Declare a class-level attribute whose value is inheritable by subclasses. Subclasses can change their own value and it will not impact parent class.
class Base class_attribute :setting end class Subclass < Base end Base.setting = true Subclass.setting # => true Subclass.setting = false Subclass.setting # => false Base.setting # => true
In the above case as long as Subclass does not assign a value to setting by
performing Subclass.setting = something ,
Subclass.setting would read value assigned to parent class.
Once Subclass assigns a value then the value assigned by Subclass would be
returned.
This matches normal Ruby method inheritance: think of writing an attribute
on a subclass as overriding the reader method. However, you need to be
aware when using class_attribute with mutable structures as
Array or Hash. In such cases, you don't want
to do changes in places but use setters:
Base.setting = [] Base.setting # => [] Subclass.setting # => [] # Appending in child changes both parent and child because it is the same object: Subclass.setting << :foo Base.setting # => [:foo] Subclass.setting # => [:foo] # Use setters to not propagate changes: Base.setting = [] Subclass.setting += [:foo] Base.setting # => [] Subclass.setting # => [:foo]
For convenience, an instance predicate method is defined as well. To skip
it, pass instance_predicate: false.
Subclass.setting? # => false
Instances may overwrite the class value in the same way:
Base.setting = true object = Base.new object.setting # => true object.setting = false object.setting # => false Base.setting # => true
To opt out of the instance reader method, pass instance_reader:
false.
object.setting # => NoMethodError object.setting? # => NoMethodError
To opt out of the instance writer method, pass instance_writer:
false.
object.setting = false # => NoMethodError
To opt out of both instance methods, pass instance_accessor:
false.
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