12 KiB
AASM - Ruby state machines
This package contains AASM, a library for adding finite state machines to Ruby classes.
AASM started as the acts_as_state_machine plugin but has evolved into a more generic library that no longer targets only ActiveRecord models. It currently provides adapters for ActiveRecord and Mongoid, but it can be used for any Ruby class, no matter what parent class it has (if any).
Usage
Adding a state machine is as simple as including the AASM module and start defining states and events together with their transitions:
class Job
include AASM
aasm do
state :sleeping, :initial => true
state :running
state :cleaning
event :run do
transitions :from => :sleeping, :to => :running
end
event :clean do
transitions :from => :running, :to => :cleaning
end
event :sleep do
transitions :from => [:running, :cleaning], :to => :sleeping
end
end
end
This provides you with a couple of public methods for instances of the class Job
:
job = Job.new
job.sleeping? # => true
job.may_run? # => true
job.run
job.running? # => true
job.sleeping? # => false
job.may_run? # => false
job.run # => raises AASM::InvalidTransition
If you don't like exceptions and prefer a simple true
or false
as response, tell
AASM not to be whiny:
class Job
...
aasm :whiny_transitions => false do
...
end
end
job.running? # => true
job.may_run? # => false
job.run # => false
When firing an event, you can pass a block to the method, it will be called only if the transition succeeds :
job.run do
job.user.notify_job_ran # Will be called if job.may_run? is true
end
Callbacks
You can define a number of callbacks for your transitions. These methods will be called, when certain criteria are met, like entering a particular state:
class Job
include AASM
aasm do
state :sleeping, :initial => true, :before_enter => :do_something
state :running
event :run, :after => Proc.new { do_afterwards } do
transitions :from => :sleeping, :to => :running, :on_transition => Proc.new {|obj, *args| obj.set_process(*args) }
end
event :sleep do
after do
...
end
error do |e|
...
end
transitions :from => :running, :to => :sleeping
end
end
def set_process(name)
...
end
def do_something
...
end
def do_afterwards
...
end
end
In this case do_something
is called before actually entering the state sleeping
,
while do_afterwards
is called after the transition run
(from sleeping
to running
)
is finished.
Here you can see a list of all possible callbacks, together with their order of calling:
event:before
previous_state:before_exit
new_state:before_enter
...update state...
previous_state:after_exit
new_state:after_enter
event:after
Also, you can pass parameters to events:
job = Job.new
job.run(:running, :defragmentation)
In this case the set_process
would be called with :defagmentation
argument.
In case of an error during the event processing the error is rescued and passed to :error
callback, which can handle it or re-raise it for further propagation.
During the :on_transition
callback (and reliably only then) you can access the
originating state (the from-state) and the target state (the to state), like this:
def set_process(name)
logger.info "from #{aasm.from_state} to #{aasm.to_state}"
end
Guards
Let's assume you want to allow particular transitions only if a defined condition is
given. For this you can set up a guard per transition, which will run before actually
running the transition. If the guard returns false
the transition will be
denied (raising AASM::InvalidTransition
or returning false
itself):
class Job
include AASM
aasm do
state :sleeping, :initial => true
state :running
state :cleaning
event :run do
transitions :from => :sleeping, :to => :running
end
event :clean do
transitions :from => :running, :to => :cleaning
end
event :sleep do
transitions :from => :running, :to => :sleeping, :guard => :cleaning_needed?
end
end
def cleaning_needed?
false
end
end
job = Job.new
job.run
job.may_sleep? # => false
job.sleep # => raises AASM::InvalidTransition
You can even provide a number of guards, which all have to succeed to proceed
def walked_the_dog?; ...; end
event :sleep do
transitions :from => :running, :to => :sleeping, :guards => [:cleaning_needed?, :walked_the_dog?]
end
If you want to provide guards for all transitions withing an event, you can use event guards
event :sleep, :guards => [:walked_the_dog?] do
transitions :from => :running, :to => :sleeping, :guards => [:cleaning_needed?]
transitions :from => :cleaning, :to => :sleeping
end
ActiveRecord
AASM comes with support for ActiveRecord and allows automatical persisting of the object's state in the database.
class Job < ActiveRecord::Base
include AASM
aasm do # default column: aasm_state
state :sleeping, :initial => true
state :running
event :run do
transitions :from => :sleeping, :to => :running
end
event :sleep do
transitions :from => :running, :to => :sleeping
end
end
end
You can tell AASM to auto-save the object or leave it unsaved
job = Job.new
job.run # not saved
job.run! # saved
Saving includes running all validations on the Job
class. If you want make sure
the state gets saved without running validations (and thereby maybe persisting an
invalid object state), simply tell AASM to skip the validations:
class Job < ActiveRecord::Base
include AASM
aasm :skip_validation_on_save => true do
state :sleeping, :initial => true
state :running
event :run do
transitions :from => :sleeping, :to => :running
end
event :sleep do
transitions :from => :running, :to => :sleeping
end
end
end
Mongoid
AASM also supports persistence to Mongodb if you're using Mongoid. Make sure to include Mongoid::Document before you include AASM.
class Job
include Mongoid::Document
include AASM
field :aasm_state
aasm do
...
end
end
Automatic Scopes
AASM will automatically create scope methods for each state in the model.
class Job < ActiveRecord::Base
include AASM
aasm do
state :sleeping, :initial => true
state :running
state :cleaning
end
def sleeping
"This method name is in already use"
end
end
class JobsController < ApplicationController
def index
@running_jobs = jobs.running
@recent_cleaning_jobs = jobs.cleaning.where('created_at >= ?', 3.days.ago)
# @sleeping_jobs = jobs.sleeping #=> "This method name is in already use"
end
end
If you don't need scopes (or simply don't want them), disable their creation when
defining the AASM
states, like this:
class Job < ActiveRecord::Base
include AASM
aasm :create_scopes => false do
state :sleeping, :initial => true
state :running
state :cleaning
end
end
Transaction support
Since version 3.0.13 AASM supports ActiveRecord transactions. So whenever a transition callback or the state update fails, all changes to any database record are rolled back. Mongodb does not support transactions.
If you want to make sure a depending action happens only after the transaction is committed,
use the after_commit
callback, like this:
class Job < ActiveRecord::Base
include AASM
aasm do
state :sleeping, :initial => true
state :running, :after_commit => :notify_about_running_job
event :run do
transitions :from => :sleeping, :to => :running
end
end
def notify_about_running_job
...
end
end
If you want to encapsulate state changes within an own transaction, the behavior
of this nested transaction might be confusing. Take a look at
ActiveRecord Nested Transactions
if you want to know more about this. Nevertheless, AASM by default requires a new transaction
transaction(:requires_new => true)
. You can override this behavior by changing
the configuration
class Job < ActiveRecord::Base
include AASM
aasm :requires_new_transaction => false do
...
end
...
end
which then leads to transaction(:requires_new => false)
, the Rails default.
Column name & migration
As a default AASM uses the column aasm_state
to store the states. You can override
this by defining your favorite column name, using :column
like this:
class Job < ActiveRecord::Base
include AASM
aasm :column => 'my_state' do
...
end
end
Whatever column name is used, make sure to add a migration to provide this column
(of type string
):
class AddJobState < ActiveRecord::Migration
def self.up
add_column :jobs, :aasm_state, :string
end
def self.down
remove_column :jobs, :aasm_state
end
end
Inspection
AASM supports a couple of methods to find out which states or events are provided or permissible.
Given the Job
class from above:
job = Job.new
job.aasm.states.map(&:name)
=> [:sleeping, :running, :cleaning]
job.aasm.states(:permissible => true).map(&:name)
=> [:running]
job.run
job.aasm.states(:permissible => true).map(&:name)
=> [:cleaning, :sleeping]
job.aasm.events
=> [:run, :clean, :sleep]
Installation
Manually from RubyGems.org
% gem install aasm
Or if you are using Bundler
# Gemfile
gem 'aasm'
Building your own gems
% rake build
% sudo gem install pkg/aasm-x.y.z.gem
Latest changes
Take a look at the CHANGELOG for details about recent changes to the current version.
Questions?
Feel free to
- create an issue on GitHub
- ask a question on StackOverflow (tag with
aasm
) - send us a tweet @aasm
Maintainers
- Scott Barron (2006–2009, original author)
- Travis Tilley (2009–2011)
- Thorsten Böttger (since 2011)
Warranty
This software is provided "as is" and without any express or implied warranties, including, without limitation, the implied warranties of merchantibility and fitness for a particular purpose.
License
Copyright (c) 2006-2014 Scott Barron
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.