Sequel: The Database Toolkit for Ruby
Sequel is a simple, flexible, and powerful SQL database access toolkit for Ruby.
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Sequel provides thread safety, connection pooling and a concise DSL for constructing SQL queries and table schemas.
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Sequel includes a comprehensive ORM layer for mapping records to Ruby objects and handling associated records.
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Sequel supports advanced database features such as prepared statements, bound variables, stored procedures, savepoints, two-phase commit, transaction isolation, master/slave configurations, and database sharding.
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Sequel currently has adapters for ADO, Amalgalite, DataObjects, DB2, DBI, Firebird, Informix, JDBC, MySQL, Mysql2, ODBC, OpenBase, Oracle, PostgreSQL, SQLite3, Swift, and TinyTDS.
Resources
To check out the source code:
git clone git://github.com/jeremyevans/sequel.git
Contact
If you have any comments or suggestions please post to the Google group.
Installation
sudo gem install sequel
A Short Example
require 'rubygems'
require 'sequel'
DB = Sequel.sqlite # memory database
DB.create_table :items do
primary_key :id
String :name
Float :price
end
items = DB[:items] # Create a dataset
# Populate the table
items.insert(:name => 'abc', :price => rand * 100)
items.insert(:name => 'def', :price => rand * 100)
items.insert(:name => 'ghi', :price => rand * 100)
# Print out the number of records
puts "Item count: #{items.count}"
# Print out the average price
puts "The average price is: #{items.avg(:price)}"
The Sequel Console
Sequel includes an IRB console for quick access to databases. You can use it like this:
sequel sqlite://test.db # test.db in current directory
You get an IRB session with the database object stored in DB.
An Introduction
Sequel is designed to take the hassle away from connecting to databases and manipulating them. Sequel deals with all the boring stuff like maintaining connections, formatting SQL correctly and fetching records so you can concentrate on your application.
Sequel uses the concept of datasets to retrieve data. A Dataset object encapsulates an SQL query and supports chainability, letting you fetch data using a convenient Ruby DSL that is both concise and flexible.
For example, the following one-liner returns the average GDP for countries in the middle east region:
DB[:countries].filter(:region => 'Middle East').avg(:GDP)
Which is equivalent to:
SELECT avg(GDP) FROM countries WHERE region = 'Middle East'
Since datasets retrieve records only when needed, they can be stored and later reused. Records are fetched as hashes (or custom model objects), and are accessed using an Enumerable
interface:
middle_east = DB[:countries].filter(:region => 'Middle East')
middle_east.order(:name).each{|r| puts r[:name]}
Sequel also offers convenience methods for extracting data from Datasets, such as an extended map
method:
middle_east.map(:name) #=> ['Egypt', 'Greece', 'Israel', ...]
Or getting results as a hash via to_hash
, with one column as key and another as value:
middle_east.to_hash(:name, :area) #=> {'Israel' => 20000, 'Greece' => 120000, ...}
Getting Started
Connecting to a database
To connect to a database you simply provide Sequel.connect
with a URL:
require 'sequel'
DB = Sequel.connect('sqlite://blog.db')
The connection URL can also include such stuff as the user name, password, and port:
DB = Sequel.connect('postgres://user:password@host:port/database_name')
You can also specify optional parameters, such as the connection pool size, or loggers for logging SQL queries:
DB = Sequel.connect("postgres://user:password@host:port/database_name",
:max_connections => 10, :logger => Logger.new('log/db.log'))
You can specify a block to connect, which will disconnect from the database after it completes:
Sequel.connect('postgres://user:password@host:port/database_name'){|db| db[:posts].delete}
Arbitrary SQL queries
You can execute arbitrary SQL code using Database#run
:
DB.run("create table t (a text, b text)")
DB.run("insert into t values ('a', 'b')")
You can also create datasets based on raw SQL:
dataset = DB['select id from items']
dataset.count # will return the number of records in the result set
dataset.map(:id) # will return an array containing all values of the id column in the result set
You can also fetch records with raw SQL through the dataset:
DB['select * from items'].each do |row|
p row
end
You can use placeholders in your SQL string as well:
name = 'Jim'
DB['select * from items where name = ?', name].each do |row|
p row
end
Getting Dataset Instances
Datasets are the primary way records are retrieved and manipulated. They are generally created via the Database#from
or Database#[]
methods:
posts = DB.from(:posts)
posts = DB[:posts] # same
Datasets will only fetch records when you tell them to. They can be manipulated to filter records, change ordering, join tables, etc..
Retrieving Records
You can retrieve all records by using the all
method:
posts.all
# SELECT * FROM posts
The all method returns an array of hashes, where each hash corresponds to a record.
You can also iterate through records one at a time using each
:
posts.each{|row| p row}
Or perform more advanced stuff:
names_and_dates = posts.map{|r| [r[:name], r[:date]]}
old_posts, recent_posts = posts.partition{|r| r[:date] < Date.today - 7}
You can also retrieve the first record in a dataset:
posts.first
# SELECT * FROM posts LIMIT 1
Or retrieve a single record with a specific value:
posts[:id => 1]
# SELECT * FROM posts WHERE id = 1 LIMIT 1
If the dataset is ordered, you can also ask for the last record:
posts.order(:stamp).last
# SELECT * FROM posts ORDER BY stamp DESC LIMIT 1
Filtering Records
An easy way to filter records is to provide a hash of values to match to filter
:
my_posts = posts.filter(:category => 'ruby', :author => 'david')
# WHERE category = 'ruby' AND author = 'david'
You can also specify ranges:
my_posts = posts.filter(:stamp => (Date.today - 14)..(Date.today - 7))
# WHERE stamp >= '2010-06-30' AND stamp <= '2010-07-07'
Or arrays of values:
my_posts = posts.filter(:category => ['ruby', 'postgres', 'linux'])
# WHERE category IN ('ruby', 'postgres', 'linux')
Sequel also accepts expressions:
my_posts = posts.filter{stamp > Date.today << 1}
# WHERE stamp > '2010-06-14'
Some adapters will also let you specify Regexps:
my_posts = posts.filter(:category => /ruby/i)
# WHERE category ~* 'ruby'
You can also use an inverse filter via exclude
:
my_posts = posts.exclude(:category => ['ruby', 'postgres', 'linux'])
# WHERE category NOT IN ('ruby', 'postgres', 'linux')
You can also specify a custom WHERE clause using a string:
posts.filter('stamp IS NOT NULL')
# WHERE stamp IS NOT NULL
You can use parameters in your string, as well:
= 'JKR'
posts.filter('(stamp < ?) AND (author != ?)', Date.today - 3, )
# WHERE (stamp < '2010-07-11') AND (author != 'JKR')
posts.filter{(stamp < Date.today - 3) & ~{:author => }} # same as above
Datasets can also be used as subqueries:
DB[:items].filter('price > ?', DB[:items].select{avg(price) + 100})
# WHERE price > (SELECT avg(price) + 100 FROM items)
After filtering you can retrieve the matching records by using any of the retrieval methods:
my_posts.each{|row| p row}
See the doc/dataset_filtering.rdoc file for more details.
Summarizing Records
Counting records is easy using count
:
posts.filter(:category.like('%ruby%')).count
# SELECT COUNT(*) FROM posts WHERE category LIKE '%ruby%'
And you can also query maximum/minimum values via max
and min
:
max = DB[:history].max(:value)
# SELECT max(value) FROM history
min = DB[:history].min(:value)
# SELECT min(value) FROM history
Or calculate a sum or average via sum
and avg
:
sum = DB[:items].sum(:price)
# SELECT sum(price) FROM items
avg = DB[:items].avg(:price)
# SELECT avg(price) FROM items
Ordering Records
Ordering datasets is simple using order
:
posts.order(:stamp)
# ORDER BY stamp
posts.order(:stamp, :name)
# ORDER BY stamp, name
Chaining order
doesn’t work the same as filter
:
posts.order(:stamp).order(:name)
# ORDER BY name
The order_append
method chains this way, though:
posts.order(:stamp).order_append(:name)
# ORDER BY stamp, name
You can also specify descending order:
posts.order(:stamp.desc)
# ORDER BY stamp DESC
Selecting Columns
Selecting specific columns to be returned is also simple using select
:
posts.select(:stamp)
# SELECT stamp FROM posts
posts.select(:stamp, :name)
# SELECT stamp, name FROM posts
Chaining select
works like order
, not filter
:
posts.select(:stamp).select(:name)
# SELECT name FROM posts
As you might expect, there is an order_append
equivalent for select
called select_append
:
posts.select(:stamp).select_append(:name)
# SELECT stamp, name FROM posts
Deleting Records
Deleting records from the table is done with delete
:
posts.filter('stamp < ?', Date.today - 3).delete
# DELETE FROM posts WHERE stamp < '2010-07-11'
Be very careful when deleting, as delete
affects all rows in the dataset. filter
first, delete
second, unless you want to empty the table:
# DO THIS:
posts.filter('stamp < ?', Date.today - 7).delete
# NOT THIS:
posts.delete.filter('stamp < ?', Date.today - 7)
Inserting Records
Inserting records into the table is done with insert
:
posts.insert(:category => 'ruby', :author => 'david')
# INSERT INTO posts (category, author) VALUES ('ruby', 'david')
Updating Records
Updating records in the table is done with update
:
posts.filter('stamp < ?', Date.today - 7).update(:state => 'archived')
# UPDATE posts SET state = 'archived' WHERE stamp < '2010-07-07'
You can reference table columns when choosing what values to set:
posts.filter{|o| o.stamp < Date.today - 7}.update(:backup_number => :backup_number + 1)
# UPDATE posts SET backup_number = backup_number + 1 WHERE stamp < '2010-07-07'
As with delete
, update
affects all rows in the dataset, so filter
first, update
second, unless you want to update all rows:
# DO THIS:
posts.filter('stamp < ?', Date.today - 7).update(:state => 'archived')
# NOT THIS:
posts.update(:state => 'archived').filter('stamp < ?', Date.today - 7)
Transactions
You can wrap some code in a database transaction using the Database#transaction
method:
DB.transaction do
posts.insert(:category => 'ruby', :author => 'david')
posts.filter('stamp < ?', Date.today - 7).update(:state => 'archived')
end
If the block does not raise an exception, the transaction will be committed. If the block does raise an exception, the transaction will be rolled back, and the exception will be reraised. If you want to rollback the transaction and not raise an exception outside the block, you can raise the Sequel::Rollback
exception inside the block:
DB.transaction do
posts.insert(:category => 'ruby', :author => 'david')
if posts.filter('stamp < ?', Date.today - 7).update(:state => 'archived') == 0
raise Sequel::Rollback
end
end
Joining Tables
Sequel makes it easy to join tables:
order_items = DB[:items].join(:order_items, :item_id => :id).
filter(:order_items__order_id => 1234)
# SELECT * FROM items INNER JOIN order_items
# ON order_items.item_id = items.id
# WHERE order_items.order_id = 1234
You can then do anything you like with the dataset:
order_total = order_items.sum(:price)
# SELECT sum(price) FROM items INNER JOIN order_items
# ON order_items.item_id = items.id
# WHERE order_items.order_id = 1234
Graphing Datasets
When retrieving records from joined datasets, you get the results in a single hash, which is subject to clobbering if you have columns with the same name in multiple tables:
DB[:items].join(:order_items, :item_id => :id).first
=> {:id=>order_items.id, :item_id=>order_items.item_id}
Using graph
, you can split the result hashes into subhashes, one per join:
DB[:items].graph(:order_items, :item_id => :id).first
=> {:items=>{:id=>items.id}, :order_items=>{:id=>order_items.id, :item_id=>order_items.item_id}}
Column references in Sequel
Sequel expects column names to be specified using symbols. In addition, returned hashes always use symbols as their keys. This allows you to freely mix literal values and column references in many cases. For example, the two following lines produce equivalent SQL:
items.filter(:x => 1)
# SELECT * FROM items WHERE (x = 1)
items.filter(1 => :x)
# SELECT * FROM items WHERE (1 = x)"
Ruby strings are generally treated as SQL strings:
items.filter(:x => 'x')
# SELECT * FROM items WHERE (x = 'x')
Qualifying column names
Column references can be qualified by using the double underscore special notation :table__column
:
items.literal(:items__price)
# items.price
Another way to qualify columns is to use the qualify
method:
items.literal(:price.qualify(:items))
# items.price
Column aliases
You can also alias columns by using the triple undersecore special notation :column___alias
or :table__column___alias
:
items.literal(:price___p)
# price AS p
items.literal(:items__price___p)
# items.price AS p
Another way to alias columns is to use the as
method:
items.literal(:price.as(:p))
# price AS p
Sequel Models
A model class wraps a dataset, and an instance of that class wraps a single record in the dataset.
Model classes are defined as regular Ruby classes inheriting from Sequel::Model
:
DB = Sequel.connect('sqlite://blog.db')
class Post < Sequel::Model
end
Sequel model classes assume that the table name is an underscored plural of the class name:
Post.table_name #=> :posts
You can explicitly set the table name or even the dataset used:
class Post < Sequel::Model(:my_posts)
end
# or:
Post.set_dataset :my_posts
If you call set_dataset
with a symbol, it assumes you are referring to the table with the same name. You can also call it with a dataset, which will set the defaults for all retrievals for that model:
Post.set_dataset DB[:my_posts].filter(:category => 'ruby')
Post.set_dataset DB[:my_posts].select(:id, :name).order(:date)
Model instances
Model instances are identified by a primary key. In most cases, Sequel can query the database to determine the primary key, but if not, it defaults to using :id
. The Model.[]
method can be used to fetch records by their primary key:
post = Post[123]
The pk
method is used to retrieve the record’s primary key value:
post.pk #=> 123
Sequel models allow you to use any column as a primary key, and even composite keys made from multiple columns:
class Post < Sequel::Model
set_primary_key [:category, :title]
end
post = Post['ruby', 'hello world']
post.pk #=> ['ruby', 'hello world']
You can also define a model class that does not have a primary key via no_primary_key
, but then you lose the ability to easily update and delete records:
Post.no_primary_key
A single model instance can also be fetched by specifying a condition:
post = Post[:title => 'hello world']
post = Post.first{num_comments < 10}
Iterating over records
A model class lets you iterate over subsets of records by proxying many methods to the underlying dataset. This means that you can use most of the Dataset
API to create customized queries that return model instances, e.g.:
Post.filter(:category => 'ruby').each{|post| p post}
You can also manipulate the records in the dataset:
Post.filter{num_comments < 7}.delete
Post.filter(:title.like(/ruby/)).update(:category => 'ruby')
Accessing record values
A model instance stores its values as a hash with column symbol keys, which you can access directly via the values
method:
post.values #=> {:id => 123, :category => 'ruby', :title => 'hello world'}
You can read the record values as object attributes, assuming the attribute names are valid columns in the model’s dataset:
post.id #=> 123
post.title #=> 'hello world'
If the record’s attributes names are not valid columns in the model’s dataset (maybe because you used select_append
to add a computed value column), you can use Model#[]
to access the values:
post[:id] #=> 123
post[:title] #=> 'hello world'
You can also modify record values using attribute setters or the set
method:
post.title = 'hey there'
# or
post.set(:title=>'hey there')
That will just change the value for the object, it will not update the row in the database. To update the database row, call the save
method:
post.save
You can modify record values and save the changes to the object in a single method call using the update
method:
post.update(:title => 'hey there')
Creating new records
New records can be created by calling Model.create
:
post = Post.create(:title => 'hello world')
Another way is to construct a new instance and save it later:
post = Post.new
post.title = 'hello world'
post.save
You can also supply a block to Model.new
and Model.create
:
post = Post.new do |p|
p.title = 'hello world'
end
post = Post.create{|p| p.title = 'hello world'}
Hooks
You can execute custom code when creating, updating, or deleting records by defining hook methods. The before_create
and after_create
hook methods wrap record creation. The before_update
and after_update
hook methods wrap record updating. The before_save
and after_save
hook methods wrap record creation and updating. The before_destroy
and after_destroy
hook methods wrap destruction. The before_validation
and after_validation
hook methods wrap validation. Example:
class Post < Sequel::Model
def after_create
super
.increase_post_count
end
def after_destroy
super
.decrease_post_count
end
end
Note the use of super
if you define your own hook methods. Almost all Sequel::Model
class and instance methods (not just hook methods) can be overridden safely, but you have to make sure to call super
when doing so, otherwise you risk breaking things.
For the example above, you should probably use a database trigger if you can. Hooks can be used for data integrity, but they will only enforce that integrity when you are modifying the database through model instances. If you plan on allowing any other access to the database, it’s best to use database triggers for data integrity.
Deleting records
You can delete individual records by calling delete
or destroy
. The only difference between the two methods is that destroy
invokes before_destroy
and after_destroy
hook methods, while delete
does not:
post.delete # => bypasses hooks
post.destroy # => runs hooks
Records can also be deleted en-masse by calling Model.delete
and Model.destroy
. As stated above, you can specify filters for the deleted records:
Post.filter(:category => 32).delete # => bypasses hooks
Post.filter(:category => 32).destroy # => runs hooks
Please note that if Model.destroy
is called, each record is deleted separately, but Model.delete
deletes all matching records with a single SQL query.
Associations
Associations are used in order to specify relationships between model classes that reflect relationships between tables in the database, which are usually specified using foreign keys. You specify model associations via the many_to_one
, one_to_one
, one_to_many
, and many_to_many
class methods:
class Post < Sequel::Model
many_to_one :author
one_to_many :comments
many_to_many :tags
end
many_to_one
and one_to_one
create a getter and setter for each model object:
post = Post.create(:name => 'hi!')
post. = Author[:name => 'Sharon']
post.
one_to_many
and many_to_many
create a getter method, a method for adding an object to the association, a method for removing an object from the association, and a method for removing all associated objects from the association:
post = Post.create(:name => 'hi!')
post.comments
comment = Comment.create(:text=>'hi')
post.add_comment(comment)
post.remove_comment(comment)
post.remove_all_comments
tag = Tag.create(:tag=>'interesting')
post.add_tag(tag)
post.remove_tag(tag)
post.
Note that the remove_* and remove_all_* methods do not delete the object from the database, they merely disassociate the associated object from the receiver.
All associations add a dataset method that can be used to further filter or reorder the returned objects, or modify all of them:
# Delete all of this post's comments from the database
post.comments_dataset.destroy
# Return all tags related to this post with no subscribers, ordered by the tag's name
post..filter(:subscribers=>0).order(:name).all
Eager Loading
Associations can be eagerly loaded via eager
and the :eager
association option. Eager loading is used when loading a group of objects. It loads all associated objects for all of the current objects in one query, instead of using a separate query to get the associated objects for each current object. Eager loading requires that you retrieve all model objects at once via all
(instead of individually by each
). Eager loading can be cascaded, loading association’s associated objects.
class Person < Sequel::Model
one_to_many :posts, :eager=>[:tags]
end
class Post < Sequel::Model
many_to_one :person
one_to_many :replies
many_to_many :tags
end
class Tag < Sequel::Model
many_to_many :posts
many_to_many :replies
end
class Reply < Sequel::Model
many_to_one :person
many_to_one :post
many_to_many :tags
end
# Eager loading via .eager
Post.eager(:person).all
# eager is a dataset method, so it works with filters/orders/limits/etc.
Post.filter{topic > 'M'}.order(:date).limit(5).eager(:person).all
person = Person.first
# Eager loading via :eager (will eagerly load the tags for this person's posts)
person.posts
# These are equivalent
Post.eager(:person, :tags).all
Post.eager(:person).eager(:tags).all
# Cascading via .eager
Tag.eager(:posts=>:replies).all
# Will also grab all associated posts' tags (because of :eager)
Reply.eager(:person=>:posts).all
# No depth limit (other than memory/stack), and will also grab posts' tags
# Loads all people, their posts, their posts' tags, replies to those posts,
# the person for each reply, the tag for each reply, and all posts and
# replies that have that tag. Uses a total of 8 queries.
Person.eager(:posts=>{:replies=>[:person, {:tags=>{:posts, :replies}}]}).all
In addition to using eager
, you can also use eager_graph
, which will use a single query to get the object and all associated objects. This may be necessary if you want to filter or order the result set based on columns in associated tables. It works with cascading as well, the syntax is exactly the same. Note that using eager_graph to eagerly load multiple *_to_many associations will cause the result set to be a cartesian product, so you should be very careful with your filters when using it in that case.
You can dynamically customize the eagerly loaded dataset by using using a proc. This proc is passed the dataset used for eager loading, and should return a modified copy of that dataset:
# Eagerly load only replies containing 'foo'
Post.eager(:replies=>proc{|ds| ds.filter(text.like('%foo%'))}).all
This also works when using eager_graph
, in which case the proc is called with dataset to graph into the current dataset:
Post.eager_graph(:replies=>proc{|ds| ds.filter(text.like('%foo%'))}).all
You can dynamically customize eager loads for both eager
and eager_graph
while also cascading, by making the value a single entry hash with the proc as a key, and the cascaded associations as the value:
# Eagerly load only replies containing 'foo', and the person and tags for those replies
Post.eager(:replies=>{proc{|ds| ds.filter(text.like('%foo%'))}=>[:person, :tags]}).all
Extending the underlying dataset
The obvious way to add table-wide logic is to define class methods to the model class definition. That way you can define subsets of the underlying dataset, change the ordering, or perform actions on multiple records:
class Post < Sequel::Model
def self.posts_with_few_comments
filter{num_comments < 30}
end
def self.clean_posts_with_few_comments
posts_with_few_comments.delete
end
end
You can also implement table-wide logic by defining methods on the dataset using def_dataset_method
:
class Post < Sequel::Model
def_dataset_method(:posts_with_few_comments) do
filter{num_comments < 30}
end
def_dataset_method(:clean_posts_with_few_comments) do
posts_with_few_comments.delete
end
end
This is the recommended way of implementing table-wide operations, and allows you to have access to your model API from filtered datasets as well:
Post.filter(:category => 'ruby').clean_posts_with_few_comments
Sequel models also provide a subset
class method that creates a dataset method with a simple filter:
class Post < Sequel::Model
subset(:posts_with_few_comments){num_comments < 30}
subset :invisible, ~:visible
end
Model Validations
You can define a validate
method for your model, which save
will check before attempting to save the model in the database. If an attribute of the model isn’t valid, you should add a error message for that attribute to the model object’s errors
. If an object has any errors added by the validate method, save
will raise an error or return false depending on how it is configured (the raise_on_save_failure
flag).
class Post < Sequel::Model
def validate
super
errors.add(:name, "can't be empty") if name.empty?
errors.add(:written_on, "should be in the past") if written_on >= Time.now
end
end