Configurations provides a unified approach to do configurations using the MyGem.configure do ... end
idiom with the flexibility to do everything from arbitrary configurations to type asserted configurations for your gem or any other ruby code.
gem install configurations
or with Bundler
gem 'configurations', '~> 2.2.0'
Configurations uses Semver 2.0
Compatible with MRI 1.9.2 - 2.2, Rubinius 2.x, jRuby 1.7 and 9K
There are various ways to do configurations, yet there seems to be a broad consensus on the MyGem.configure do ... end
idiom.
So instead of rolling your own, you can add this gem to your gem and get that functionality for free, plus some goodies you may want
but do not have the time to write like type assertion or nested configurations.
Less time copy pasting configuration code, more time writing exciting code for you.
Go boom! with ease. This allows your gem / code users to set any value they like.
module MyGem
include Configurations
end
Gives your users:
MyGem.configure do |c|
c.foo.bar.baz = 'fizz'
c.hi = 'Hello-o'
c.class = 'oooh wow' # Such flexible!
end
Gives you:
MyGem.configuration.class #=> 'oooh wow'
MyGem.configuration.foo.bar.baz #=> 'fizz'
Undefined properties on an arbitrary configuration will return nil
MyGem.configuration.not_set #=> nil
If you want to define the behaviour for not set properties yourself, use not_configured
. You can either define a catch-all not_configured
which will be executed whenever you call a value that has not been configured and has no default:
module MyGem
not_configured do |prop|
raise NoMethodError, "#{prop} must be configured"
end
end
Or you can define finer-grained callbacks:
module MyGem
not_configured my: { nested: :prop } do |prop|
raise NoMethodError, "#{prop} must be configured"
end
end
If you just want some properties to be configurable, consider this option
module MyGem
include Configurations
configurable :foo, bar: :baz, biz: %i(bi ba bu)
end
Gives your users:
MyGem.configure do |c|
c.foo = 'FOO'
c.bar.baz = 'FIZZ'
c.biz.bi = 'BI'
c.biz.ba = 'BA'
# This would raise NoMethodError
# c.bar.biz
end
Gives you:
MyGem.configuration.foo #=> 'FOO'
MyGem.configuration.bar.baz #=> 'FIZZ'
Not configured properties on a restricted configuration will raise NoMethodError
MyGem.configuration.not_set #=> <#NoMethodError>
If you want to define the behaviour for not set properties yourself, use not_configured
. This will only affect properties set to configurable. All not configurable properties will raise NoMethodError
.
module MyGem
not_configured :awesome, :nice do |prop| # omit the arguments to get a catch-all not_configured
warn :not_configured, "Please configure #{prop} or live in danger: youtube.com/watch?v=yZ15vCGuvH0"
end
end
If you want to make sure your configurations only accept one type, consider this option
module MyGem
include Configurations
configurable String, :foo
configurable Array, bar: :baz
end
Gives your users:
MyGem.configure do |c|
c.foo = 'FOO'
c.bar.baz = %w(hello)
# This would raise Configurations::ConfigurationError
# c.foo = :not_so_foo
# c.bar.baz = 'oh my cannot configure'
end
If you need further assertions or you need to change a value before it gets stored in the configuration, consider passing a block
module MyGem
include Configurations
configurable :foo do |value|
# The return value is what gets assigned, unless it is nil,
# in which case the original value persists
#
value + ' ooooh my'
end
configurable String, bar: :baz do |value|
# value is guaranteed to be a string at this point
#
unless %w(bi ba bu).include?(value)
raise ArgumentError, 'baz needs to be one of bi, ba, bu'
end
end
end
Gives your users:
MyGem.configure do |c|
c.foo = 'FOO'
c.bar.baz = %w(bi)
# This would raise the ArgumentError in the block
# c.bar.baz = %w(boooh)
end
Gives you:
MyGem.configuration.foo #=> 'FOO ooooh my'
MyGem.configuration.bar.baz #=> one of %w(bi ba bu)
You might want to define methods on your configuration which use configuration values to bring out another value.
This is what configuration_method
is here to help you with:
module MyGem
include Configurations
configurable :foo, :bar
configuration_method :foobar do |arg|
foo + bar + arg
end
end
Your users do:
MyGem.configure do |c|
c.foo = 'FOO'
c.bar = 'BAR'
end
You get:
MyGem.configuration.foobar('ARG') #=> 'FOOBARARG'
configuration methods can also be installed on nested properties using hashes:
configuration_method foo: :bar do |arg|
foo + bar + arg
end
module MyGem
include Configurations
configuration_defaults do |c|
c.foo.bar.baz = 'BAR'
end
end
MyGem.configuration.to_h #=> a Hash
Sometimes your users will have a hash of configuration values which are not handy to press into the block form. In that case, they can use from_h
inside the configure
block to either read in the full or a nested configuration. With a everything besides arbitrary configurations, from_h
can also be used outside the block.
yaml_hash = YAML.load_file('configuration.yml')
MyGem.configure do |c|
c.foo = 'bar'
c.baz.from_h(yaml_hash)
end
These are reserved methods on the configuration instance and should not be defined:
initialize
inspect
method_missing
object_id
singleton_class
to_h
to_s
Configuration
inherits from BasicObject
, so method names defined through Kernel
and Object
are available.
Configuration is synchronized. Re-configuration via the configure
block switches out the configuration in place rather than mutating its properties, so don't hold on to configuration objects in another context.
That said, please bear in mind that keeping mutable state in configurations is as bad an idea as every other kind of global mutable state, if you expect values to change at runtime, configurations are not the right place to keep them:
Encourage your users to configure once when initializing the environment, reconfigure on reload, but never ever at runtime.
YES!
Let's make this awesome. Write tests for your added stuff, bonus points for feature branches. If you don't have the time to write a fix, raise an issue.
Copyright © 2015 Beat Richartz. See LICENSE.txt for further details.