require 'active_support/core_ext/enumerable' require 'mutex_m' require 'thread_safe' module ActiveRecord # = Active Record Attribute Methods module AttributeMethods extend ActiveSupport::Concern include ActiveModel::AttributeMethods included do initialize_generated_modules include Read include Write include BeforeTypeCast include Query include PrimaryKey include TimeZoneConversion include Dirty include Serialization delegate :column_for_attribute, to: :class end AttrNames = Module.new { def self.set_name_cache(name, value) const_name = "ATTR_#{name}" unless const_defined? const_name const_set const_name, value.dup.freeze end end } BLACKLISTED_CLASS_METHODS = %w(private public protected) class AttributeMethodCache def initialize @module = Module.new @method_cache = ThreadSafe::Cache.new end def [](name) @method_cache.compute_if_absent(name) do safe_name = name.unpack('h*').first temp_method = "__temp__#{safe_name}" ActiveRecord::AttributeMethods::AttrNames.set_name_cache safe_name, name @module.module_eval method_body(temp_method, safe_name), __FILE__, __LINE__ @module.instance_method temp_method end end private # Override this method in the subclasses for method body. def method_body(method_name, const_name) raise NotImplementedError, "Subclasses must implement a method_body(method_name, const_name) method." end end module ClassMethods def inherited(child_class) #:nodoc: child_class.initialize_generated_modules super end def initialize_generated_modules # :nodoc: @generated_attribute_methods = Module.new { extend Mutex_m } @attribute_methods_generated = false include @generated_attribute_methods end # Generates all the attribute related methods for columns in the database # accessors, mutators and query methods. def define_attribute_methods # :nodoc: return false if @attribute_methods_generated # Use a mutex; we don't want two threads simultaneously trying to define # attribute methods. generated_attribute_methods.synchronize do return false if @attribute_methods_generated superclass.define_attribute_methods unless self == base_class super(column_names) @attribute_methods_generated = true end true end def undefine_attribute_methods # :nodoc: generated_attribute_methods.synchronize do super if @attribute_methods_generated @attribute_methods_generated = false end end # Raises a ActiveRecord::DangerousAttributeError exception when an # \Active \Record method is defined in the model, otherwise +false+. # # class Person < ActiveRecord::Base # def save # 'already defined by Active Record' # end # end # # Person.instance_method_already_implemented?(:save) # # => ActiveRecord::DangerousAttributeError: save is defined by ActiveRecord # # Person.instance_method_already_implemented?(:name) # # => false def instance_method_already_implemented?(method_name) if dangerous_attribute_method?(method_name) raise DangerousAttributeError, "#{method_name} is defined by Active Record" end if superclass == Base super else # If B < A and A defines its own attribute method, then we don't want to overwrite that. defined = method_defined_within?(method_name, superclass, superclass.generated_attribute_methods) base_defined = Base.method_defined?(method_name) || Base.private_method_defined?(method_name) defined && !base_defined || super end end # A method name is 'dangerous' if it is already (re)defined by Active Record, but # not by any ancestors. (So 'puts' is not dangerous but 'save' is.) def dangerous_attribute_method?(name) # :nodoc: method_defined_within?(name, Base) end def method_defined_within?(name, klass, superklass = klass.superclass) # :nodoc: if klass.method_defined?(name) || klass.private_method_defined?(name) if superklass.method_defined?(name) || superklass.private_method_defined?(name) klass.instance_method(name).owner != superklass.instance_method(name).owner else true end else false end end # A class method is 'dangerous' if it is already (re)defined by Active Record, but # not by any ancestors. (So 'puts' is not dangerous but 'new' is.) def dangerous_class_method?(method_name) BLACKLISTED_CLASS_METHODS.include?(method_name.to_s) || class_method_defined_within?(method_name, Base) end def class_method_defined_within?(name, klass, superklass = klass.superclass) # :nodoc if klass.respond_to?(name, true) if superklass.respond_to?(name, true) klass.method(name).owner != superklass.method(name).owner else true end else false end end # Returns +true+ if +attribute+ is an attribute method and table exists, # +false+ otherwise. # # class Person < ActiveRecord::Base # end # # Person.attribute_method?('name') # => true # Person.attribute_method?(:age=) # => true # Person.attribute_method?(:nothing) # => false def attribute_method?(attribute) super || (table_exists? && column_names.include?(attribute.to_s.sub(/=$/, ''))) end # Returns an array of column names as strings if it's not an abstract class and # table exists. Otherwise it returns an empty array. # # class Person < ActiveRecord::Base # end # # Person.attribute_names # # => ["id", "created_at", "updated_at", "name", "age"] def attribute_names @attribute_names ||= if !abstract_class? && table_exists? column_names else [] end end # Returns the column object for the named attribute. # Returns nil if the named attribute does not exist. # # class Person < ActiveRecord::Base # end # # person = Person.new # person.column_for_attribute(:name) # the result depends on the ConnectionAdapter # # => # # # person.column_for_attribute(:nothing) # # => nil def column_for_attribute(name) column = columns_hash[name.to_s] if column.nil? ActiveSupport::Deprecation.warn(<<-MESSAGE.strip_heredoc) `column_for_attribute` will return a null object for non-existent columns in Rails 5.0. Use `has_attribute?` if you need to check for an attribute's existence. MESSAGE end column end end # A Person object with a name attribute can ask person.respond_to?(:name), # person.respond_to?(:name=), and person.respond_to?(:name?) # which will all return +true+. It also define the attribute methods if they have # not been generated. # # class Person < ActiveRecord::Base # end # # person = Person.new # person.respond_to(:name) # => true # person.respond_to(:name=) # => true # person.respond_to(:name?) # => true # person.respond_to('age') # => true # person.respond_to('age=') # => true # person.respond_to('age?') # => true # person.respond_to(:nothing) # => false def respond_to?(name, include_private = false) return false unless super name = name.to_s # If the result is true then check for the select case. # For queries selecting a subset of columns, return false for unselected columns. # We check defined?(@attributes) not to issue warnings if called on objects that # have been allocated but not yet initialized. if defined?(@attributes) && self.class.column_names.include?(name) return has_attribute?(name) end return true end # Returns +true+ if the given attribute is in the attributes hash, otherwise +false+. # # class Person < ActiveRecord::Base # end # # person = Person.new # person.has_attribute?(:name) # => true # person.has_attribute?('age') # => true # person.has_attribute?(:nothing) # => false def has_attribute?(attr_name) @attributes.key?(attr_name.to_s) end # Returns an array of names for the attributes available on this object. # # class Person < ActiveRecord::Base # end # # person = Person.new # person.attribute_names # # => ["id", "created_at", "updated_at", "name", "age"] def attribute_names @attributes.keys end # Returns a hash of all the attributes with their names as keys and the values of the attributes as values. # # class Person < ActiveRecord::Base # end # # person = Person.create(name: 'Francesco', age: 22) # person.attributes # # => {"id"=>3, "created_at"=>Sun, 21 Oct 2012 04:53:04, "updated_at"=>Sun, 21 Oct 2012 04:53:04, "name"=>"Francesco", "age"=>22} def attributes @attributes.to_hash end # Returns an #inspect-like string for the value of the # attribute +attr_name+. String attributes are truncated upto 50 # characters, Date and Time attributes are returned in the # :db format, Array attributes are truncated upto 10 values. # Other attributes return the value of #inspect without # modification. # # person = Person.create!(name: 'David Heinemeier Hansson ' * 3) # # person.attribute_for_inspect(:name) # # => "\"David Heinemeier Hansson David Heinemeier Hansson ...\"" # # person.attribute_for_inspect(:created_at) # # => "\"2012-10-22 00:15:07\"" # # person.attribute_for_inspect(:tag_ids) # # => "[1, 2, 3, 4, 5, 6, 7, 8, 9, 10, ...]" def attribute_for_inspect(attr_name) value = read_attribute(attr_name) if value.is_a?(String) && value.length > 50 "#{value[0, 50]}...".inspect elsif value.is_a?(Date) || value.is_a?(Time) %("#{value.to_s(:db)}") elsif value.is_a?(Array) && value.size > 10 inspected = value.first(10).inspect %(#{inspected[0...-1]}, ...]) else value.inspect end end # Returns +true+ if the specified +attribute+ has been set by the user or by a # database load and is neither +nil+ nor empty? (the latter only applies # to objects that respond to empty?, most notably Strings). Otherwise, +false+. # Note that it always returns +true+ with boolean attributes. # # class Task < ActiveRecord::Base # end # # task = Task.new(title: '', is_done: false) # task.attribute_present?(:title) # => false # task.attribute_present?(:is_done) # => true # task.title = 'Buy milk' # task.is_done = true # task.attribute_present?(:title) # => true # task.attribute_present?(:is_done) # => true def attribute_present?(attribute) value = read_attribute(attribute) !value.nil? && !(value.respond_to?(:empty?) && value.empty?) end # Returns the value of the attribute identified by attr_name after it has been typecast (for example, # "2004-12-12" in a date column is cast to a date object, like Date.new(2004, 12, 12)). It raises # ActiveModel::MissingAttributeError if the identified attribute is missing. # # Note: +:id+ is always present. # # Alias for the read_attribute method. # # class Person < ActiveRecord::Base # belongs_to :organization # end # # person = Person.new(name: 'Francesco', age: '22') # person[:name] # => "Francesco" # person[:age] # => 22 # # person = Person.select('id').first # person[:name] # => ActiveModel::MissingAttributeError: missing attribute: name # person[:organization_id] # => ActiveModel::MissingAttributeError: missing attribute: organization_id def [](attr_name) read_attribute(attr_name) { |n| missing_attribute(n, caller) } end # Updates the attribute identified by attr_name with the specified +value+. # (Alias for the protected write_attribute method). # # class Person < ActiveRecord::Base # end # # person = Person.new # person[:age] = '22' # person[:age] # => 22 # person[:age] # => Fixnum def []=(attr_name, value) write_attribute(attr_name, value) end protected def clone_attribute_value(reader_method, attribute_name) # :nodoc: value = send(reader_method, attribute_name) value.duplicable? ? value.clone : value rescue TypeError, NoMethodError value end def arel_attributes_with_values_for_create(attribute_names) # :nodoc: arel_attributes_with_values(attributes_for_create(attribute_names)) end def arel_attributes_with_values_for_update(attribute_names) # :nodoc: arel_attributes_with_values(attributes_for_update(attribute_names)) end def attribute_method?(attr_name) # :nodoc: # We check defined? because Syck calls respond_to? before actually calling initialize. defined?(@attributes) && @attributes.key?(attr_name) end private # Returns a Hash of the Arel::Attributes and attribute values that have been # typecasted for use in an Arel insert/update method. def arel_attributes_with_values(attribute_names) attrs = {} arel_table = self.class.arel_table attribute_names.each do |name| attrs[arel_table[name]] = typecasted_attribute_value(name) end attrs end # Filters the primary keys and readonly attributes from the attribute names. def attributes_for_update(attribute_names) attribute_names.reject do |name| readonly_attribute?(name) end end # Filters out the primary keys, from the attribute names, when the primary # key is to be generated (e.g. the id attribute has no value). def attributes_for_create(attribute_names) attribute_names.reject do |name| pk_attribute?(name) && id.nil? end end def readonly_attribute?(name) self.class.readonly_attributes.include?(name) end def pk_attribute?(name) name == self.class.primary_key end def typecasted_attribute_value(name) read_attribute(name) end end end