FlatMap

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FlatMap is a flexible tool for mapping a complex, deeply nested object graph into a mapper object with all mapped attributes accessible in a plain way.

Usage

Mapper

FlatMap mappers are designed to provide complex set of data, distributed over associated AR models, in the simple form of a plain hash. They accept a plain hash of the same format and distribute its values over deeply nested AR models. To achieve this goal, Mapper uses three major concepts: Mappings, Mountings and Traits.

Mappings

Mappings are defined view Mapper.map method. They represent a simple one-to-one relation between target attribute and a mapper, extended by additional features for convenience. The best way to show how they work is by example:

class CustomerMapper < FlatMap::Mapper
  # When there is no need to rename attributes, they can be passed as array:
  map :first_name, :last_name
  # When hash is used, it will map field name to attribute name:
  map :dob => :date_of_birth
  # Also, additional options can be used:
  map :name_suffix, :format => :enum
  map :password, :reader => false, :writer => :assign_password
  # Or you can combine all definitions together if they all are common:
  map :first_name, :last_name,
      :dob    => :date_of_birth,
      :suffix => :name_suffix,
      :reader => :my_custom_reader
end

When mappings are defined, one can read and write values using them:

  mapper = CustomerMapper.find(1)
  mapper.read          # => {:first_name => 'John', :last_name => 'Smith', :dob => '02/01/1970'}
  mapper.write(params) # will assign same-looking hash of arguments

Following options may be used when defining mappings:

  • :format Allows to additionally process output value on reading it. All formats are defined within FlatMap::Mapping::Reader::Formatted::Formats and specify the actual output of the mapping
  • :reader Allows you to manually control reader value of a mapping, or a group of mappings listed on definition. When String or Symbol is used, will call a method, defined by mapper class, and pass mapping object to it. When lambda is used, mapper's target (the model) will be passed to it.
  • :writer Just like with the :reader option, allows to control how value is assigned (written). Works the same way as :reader does, but additionally value is sent to both mapper method and lambda.
  • :multiparam If used, multiparam attributes will be extracted from params, when those are passed for writing. Class should be passed as a value for this option. Object of this class will be initialized with the arguments extracted from params hash.

Mountings

Mappers may be mounted on top of each other. This ability allows host mapper to gain all the mappings of the mounted mapper, thus providing more information for external usage (both reading and writing). Usually, target for mounted mapper may be obtained from association of target of the host mapper itself, but may be defined manually.

  class CustomerMapper < FlatMap::Mapper
    map :first_name, :last_name
  end
  class CustomerAccountMapper < FlatMap::Mapper
    map :source, :brand, :format => :enum
    mount :customer
  end
  mapper = CustomerAccountMapper.find(1)
  mapper.read # => {:first_name => 'John', :last_name => 'Smith', :source => nil, :brand => 'FTW'}
  mapper.write(params) # Will assign params for both CustomerAccount and Customer records

The following options may be used when mounting a mapper:

  • :mapper_class Specifies mapper class if it cannot be determined from mounting itself
  • :target Allows to manually specify target for the new mapper. May be oject or lambda with arity of one that accepts host mapper target as argument. Comes in handy when target cannot be obviously detected or requires additional setup: mount :title, :target => lambda{ |customer| customer.title_customers.build.build_title }
  • :traits Specifies list of traits to be used by mounted mapper
  • :suffix Specifies the suffix that will be appended to all mappings and mountings of mapper, as well as mapper name itself.

Traits

Traits allow mappers to encapsulate named sets of additional definitions, and use them optionally on mapper initialization. Everything that can be defined within the mapper may be defined within the trait. In fact, from the implementation perspective traits are mappers themselves that are mounted on the host mapper.

  class CustomerAccountMapper < FlatMap::Mapper
    map :brand, :format => :enum
    trait :with_email do
      map :source, :format => :enum
      mount :email_address
      trait :with_email_phones_residence do
        mount :customer, :traits => [:with_phone_numbers, :with_residence]
      end
    end
  end
  CustomerAccountMapper.find(1).read # => {:brand => 'TLP'}
  CustomerAccountMapper.find(1, :with_email).read # => {:brand => 'TLP', :source => nil, :email_address => '[email protected]'}
  CustomerAccountMapper.find(1, :with_email_phone_residence).read # => :brand, :source, :email_address, phone numbers,
                                   #:residence attributes - all will be available for reading and writing in plain hash

Extensions

When mounting a mapper, one can pass an optional block. This block is used as an extension for a mounted mapper and acts as an anonymous trait. For example:

  class CustomerAccountMapper < FlatMap::Mapper
    mount :customer do
      map :dob => :date_of_birth, :format => :i18n_l
      validates_presence_of :dob

      mount :unique_identifier

      validates_acceptance_of :mandatory_agreement, :message => "You must check this box to continue"
    end
  end

Validation

FlatMap::Mapper includes ActiveModel::Validations module, allowing each model to perform its own validation routines before trying to save its target (which is usually AR model). Mapper validation is very handy when mappers are used with Rails forms, since there no need to lookup for a deeply nested errors hash of the AR models to extract error messages. Mapper validations will attach messages to mapping names. Mapper validations become even more useful when used within traits, providing way of very flexible validation sets.

Callbacks

Since mappers include ActiveModel::Validation, they already support ActiveSupport's callbacks. Additionally, :save callbacks have been defined (i.e. there have been define_callbacks :save call for FlatMap::Mapper). This allows you to control flow of mapper saving:

  set_callback :save, :before, :set_model_validation
  def set_model_validation
    target.use_validation :some_themis_validation
  end

Skipping

In some cases, it is required to omit mapper processing after it has been created within mounting chain. If skip! method is called on mapper, it will return true for valid? and save method calls without performing any other operations. For example:

  class CustomerMapper < FlatMap::Mapper
    # some definitions

    trait :product_selection do
      attr_reader :selected_product_id

      mount :product

      set_callback :validate, :before, :ignore_new_product

      def ignore_new_product
        mounting(:product).skip! if product_selected?
      end

      # some more definitions
    end
  end

Attribute Methods

All mappers have the ability to read and write values via method calls:

  mapper.read[:first_name] # => John
  mapper.first_name # => 'John'
  mapper.last_name = 'Smith'

Run tests

rake spec

Credits

Copyright (c) 2013 TMX Credit.