module Concurrent module Synchronization # @!visibility private # @!macro internal_implementation_note ObjectImplementation = case when Concurrent.on_cruby? MriObject when Concurrent.on_jruby? JRubyObject when Concurrent.on_rbx? RbxObject when Concurrent.on_truffleruby? TruffleRubyObject else warn 'Possibly unsupported Ruby implementation' MriObject end private_constant :ObjectImplementation # Abstract object providing final, volatile, ans CAS extensions to build other concurrent abstractions. # - final instance variables see {Object.safe_initialization!} # - volatile instance variables see {Object.attr_volatile} # - volatile instance variables see {Object.attr_atomic} class Object < ObjectImplementation # TODO make it a module if possible # @!method self.attr_volatile(*names) # Creates methods for reading and writing (as `attr_accessor` does) to a instance variable with # volatile (Java) semantic. The instance variable should be accessed only through generated methods. # # @param [::Array] names of the instance variables to be volatile # @return [::Array] names of defined method names # Has to be called by children. def initialize super __initialize_atomic_fields__ end # By calling this method on a class, it and all its children are marked to be constructed safely. Meaning that # all writes (ivar initializations) are made visible to all readers of newly constructed object. It ensures # same behaviour as Java's final fields. # @example # class AClass < Concurrent::Synchronization::Object # safe_initialization! # # def initialize # @AFinalValue = 'value' # published safely, does not have to be synchronized # end # end # @return [true] def self.safe_initialization! # define only once, and not again in children return if safe_initialization? # @!visibility private def self.new(*args, &block) object = super(*args, &block) ensure object.full_memory_barrier if object end @safe_initialization = true end # @return [true, false] if this class is safely initialized. def self.safe_initialization? @safe_initialization = false unless defined? @safe_initialization @safe_initialization || (superclass.respond_to?(:safe_initialization?) && superclass.safe_initialization?) end # For testing purposes, quite slow. Injects assert code to new method which will raise if class instance contains # any instance variables with CamelCase names and isn't {.safe_initialization?}. # @raise when offend found # @return [true] def self.ensure_safe_initialization_when_final_fields_are_present Object.class_eval do def self.new(*args, &block) object = super(*args, &block) ensure has_final_field = object.instance_variables.any? { |v| v.to_s =~ /^@[A-Z]/ } if has_final_field && !safe_initialization? raise "there was an instance of #{object.class} with final field but not marked with safe_initialization!" end end end true end # Creates methods for reading and writing to a instance variable with # volatile (Java) semantic as {.attr_volatile} does. # The instance variable should be accessed oly through generated methods. # This method generates following methods: `value`, `value=(new_value) #=> new_value`, # `swap_value(new_value) #=> old_value`, # `compare_and_set_value(expected, value) #=> true || false`, `update_value(&block)`. # @param [::Array] names of the instance variables to be volatile with CAS. # @return [::Array] names of defined method names. # @!macro attr_atomic # @!method $1 # @return [Object] The $1. # @!method $1=(new_$1) # Set the $1. # @return [Object] new_$1. # @!method swap_$1(new_$1) # Set the $1 to new_$1 and return the old $1. # @return [Object] old $1 # @!method compare_and_set_$1(expected_$1, new_$1) # Sets the $1 to new_$1 if the current $1 is expected_$1 # @return [true, false] # @!method update_$1(&block) # Updates the $1 using the block. # @yield [Object] Calculate a new $1 using given (old) $1 # @yieldparam [Object] old $1 # @return [Object] new $1 def self.attr_atomic(*names) @__atomic_fields__ ||= [] @__atomic_fields__ += names safe_initialization! define_initialize_atomic_fields names.each do |name| ivar = :"@Atomic#{name.to_s.gsub(/(?:^|_)(.)/) { $1.upcase }}" class_eval <<-RUBY, __FILE__, __LINE__ + 1 def #{name} #{ivar}.get end def #{name}=(value) #{ivar}.set value end def swap_#{name}(value) #{ivar}.swap value end def compare_and_set_#{name}(expected, value) #{ivar}.compare_and_set expected, value end def update_#{name}(&block) #{ivar}.update(&block) end RUBY end names.flat_map { |n| [n, :"#{n}=", :"swap_#{n}", :"compare_and_set_#{n}", :"update_#{n}"] } end # @param [true, false] inherited should inherited volatile with CAS fields be returned? # @return [::Array] Returns defined volatile with CAS fields on this class. def self.atomic_attributes(inherited = true) @__atomic_fields__ ||= [] ((superclass.atomic_attributes if superclass.respond_to?(:atomic_attributes) && inherited) || []) + @__atomic_fields__ end # @return [true, false] is the attribute with name atomic? def self.atomic_attribute?(name) atomic_attributes.include? name end private def self.define_initialize_atomic_fields assignments = @__atomic_fields__.map do |name| "@Atomic#{name.to_s.gsub(/(?:^|_)(.)/) { $1.upcase }} = Concurrent::AtomicReference.new(nil)" end.join("\n") class_eval <<-RUBY, __FILE__, __LINE__ + 1 def __initialize_atomic_fields__ super #{assignments} end RUBY end private_class_method :define_initialize_atomic_fields def __initialize_atomic_fields__ end end end end