactly what they're doing and how long it took.
A migration creating a table and adding an index might produce output like this
```bash
== CreateProducts: migrating =================================================
-- create_table(:products)
-> 0.0028s
== CreateProducts: migrated (0.0028s) ========================================
```
Several methods are provided in migrations that allow you to control all this:
| Method | Purpose
| -------------------- | -------
| suppress_messages | Takes a block as an argument and suppresses any output generated by the block.
| say | Takes a message argument and outputs it as is. A second boolean argument can be passed to specify whether to indent or not.
| say_with_time | Outputs text along with how long it took to run its block. If the block returns an integer it assumes it is the number of rows affected.
For example, this migration:
```ruby
class CreateProducts < ActiveRecord::Migration
def change
suppress_messages do
create_table :products do |t|
t.string :name
t.text :description
t.timestamps null: false
end
end
say "Created a table"
suppress_messages {add_index :products, :name}
say "and an index!", true
say_with_time 'Waiting for a while' do
sleep 10
250
end
end
end
```
generates the following output
```bash
== CreateProducts: migrating =================================================
-- Created a table
-> and an index!
-- Waiting for a while
-> 10.0013s
-> 250 rows
== CreateProducts: migrated (10.0054s) =======================================
```
If you want Active Record to not output anything, then running `rake db:migrate
VERBOSE=false` will suppress all output.
Changing Existing Migrations
----------------------------
Occasionally you will make a mistake when writing a migration. If you have
already run the migration then you cannot just edit the migration and run the
migration again: Rails thinks it has already run the migration and so will do
nothing when you run `rake db:migrate`. You must rollback the migration (for
example with `rake db:rollback`), edit your migration and then run
`rake db:migrate` to run the corrected version.
In general, editing existing migrations is not a good idea. You will be
creating extra work for yourself and your co-workers and cause major headaches
if the existing version of the migration has already been run on production
machines. Instead, you should write a new migration that performs the changes
you require. Editing a freshly generated migration that has not yet been
committed to source control (or, more generally, which has not been propagated
beyond your development machine) is relatively harmless.
The `revert` method can be helpful when writing a new migration to undo
previous migrations in whole or in part
(see [Reverting Previous Migrations](#reverting-previous-migrations) above).
Schema Dumping and You
----------------------
### What are Schema Files for?
Migrations, mighty as they may be, are not the authoritative source for your
database schema. That role falls to either `db/schema.rb` or an SQL file which
Active Record generates by examining the database. They are not designed to be
edited, they just represent the current state of the database.
There is no need (and it is error prone) to deploy a new instance of an app by
replaying the entire migration history. It is much simpler and faster to just
load into the database a description of the current schema.
For example, this is how the test database is created: the current development
database is dumped (either to `db/schema.rb` or `db/structure.sql`) and then
loaded into the test database.
Schema files are also useful if you want a quick look at what attributes an
Active Record object has. This information is not in the model's code and is
frequently spread across several migrations, but the information is nicely
summed up in the schema file. The
[annotate_models](https://github.com/ctran/annotate_models) gem automatically
adds and updates comments at the top of each model summarizing the schema if
you desire that functionality.
### Types of Schema Dumps
There are two ways to dump the schema. This is set in `config/application.rb`
by the `config.active_record.schema_format` setting, which may be either `:sql`
or `:ruby`.
If `:ruby` is selected then the schema is stored in `db/schema.rb`. If you look
at this file you'll find that it looks an awful lot like one very big
migration:
```ruby
ActiveRecord::Schema.define(version: 20080906171750) do
create_table "authors", force: true do |t|
t.string "name"
t.datetime "created_at"
t.datetime "updated_at"
end
create_table "products", force: true do |t|
t.string "name"
t.text "description"
t.datetime "created_at"
t.datetime "updated_at"
t.string "part_number"
end
end
```
In many ways this is exactly what it is. This file is created by inspecting the
database and expressing its structure using `create_table`, `add_index`, and so
on. Because this is database-independent, it could be loaded into any database
that Active Record supports. This could be very useful if you were to
distribute an application that is able to run against multiple databases.
There is however a trade-off: `db/schema.rb` cannot express database specific
items such as triggers, or stored procedures. While in a migration you can
execute custom SQL statements, the schema dumper cannot reconstitute those
statements from the database. If you are using features like this, then you
should set the schema format to `:sql`.
Instead of using Active Record's schema dumper, the database's structure will
be dumped using a tool specific to the database (via the `db:structure:dump`
Rake task) into `db/structure.sql`. For example, for PostgreSQL, the `pg_dump`
utility is used. For MySQL, this file will contain the output of
`SHOW CREATE TABLE` for the various tables.
Loading these schemas is simply a question of executing the SQL statements they
contain. By definition, this will create a perfect copy of the database's
structure. Using the `:sql` schema format will, however, prevent loading the
schema into a RDBMS other than the one used to create it.
### Schema Dumps and Source Control
Because schema dumps are the authoritative source for your database schema, it
is strongly recommended that you check them into source control.
`db/schema.rb` contains the current version number of the database. This
ensures conflicts are going to happen in the case of a merge where both
branches touched the schema. When that happens, solve conflicts manually,
keeping the highest version number of the two.
Active Record and Referential Integrity
---------------------------------------
The Active Record way claims that intelligence belongs in your models, not in
the database. As such, features such as triggers or constraints,
which push some of that intelligence back into the database, are not heavily
used.
Validations such as `validates :foreign_key, uniqueness: true` are one way in
which models can enforce data integrity. The `:dependent` option on
associations allows models to automatically destroy child objects when the
parent is destroyed. Like anything which operates at the application level,
these cannot guarantee referential integrity and so some people augment them
with [foreign key constraints](#foreign-keys) in the database.
Although Active Record does not provide all the tools for working directly with
such features, the `execute` method can be used to execute arbitrary SQL.
Migrations and Seed Data
------------------------
Some people use migrations to add data to the database:
```ruby
class AddInitialProducts < ActiveRecord::Migration
def up
5.times do |i|
Product.create(name: "Product ##{i}", description: "A product.")
end
end
def down
Product.delete_all
end
end
```
However, Rails has a 'seeds' feature that should be used for seeding a database
with initial data. It's a really simple feature: just fill up `db/seeds.rb`
with some Ruby code, and run `rake db:seed`:
```ruby
5.times do |i|
Product.create(name: "Product ##{i}", description: "A product.")
end
```
This is generally a much cleaner way to set up the database of a blank
application.
|