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259 lines
14 KiB
Ruby
259 lines
14 KiB
Ruby
module ActiveRecord
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module Aggregations # :nodoc:
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extend ActiveSupport::DependencyModule
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def clear_aggregation_cache #:nodoc:
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self.class.reflect_on_all_aggregations.to_a.each do |assoc|
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instance_variable_set "@#{assoc.name}", nil
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end unless self.new_record?
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end
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# Active Record implements aggregation through a macro-like class method called +composed_of+ for representing attributes
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# as value objects. It expresses relationships like "Account [is] composed of Money [among other things]" or "Person [is]
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# composed of [an] address". Each call to the macro adds a description of how the value objects are created from the
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# attributes of the entity object (when the entity is initialized either as a new object or from finding an existing object)
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# and how it can be turned back into attributes (when the entity is saved to the database). Example:
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#
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# class Customer < ActiveRecord::Base
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# composed_of :balance, :class_name => "Money", :mapping => %w(balance amount)
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# composed_of :address, :mapping => [ %w(address_street street), %w(address_city city) ]
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# end
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#
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# The customer class now has the following methods to manipulate the value objects:
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# * <tt>Customer#balance, Customer#balance=(money)</tt>
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# * <tt>Customer#address, Customer#address=(address)</tt>
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#
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# These methods will operate with value objects like the ones described below:
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#
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# class Money
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# include Comparable
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# attr_reader :amount, :currency
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# EXCHANGE_RATES = { "USD_TO_DKK" => 6 }
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#
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# def initialize(amount, currency = "USD")
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# @amount, @currency = amount, currency
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# end
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#
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# def exchange_to(other_currency)
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# exchanged_amount = (amount * EXCHANGE_RATES["#{currency}_TO_#{other_currency}"]).floor
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# Money.new(exchanged_amount, other_currency)
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# end
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#
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# def ==(other_money)
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# amount == other_money.amount && currency == other_money.currency
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# end
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#
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# def <=>(other_money)
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# if currency == other_money.currency
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# amount <=> amount
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# else
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# amount <=> other_money.exchange_to(currency).amount
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# end
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# end
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# end
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#
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# class Address
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# attr_reader :street, :city
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# def initialize(street, city)
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# @street, @city = street, city
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# end
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#
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# def close_to?(other_address)
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# city == other_address.city
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# end
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#
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# def ==(other_address)
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# city == other_address.city && street == other_address.street
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# end
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# end
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#
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# Now it's possible to access attributes from the database through the value objects instead. If you choose to name the
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# composition the same as the attribute's name, it will be the only way to access that attribute. That's the case with our
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# +balance+ attribute. You interact with the value objects just like you would any other attribute, though:
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#
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# customer.balance = Money.new(20) # sets the Money value object and the attribute
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# customer.balance # => Money value object
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# customer.balance.exchange_to("DKK") # => Money.new(120, "DKK")
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# customer.balance > Money.new(10) # => true
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# customer.balance == Money.new(20) # => true
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# customer.balance < Money.new(5) # => false
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#
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# Value objects can also be composed of multiple attributes, such as the case of Address. The order of the mappings will
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# determine the order of the parameters. Example:
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#
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# customer.address_street = "Hyancintvej"
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# customer.address_city = "Copenhagen"
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# customer.address # => Address.new("Hyancintvej", "Copenhagen")
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# customer.address = Address.new("May Street", "Chicago")
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# customer.address_street # => "May Street"
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# customer.address_city # => "Chicago"
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#
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# == Writing value objects
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#
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# Value objects are immutable and interchangeable objects that represent a given value, such as a Money object representing
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# $5. Two Money objects both representing $5 should be equal (through methods such as <tt>==</tt> and <tt><=></tt> from Comparable if ranking
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# makes sense). This is unlike entity objects where equality is determined by identity. An entity class such as Customer can
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# easily have two different objects that both have an address on Hyancintvej. Entity identity is determined by object or
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# relational unique identifiers (such as primary keys). Normal ActiveRecord::Base classes are entity objects.
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#
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# It's also important to treat the value objects as immutable. Don't allow the Money object to have its amount changed after
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# creation. Create a new Money object with the new value instead. This is exemplified by the Money#exchange_to method that
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# returns a new value object instead of changing its own values. Active Record won't persist value objects that have been
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# changed through means other than the writer method.
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#
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# The immutable requirement is enforced by Active Record by freezing any object assigned as a value object. Attempting to
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# change it afterwards will result in a ActiveSupport::FrozenObjectError.
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#
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# Read more about value objects on http://c2.com/cgi/wiki?ValueObject and on the dangers of not keeping value objects
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# immutable on http://c2.com/cgi/wiki?ValueObjectsShouldBeImmutable
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#
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# == Custom constructors and converters
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#
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# By default value objects are initialized by calling the <tt>new</tt> constructor of the value class passing each of the
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# mapped attributes, in the order specified by the <tt>:mapping</tt> option, as arguments. If the value class doesn't support
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# this convention then +composed_of+ allows a custom constructor to be specified.
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#
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# When a new value is assigned to the value object the default assumption is that the new value is an instance of the value
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# class. Specifying a custom converter allows the new value to be automatically converted to an instance of value class if
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# necessary.
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#
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# For example, the NetworkResource model has +network_address+ and +cidr_range+ attributes that should be aggregated using the
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# NetAddr::CIDR value class (http://netaddr.rubyforge.org). The constructor for the value class is called +create+ and it
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# expects a CIDR address string as a parameter. New values can be assigned to the value object using either another
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# NetAddr::CIDR object, a string or an array. The <tt>:constructor</tt> and <tt>:converter</tt> options can be used to
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# meet these requirements:
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#
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# class NetworkResource < ActiveRecord::Base
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# composed_of :cidr,
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# :class_name => 'NetAddr::CIDR',
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# :mapping => [ %w(network_address network), %w(cidr_range bits) ],
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# :allow_nil => true,
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# :constructor => Proc.new { |network_address, cidr_range| NetAddr::CIDR.create("#{network_address}/#{cidr_range}") },
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# :converter => Proc.new { |value| NetAddr::CIDR.create(value.is_a?(Array) ? value.join('/') : value) }
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# end
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#
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# # This calls the :constructor
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# network_resource = NetworkResource.new(:network_address => '192.168.0.1', :cidr_range => 24)
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#
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# # These assignments will both use the :converter
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# network_resource.cidr = [ '192.168.2.1', 8 ]
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# network_resource.cidr = '192.168.0.1/24'
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#
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# # This assignment won't use the :converter as the value is already an instance of the value class
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# network_resource.cidr = NetAddr::CIDR.create('192.168.2.1/8')
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#
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# # Saving and then reloading will use the :constructor on reload
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# network_resource.save
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# network_resource.reload
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#
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# == Finding records by a value object
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#
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# Once a +composed_of+ relationship is specified for a model, records can be loaded from the database by specifying an instance
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# of the value object in the conditions hash. The following example finds all customers with +balance_amount+ equal to 20 and
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# +balance_currency+ equal to "USD":
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#
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# Customer.find(:all, :conditions => {:balance => Money.new(20, "USD")})
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#
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module ClassMethods
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# Adds reader and writer methods for manipulating a value object:
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# <tt>composed_of :address</tt> adds <tt>address</tt> and <tt>address=(new_address)</tt> methods.
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#
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# Options are:
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# * <tt>:class_name</tt> - Specifies the class name of the association. Use it only if that name can't be inferred
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# from the part id. So <tt>composed_of :address</tt> will by default be linked to the Address class, but
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# if the real class name is CompanyAddress, you'll have to specify it with this option.
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# * <tt>:mapping</tt> - Specifies the mapping of entity attributes to attributes of the value object. Each mapping
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# is represented as an array where the first item is the name of the entity attribute and the second item is the
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# name the attribute in the value object. The order in which mappings are defined determine the order in which
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# attributes are sent to the value class constructor.
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# * <tt>:allow_nil</tt> - Specifies that the value object will not be instantiated when all mapped
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# attributes are +nil+. Setting the value object to +nil+ has the effect of writing +nil+ to all mapped attributes.
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# This defaults to +false+.
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# * <tt>:constructor</tt> - A symbol specifying the name of the constructor method or a Proc that is called to
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# initialize the value object. The constructor is passed all of the mapped attributes, in the order that they
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# are defined in the <tt>:mapping option</tt>, as arguments and uses them to instantiate a <tt>:class_name</tt> object.
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# The default is <tt>:new</tt>.
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# * <tt>:converter</tt> - A symbol specifying the name of a class method of <tt>:class_name</tt> or a Proc that is
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# called when a new value is assigned to the value object. The converter is passed the single value that is used
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# in the assignment and is only called if the new value is not an instance of <tt>:class_name</tt>.
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#
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# Option examples:
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# composed_of :temperature, :mapping => %w(reading celsius)
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# composed_of :balance, :class_name => "Money", :mapping => %w(balance amount), :converter => Proc.new { |balance| balance.to_money }
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# composed_of :address, :mapping => [ %w(address_street street), %w(address_city city) ]
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# composed_of :gps_location
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# composed_of :gps_location, :allow_nil => true
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# composed_of :ip_address,
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# :class_name => 'IPAddr',
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# :mapping => %w(ip to_i),
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# :constructor => Proc.new { |ip| IPAddr.new(ip, Socket::AF_INET) },
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# :converter => Proc.new { |ip| ip.is_a?(Integer) ? IPAddr.new(ip, Socket::AF_INET) : IPAddr.new(ip.to_s) }
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#
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def composed_of(part_id, options = {}, &block)
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options.assert_valid_keys(:class_name, :mapping, :allow_nil, :constructor, :converter)
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name = part_id.id2name
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class_name = options[:class_name] || name.camelize
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mapping = options[:mapping] || [ name, name ]
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mapping = [ mapping ] unless mapping.first.is_a?(Array)
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allow_nil = options[:allow_nil] || false
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constructor = options[:constructor] || :new
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converter = options[:converter] || block
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ActiveSupport::Deprecation.warn('The conversion block has been deprecated, use the :converter option instead.', caller) if block_given?
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reader_method(name, class_name, mapping, allow_nil, constructor)
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writer_method(name, class_name, mapping, allow_nil, converter)
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create_reflection(:composed_of, part_id, options, self)
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end
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private
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def reader_method(name, class_name, mapping, allow_nil, constructor)
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module_eval do
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define_method(name) do |*args|
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force_reload = args.first || false
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if (instance_variable_get("@#{name}").nil? || force_reload) && (!allow_nil || mapping.any? {|pair| !read_attribute(pair.first).nil? })
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attrs = mapping.collect {|pair| read_attribute(pair.first)}
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object = case constructor
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when Symbol
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class_name.constantize.send(constructor, *attrs)
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when Proc, Method
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constructor.call(*attrs)
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else
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raise ArgumentError, 'Constructor must be a symbol denoting the constructor method to call or a Proc to be invoked.'
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end
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instance_variable_set("@#{name}", object)
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end
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instance_variable_get("@#{name}")
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end
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end
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end
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def writer_method(name, class_name, mapping, allow_nil, converter)
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module_eval do
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define_method("#{name}=") do |part|
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if part.nil? && allow_nil
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mapping.each { |pair| self[pair.first] = nil }
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instance_variable_set("@#{name}", nil)
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else
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unless part.is_a?(class_name.constantize) || converter.nil?
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part = case converter
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when Symbol
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class_name.constantize.send(converter, part)
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when Proc, Method
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converter.call(part)
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else
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raise ArgumentError, 'Converter must be a symbol denoting the converter method to call or a Proc to be invoked.'
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end
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end
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mapping.each { |pair| self[pair.first] = part.send(pair.last) }
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instance_variable_set("@#{name}", part.freeze)
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end
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end
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end
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end
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end
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end
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end
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