In order to use the PostgreSQL adapter you need to have at least version 9.3 installed. Older versions are not supported.
To get started with PostgreSQL have a look at the configuring Rails guide. It describes how to properly setup Active Record for PostgreSQL.
1 Datatypes
PostgreSQL offers a number of specific datatypes. Following is a list of types, that are supported by the PostgreSQL adapter.
1.1 Bytea
# db/migrate/20140207133952_create_documents.rb create_table :documents do |t| t.binary 'payload' end # app/models/document.rb class Document < ApplicationRecord end # Usage data = File.read(Rails.root + "tmp/output.pdf") Document.create payload: data
1.2 Array
# db/migrate/20140207133952_create_books.rb create_table :books do |t| t.string 'title' t.string 'tags', array: true t.integer 'ratings', array: true end add_index :books, :tags, using: 'gin' add_index :books, :ratings, using: 'gin' # app/models/book.rb class Book < ApplicationRecord end # Usage Book.create title: "Brave New World", tags: ["fantasy", "fiction"], ratings: [4, 5] ## Books for a single tag Book.where("'fantasy' = ANY (tags)") ## Books for multiple tags Book.where("tags @> ARRAY[?]::varchar[]", ["fantasy", "fiction"]) ## Books with 3 or more ratings Book.where("array_length(ratings, 1) >= 3")
1.3 Hstore
You need to enable the hstore
extension to use hstore.
# db/migrate/20131009135255_create_profiles.rb ActiveRecord::Schema.define do enable_extension 'hstore' unless extension_enabled?('hstore') create_table :profiles do |t| t.hstore 'settings' end end # app/models/profile.rb class Profile < ApplicationRecord end # Usage Profile.create(settings: { "color" => "blue", "resolution" => "800x600" }) profile = Profile.first profile.settings # => {"color"=>"blue", "resolution"=>"800x600"} profile.settings = {"color" => "yellow", "resolution" => "1280x1024"} profile.save! Profile.where("settings->'color' = ?", "yellow") # => #<ActiveRecord::Relation [#<Profile id: 1, settings: {"color"=>"yellow", "resolution"=>"1280x1024"}>]>
1.4 JSON and JSONB
# db/migrate/20131220144913_create_events.rb # ... for json datatype: create_table :events do |t| t.json 'payload' end # ... or for jsonb datatype: create_table :events do |t| t.jsonb 'payload' end # app/models/event.rb class Event < ApplicationRecord end # Usage Event.create(payload: { kind: "user_renamed", change: ["jack", "john"]}) event = Event.first event.payload # => {"kind"=>"user_renamed", "change"=>["jack", "john"]} ## Query based on JSON document # The -> operator returns the original JSON type (which might be an object), whereas ->> returns text Event.where("payload->>'kind' = ?", "user_renamed")
1.5 Range Types
This type is mapped to Ruby Range
objects.
# db/migrate/20130923065404_create_events.rb create_table :events do |t| t.daterange 'duration' end # app/models/event.rb class Event < ApplicationRecord end # Usage Event.create(duration: Date.new(2014, 2, 11)..Date.new(2014, 2, 12)) event = Event.first event.duration # => Tue, 11 Feb 2014...Thu, 13 Feb 2014 ## All Events on a given date Event.where("duration @> ?::date", Date.new(2014, 2, 12)) ## Working with range bounds event = Event. select("lower(duration) AS starts_at"). select("upper(duration) AS ends_at").first event.starts_at # => Tue, 11 Feb 2014 event.ends_at # => Thu, 13 Feb 2014
1.6 Composite Types
Currently there is no special support for composite types. They are mapped to normal text columns:
CREATE TYPE full_address AS ( city VARCHAR(90), street VARCHAR(90) );
# db/migrate/20140207133952_create_contacts.rb execute <<-SQL CREATE TYPE full_address AS ( city VARCHAR(90), street VARCHAR(90) ); SQL create_table :contacts do |t| t.column :address, :full_address end # app/models/contact.rb class Contact < ApplicationRecord end # Usage Contact.create address: "(Paris,Champs-Élysées)" contact = Contact.first contact.address # => "(Paris,Champs-Élysées)" contact.address = "(Paris,Rue Basse)" contact.save!
1.7 Enumerated Types
Currently there is no special support for enumerated types. They are mapped as normal text columns:
# db/migrate/20131220144913_create_articles.rb def up execute <<-SQL CREATE TYPE article_status AS ENUM ('draft', 'published'); SQL create_table :articles do |t| t.column :status, :article_status end end # NOTE: It's important to drop table before dropping enum. def down drop_table :articles execute <<-SQL DROP TYPE article_status; SQL end # app/models/article.rb class Article < ApplicationRecord end # Usage Article.create status: "draft" article = Article.first article.status # => "draft" article.status = "published" article.save!
To add a new value before/after existing one you should use ALTER TYPE:
# db/migrate/20150720144913_add_new_state_to_articles.rb # NOTE: ALTER TYPE ... ADD VALUE cannot be executed inside of a transaction block so here we are using disable_ddl_transaction! disable_ddl_transaction! def up execute <<-SQL ALTER TYPE article_status ADD VALUE IF NOT EXISTS 'archived' AFTER 'published'; SQL end
ENUM values can't be dropped currently. You can read why here.
Hint: to show all the values of the all enums you have, you should call this query in rails db
or psql
console:
SELECT n.nspname AS enum_schema, t.typname AS enum_name, e.enumlabel AS enum_value FROM pg_type t JOIN pg_enum e ON t.oid = e.enumtypid JOIN pg_catalog.pg_namespace n ON n.oid = t.typnamespace
1.8 UUID
You need to enable the pgcrypto
(only PostgreSQL >= 9.4) or uuid-ossp
extension to use uuid.
# db/migrate/20131220144913_create_revisions.rb create_table :revisions do |t| t.uuid :identifier end # app/models/revision.rb class Revision < ApplicationRecord end # Usage Revision.create identifier: "A0EEBC99-9C0B-4EF8-BB6D-6BB9BD380A11" revision = Revision.first revision.identifier # => "a0eebc99-9c0b-4ef8-bb6d-6bb9bd380a11"
You can use uuid
type to define references in migrations:
# db/migrate/20150418012400_create_blog.rb enable_extension 'pgcrypto' unless extension_enabled?('pgcrypto') create_table :posts, id: :uuid, default: 'gen_random_uuid()' create_table :comments, id: :uuid, default: 'gen_random_uuid()' do |t| # t.belongs_to :post, type: :uuid t.references :post, type: :uuid end # app/models/post.rb class Post < ApplicationRecord has_many :comments end # app/models/comment.rb class Comment < ApplicationRecord belongs_to :post end
See this section for more details on using UUIDs as primary key.
1.9 Bit String Types
# db/migrate/20131220144913_create_users.rb create_table :users, force: true do |t| t.column :settings, "bit(8)" end # app/models/user.rb class User < ApplicationRecord end # Usage User.create settings: "01010011" user = User.first user.settings # => "01010011" user.settings = "0xAF" user.settings # => 10101111 user.save!
1.10 Network Address Types
The types inet
and cidr
are mapped to Ruby
IPAddr
objects. The macaddr
type is mapped to normal text.
# db/migrate/20140508144913_create_devices.rb create_table(:devices, force: true) do |t| t.inet 'ip' t.cidr 'network' t.macaddr 'address' end # app/models/device.rb class Device < ApplicationRecord end # Usage macbook = Device.create(ip: "192.168.1.12", network: "192.168.2.0/24", address: "32:01:16:6d:05:ef") macbook.ip # => #<IPAddr: IPv4:192.168.1.12/255.255.255.255> macbook.network # => #<IPAddr: IPv4:192.168.2.0/255.255.255.0> macbook.address # => "32:01:16:6d:05:ef"
1.11 Geometric Types
All geometric types, with the exception of points
are mapped to normal text.
A point is casted to an array containing x
and y
coordinates.
2 UUID Primary Keys
You need to enable the pgcrypto
(only PostgreSQL >= 9.4) or uuid-ossp
extension to generate random UUIDs.
# db/migrate/20131220144913_create_devices.rb enable_extension 'pgcrypto' unless extension_enabled?('pgcrypto') create_table :devices, id: :uuid, default: 'gen_random_uuid()' do |t| t.string :kind end # app/models/device.rb class Device < ApplicationRecord end # Usage device = Device.create device.id # => "814865cd-5a1d-4771-9306-4268f188fe9e"
gen_random_uuid()
(from pgcrypto
) is assumed if no :default
option was
passed to create_table
.
3 Full Text Search
# db/migrate/20131220144913_create_documents.rb create_table :documents do |t| t.string 'title' t.string 'body' end add_index :documents, "to_tsvector('english', title || ' ' || body)", using: :gin, name: 'documents_idx' # app/models/document.rb class Document < ApplicationRecord end # Usage Document.create(title: "Cats and Dogs", body: "are nice!") ## all documents matching 'cat & dog' Document.where("to_tsvector('english', title || ' ' || body) @@ to_tsquery(?)", "cat & dog")
4 Database Views
Imagine you need to work with a legacy database containing the following table:
rails_pg_guide=# \d "TBL_ART" Table "public.TBL_ART" Column | Type | Modifiers ------------+-----------------------------+------------------------------------------------------------ INT_ID | integer | not null default nextval('"TBL_ART_INT_ID_seq"'::regclass) STR_TITLE | character varying | STR_STAT | character varying | default 'draft'::character varying DT_PUBL_AT | timestamp without time zone | BL_ARCH | boolean | default false Indexes: "TBL_ART_pkey" PRIMARY KEY, btree ("INT_ID")
This table does not follow the Rails conventions at all. Because simple PostgreSQL views are updateable by default, we can wrap it as follows:
# db/migrate/20131220144913_create_articles_view.rb execute <<-SQL CREATE VIEW articles AS SELECT "INT_ID" AS id, "STR_TITLE" AS title, "STR_STAT" AS status, "DT_PUBL_AT" AS published_at, "BL_ARCH" AS archived FROM "TBL_ART" WHERE "BL_ARCH" = 'f' SQL # app/models/article.rb class Article < ApplicationRecord self.primary_key = "id" def archive! update_attribute :archived, true end end # Usage first = Article.create! title: "Winter is coming", status: "published", published_at: 1.year.ago second = Article.create! title: "Brace yourself", status: "draft", published_at: 1.month.ago Article.count # => 2 first.archive! Article.count # => 1
This application only cares about non-archived Articles
. A view also
allows for conditions so we can exclude the archived Articles
directly.
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