There are some people who give advice to not use rails generators and create models, controllers and etc. things manually. I don’t agree with them and my advice here is to figure out deeply how they work and then make conclusion.
In this post I will describe the most often and useful generator - it’s a model generator. I bet if you don’t use rails generators yet this post will make you to change your work. Using Rails generators saves your time, increases performance, helps to get consistent data for your application.
Let’s start with simple example:
This command will generate user model with email field type of string, migration which creates users table, test for model and factory (if you have it). You are able to generate model with few fields like this:
This example will generate yet model with 3 string fields: first_name, last_name and email.
If you want to have model with different type of string pass type after field name following by : and type. Example:
The whole list of available types:
You are able to pass –option parameter to generator. It will inherit generating class from passed name to achieve STI (sing table inheritance):
May 14, 2016 Here, a foreign key of 1 in the categoryid column will relate to food expenses, a foreign key of 2 will relate to accommodation expenses, and so forth. Let's dive in. Generate Models. To start off, I created a new rails application and established the primary database, expenses. Rails: Generate Model vs. Scaffold July 15, 2014 by Koren Leslie Cohen If you’re just learning Ruby on Rails, you may be confused as to when to generate individual models, resources or scaffolding, and what files are created by each command. Sep 30, 2019 rails generate with no generator name will output a list of all available generators and some information about global options. Rails generate GENERATOR -help will list the options that can be passed to the specified generator. Rails Generate Examples Create a Resource rails generate scaffold Post name:string title:string content:text Generate.
This example generates model:
Interesting fact that if you generate model in some scope passing model like admin/user or Admin::User:
you will get generated model in scope app/models/admin/user.rb, defined scope app/models/admin.rb which is requred to define module. Let’s see to the content of generated module:
It means that generated table name for Admin::User starts with prefix admin_users. This feature allows to have separated namespaced models as in rails code as in db schema. Very convenient and useful feature for multimodule applications for my opinion.
Sometimes you have to automatically add index for columns in your migration. It’s not a problem:
Or uniq index:
Set limit for field of integer, string, text and binary fields:
Special syntax to generate decimal field with scale and precision:
Pay attention that you have to wrap parameter price:decimal{10,2}
to quotes. It’s vital and you may have incorrect behavior of generator if you don’t do it. Full explanation of this case is here.
You can combine any single curly brace option with the index options:
And the last useful feature of generators - it’s options to generate reference columns (fields which are used in rails as foreign keys): Windows server 2016 datacenter key.
This command will generate photos table with integer field album_id and also it will add index for this field automatically. Make sure in it by looking at generated migration:
For polymorphic reference use this syntax:
Polymorphic reference with indexes:
As you see there a lot of useful things in rails model generator which can decrease your developing time. Thank you for reading this trolling post but anyway I hope you find it useful because I didn’t find any similar post or literature which describes rails model generator fully.
PS. Foundation for this post was got from this rails description usage which is located only in sources of rails on github.
Migrations are a convenient way toalter your database schema over timein a consistent way. They use a Ruby DSL so that you don't have towrite 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. Aschema starts off with nothing in it, and each migration modifies it to add orremove tables, columns, or entries. Active Record knows how to update yourschema along this timeline, bringing it from whatever point it is in thehistory to the latest version. Active Record will also update yourdb/schema.rb
file to match the up-to-date structure of your database.
Here's an example of a migration:
This migration adds a table called products
with a string column calledname
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 ActiveRecord models. The timestamps
macro adds two columns, created_at
andupdated_at
. These special columns are automatically managed by Active Recordif 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 willexist. Active Record knows how to reverse this migration as well: if we rollthis 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 thisthen when a migration fails the parts of it that succeeded will not be rolledback. You will have to rollback the changes that were made by hand.
There are certain queries that can't run inside a transaction. If youradapter supports DDL transactions you can use disable_ddl_transaction!
todisable them for a single migration.
If you wish for a migration to do something that Active Record doesn't know howto reverse, you can use reversible
:
Alternatively, you can use up
and down
instead of change
:
Migrations are stored as files in the db/migrate
directory, one for eachmigration class. The name of the file is of the formYYYYMMDDHHMMSS_create_products.rb
, that is to say a UTC timestampidentifying the migration followed by an underscore followed by the nameof the migration. The name of the migration class (CamelCased version)should match the latter part of the file name. For example20080906120000_create_products.rb
should define class CreateProducts
and20080906120001_add_details_to_products.rb
should defineAddDetailsToProducts
. Rails uses this timestamp to determine which migrationshould be run and in what order, so if you're copying a migration from anotherapplication or generate a file yourself, be aware of its position in the order.
Of course, calculating timestamps is no fun, so Active Record provides agenerator to handle making it for you:
This will create an appropriately named empty migration:
This generator can do much more than append a timestamp to the file name.Based on naming conventions and additional (optional) arguments it canalso start fleshing out the migration.
If the migration name is of the form 'AddColumnToTable' or'RemoveColumnFromTable' and is followed by a list of column names andtypes then a migration containing the appropriate add_column
andremove_column
statements will be created.
will generate
If you'd like to add an index on the new column, you can do that as well:
will generate
Similarly, you can generate a migration to remove a column from the command line:
generates
You are not limited to one magically generated column. For example:
generates
If the migration name is of the form 'CreateXXX' and isfollowed by a list of column names and types then a migration creating the tableXXX with the columns listed will be generated. For example:
generates
As always, what has been generated for you is just a starting point. You can addor remove from it as you see fit by editing thedb/migrate/YYYYMMDDHHMMSS_add_details_to_products.rb
file.
Also, the generator accepts column type as references
(also available asbelongs_to
). For instance:
generates
This migration will create a user_id
column and appropriate index.For more add_reference
options, visit the API documentation.
There is also a generator which will produce join tables if JoinTable
is part of the name:
will produce the following migration:
The model and scaffold generators will create migrations appropriate for addinga new model. This migration will already contain instructions for creating therelevant table. If you tell Rails what columns you want, then statements foradding these columns will also be created. For example, running:
will create a migration that looks like this
You can append as many column name/type pairs as you want.
Some commonly used type modifiers can be passed directly onthe command line. They are enclosed by curly braces and follow the field type:
For instance, running:
will produce a migration that looks like this
Have a look at the generators help output for further details.
Once you have created your migration using one of the generators it's time toget to work!
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 typicaluse would be
which creates a products
table with a column called name
(and as discussedbelow, an implicit id
column).
By default, create_table
will create a primary key called id
. You can changethe name of the primary key with the :primary_key
option (don't forget toupdate the corresponding model) or, if you don't want a primary key at all, youcan pass the option id: false
. If you need to pass database specific optionsyou can place an SQL fragment in the :options
option. For example:
will append ENGINE=BLACKHOLE
to the SQL statement used to create the table.
Also you can pass the :comment
option with any description for the tablethat will be stored in database itself and can be viewed with database administrationtools, such as MySQL Workbench or PgAdmin III. It's highly recommended to specifycomments in migrations for applications with large databases as it helps peopleto understand data model and generate documentation.Currently only the MySQL and PostgreSQL adapters support comments.
The migration method create_join_table
creates an HABTM (has and belongs tomany) join table. A typical use would be:
which creates a categories_products
table with two columns calledcategory_id
and product_id
. These columns have the option :null
set tofalse
by default. This can be overridden by specifying the :column_options
option:
By default, the name of the join table comes from the union of the first twoarguments provided to create_join_table, in alphabetical order.To customize the name of the table, provide a :table_name
option:
creates 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:
A close cousin of create_table
is change_table
, used for changing existingtables. It is used in a similar fashion to create_table
but the objectyielded to the block knows more tricks. For example:
removes the description
and name
columns, creates a part_number
stringcolumn and adds an index on it. Finally it renames the upccode
column.
Like the remove_column
and add_column
Rails provides the change_column
migration method.
This changes the column part_number
on products table to be a :text
field.Note that change_column
command is irreversible.
Besides change_column
, the change_column_null
and change_column_default
methods are used specifically to change a not null constraint and defaultvalues of a column.
This sets :name
field on products to a NOT NULL
column and the defaultvalue of the :approved
field from true to false.
You could also write the above change_column_default
migration aschange_column_default :products, :approved, false
, but unlike the previousexample, this would make your migration irreversible.
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 thetotal number of digits in the number.scale
Defines the scale for the decimal
fields, representing thenumber 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 youare using a dynamic value (such as a date), the default will only be calculatedthe first time (i.e. on the date the migration is applied).comment
Adds a comment for the column.Some adapters may support additional options; see the adapter specific API docsfor further information.
null
and default
cannot be specified via command line.
While it's not required you might want to add foreign key constraints toguarantee referential integrity.
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 thecolumn names cannot 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 withfk_rails_
followed by 10 characters which are deterministicallygenerated from the from_table
and column
.There is a :name
option to specify a different name if needed.
Active Record only supports single column foreign keys. execute
andstructure.sql
are required to use composite foreign keys. SeeSchema Dumping and You.
Foreign keys can also be removed:
If the helpers provided by Active Record aren't enough you can use the execute
method to execute arbitrary SQL:
For more details and examples of individual methods, check the API documentation.In particular the documentation forActiveRecord::ConnectionAdapters::SchemaStatements
(which provides the methods available in the change
, up
and down
methods),ActiveRecord::ConnectionAdapters::TableDefinition
(which provides the methods available on the object yielded by create_table
)andActiveRecord::ConnectionAdapters::Table
(which provides the methods available on the object yielded by change_table
).
change
MethodThe change
method is the primary way of writing migrations. It works for themajority of cases, where Active Record knows how to reverse the migrationautomatically. Currently, the change
method supports only these migrationdefinitions:
change_table
is also reversible, as long as the block does not call change
,change_default
or remove
.
remove_column
is reversible if you supply the column type as the thirdargument. Provide the original column options too, otherwise Rails can'trecreate the column exactly when rolling back:
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.
reversible
Complex migrations may require processing that Active Record doesn't know howto reverse. You can use reversible
to specify what to do when running amigration and what else to do when reverting it. For example:
Using reversible
will ensure that the instructions are executed in theright order too. If the previous example migration is reverted,the down
block will be run after the home_page_url
column is removed andright before the table distributors
is dropped.
Sometimes your migration will do something which is just plain irreversible; forexample, it might destroy some data. In such cases, you can raiseActiveRecord::IrreversibleMigration
in your down
block. If someone triesto revert your migration, an error message will be displayed saying that itcan't be done.
up
/down
MethodsYou can also use the old style of migration using up
and down
methodsinstead of the change
method.The up
method should describe the transformation you'd like to make to yourschema, and the down
method of your migration should revert thetransformations done by the up
method. In other words, the database schemashould be unchanged if you do an up
followed by a down
. For example, if youcreate a table in the up
method, you should drop it in the down
method. Itis wise to perform the transformations in precisely the reverse order they weremade in the up
method. The example in the reversible
section is equivalent to:
If your migration is irreversible, you should raiseActiveRecord::IrreversibleMigration
from your down
method. If someone triesto revert your migration, an error message will be displayed saying that itcan't be done.
You can use Active Record's ability to rollback migrations using the revert
method:
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 itis later decided it would be best to use Active Record validations,in place of the CHECK
constraint, to verify the zipcode.
The same migration could also have been written without using revert
but this would have involved a few more steps: reversing the orderof 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
.
If you want to add check constraints like in the examples above,you will have to use structure.sql
as dump method. SeeSchema Dumping and You.
Rails provides a set of rails commands to run certain sets of migrations.
The very first migration related rails command you will use will probably bebin/rails 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 areno such migrations, it exits. It will run these migrations in order basedon the date of the migration.
Note that running the db:migrate
command also invokes the db:schema:dump
command, whichwill 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 versionis the numerical prefix on the migration's filename. For example, to migrateto version 20080906120000 run:
If version 20080906120000 is greater than the current version (i.e., it ismigrating upwards), this will run the change
(or up
) methodon all migrations up to andincluding 20080906120000, and will not execute any later migrations. Ifmigrating downwards, this will run the down
method on all the migrationsdown to, but not including, 20080906120000.
A common task is to rollback the last migration. For example, if you made amistake in it and wish to correct it. Rather than tracking down the versionnumber associated with the previous migration you can run:
This will rollback the latest migration, either by reverting the change
method or by running the down
method. If you need to undoseveral migrations you can provide a STEP
parameter:
will revert the last 3 migrations.
The db:migrate:redo
command is a shortcut for doing a rollback and then migratingback up again. As with the db:rollback
command, you can use the STEP
parameterif you need to go more than one version back, for example:
Neither of these rails commands do anything you could not do with db:migrate
. Theyare there for convenience, since you do not need to explicitly specify theversion to migrate to.
The bin/rails db:setup
command will create the database, load the schema, and initializeit with the seed data.
The bin/rails db:reset
command will drop the database and set it up again. This isfunctionally equivalent to bin/rails db:drop db:setup
.
This is not the same as running all the migrations. It will only use thecontents of the current db/schema.rb
or db/structure.sql
file. If a migration can't be rolled back,bin/rails db:reset
may not help you. To find out more about dumping the schema seeSchema Dumping and You section.
If you need to run a specific migration up or down, the db:migrate:up
anddb:migrate:down
commands will do that. Just specify the appropriate version andthe corresponding migration will have its change
, up
or down
methodinvoked, for example:
will run the 20080906120000 migration by running the change
method (or theup
method). This command willfirst check whether the migration is already performed and will do nothing ifActive Record believes that it has already been run.
By default running bin/rails db:migrate
will run in the development
environment.To run migrations against another environment you can specify it using theRAILS_ENV
environment variable while running the command. For example to runmigrations against the test
environment you could run:
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
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:
generates the following output
If you want Active Record to not output anything, then running bin/rails db:migrateVERBOSE=false
will suppress all output.
Occasionally you will make a mistake when writing a migration. If you havealready run the migration, then you cannot just edit the migration and run themigration again: Rails thinks it has already run the migration and so will donothing when you run bin/rails db:migrate
. You must rollback the migration (forexample with bin/rails db:rollback
), edit your migration, and then runbin/rails db:migrate
to run the corrected version.
In general, editing existing migrations is not a good idea. You will becreating extra work for yourself and your co-workers and cause major headachesif the existing version of the migration has already been run on productionmachines. Instead, you should write a new migration that performs the changesyou require. Editing a freshly generated migration that has not yet beencommitted to source control (or, more generally, which has not been propagatedbeyond your development machine) is relatively harmless.
The revert
method can be helpful when writing a new migration to undoprevious migrations in whole or in part(see Reverting Previous Migrations above).
Migrations, mighty as they may be, are not the authoritative source for yourdatabase schema. Your database remains the authoritative source. By default,Rails generates db/schema.rb
which attempts to capture the current state ofyour database schema.
It tends to be faster and less error prone to create a new instance of yourapplication's database by loading the schema file via bin/rails db:schema:load
than it is to replay the entire migration history.Old migrations may fail to apply correctly if thosemigrations use changing external dependencies or rely on application code whichevolves separately from your migrations.
Schema files are also useful if you want a quick look at what attributes anActive Record object has. This information is not in the model's code and isfrequently spread across several migrations, but the information is nicelysummed up in the schema file.
The format of the schema dump generated by Rails is controlled by theconfig.active_record.schema_format
setting in config/application.rb
. Bydefault, the format is :ruby
, but can also be set to :sql
.
If :ruby
is selected, then the schema is stored in db/schema.rb
. If you lookat this file you'll find that it looks an awful lot like one very big migration:
In many ways this is exactly what it is. This file is created by inspecting thedatabase and expressing its structure using create_table
, add_index
, and soon.
db/schema.rb
cannot express everything your database may support such astriggers, sequences, stored procedures, check constraints, etc. While migrationsmay use execute
to create database constructs that are not supported by theRuby migration DSL, these constructs may not be able to be reconstituted by theschema dumper. If you are using features like these, you should set the schemaformat to :sql
in order to get an accurate schema file that is useful tocreate new database instances.
When the schema format is set to :sql
, the database structure will be dumpedusing a tool specific to the database into db/structure.sql
. For example, forPostgreSQL, the pg_dump
utility is used. For MySQL and MariaDB, this file willcontain the output of SHOW CREATE TABLE
for the various tables.
To load the schema from db/structure.sql
, run bin/rails db:structure:load
.Loading this file is done by executing the SQL statements it contains. Bydefinition, this will create a perfect copy of the database's structure.
Because schema files are commonly used to create new databases, it is stronglyrecommended that you check your schema file into source control.
Merge conflicts can occur in your schema file when two branches modify schema.To resolve these conflicts run bin/rails db:migrate
to regenerate the schema file.
The Active Record way claims that intelligence belongs in your models, not inthe database. As such, features such as triggers or constraints,which push some of that intelligence back into the database, are not heavilyused.
Validations such as validates :foreign_key, uniqueness: true
are one way inwhich models can enforce data integrity. The :dependent
option onassociations allows models to automatically destroy child objects when theparent is destroyed. Like anything which operates at the application level,these cannot guarantee referential integrity and so some people augment themwith foreign key constraints in the database.
Although Active Record does not provide all the tools for working directly withsuch features, the execute
method can be used to execute arbitrary SQL.
The main purpose of Rails' migration feature is to issue commands that modify theschema using a consistent process. Migrations can also be usedto add or modify data. This is useful in an existing database that can't be destroyedand recreated, such as a production database.
To add initial data after a database is created, Rails has a built-in'seeds' feature that speeds up the process. This is especiallyuseful when reloading the database frequently in development and test environments.To get started with this feature, fill up db/seeds.rb
with someRuby code, and run bin/rails db:seed
:
This is generally a much cleaner way to set up the database of a blankapplication.
The db/schema.rb
or db/structure.sql
is a snapshot of the current state of yourdatabase and is the authoritative source for rebuilding that database. Thismakes it possible to delete old migration files.
When you delete migration files in the db/migrate/
directory, any environmentwhere bin/rails db:migrate
was run when those files still existed will hold a referenceto the migration timestamp specific to them inside an internal Rails databasetable named schema_migrations
. This table is used to keep track of whethermigrations have been executed in a specific environment.
If you run the bin/rails db:migrate:status
command, which displays the status(up or down) of each migration, you should see ********** NO FILE **********
displayed next to any deleted migration file which was once executed on aspecific environment but can no longer be found in the db/migrate/
directory.
You're encouraged to help improve the quality of this guide.
Please contribute if you see any typos or factual errors. To get started, you can read our documentation contributions section.
You may also find incomplete content or stuff that is not up to date. Please do add any missing documentation for master. Make sure to check Edge Guides first to verify if the issues are already fixed or not on the master branch. Check the Ruby on Rails Guides Guidelines for style and conventions.
If for whatever reason you spot something to fix but cannot patch it yourself, please open an issue.
And last but not least, any kind of discussion regarding Ruby on Rails documentation is very welcome on the rubyonrails-docs mailing list.