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Staff Software Developer

Hi, my name is Konstantin! I'm a software developer living in Montreal, Canada. I currently work for Stripe as a Staff Software Developer. Before that I was at Shopify for 7 years.

I'm passionate about science, technology, music production and photography. In my free time, I maintain a handful of open source projects on GitHub, occasionally publish music production tutorials on YouTube and share some of my music on SoundCloud.

SmartProperties

Ruby accessors on steroids.

Installation

Add this line to your application's Gemfile:

gem 'smart_properties'

And then execute:

$ bundle

Or install it yourself as:

$ gem install smart_properties

Usage

SmartProperties are meant to extend standard Ruby classes. Simply include the SmartProperties module and use the property method along with a name and optional configuration parameters to define new properties. Calling this method results in the generation of a getter and setter pair. In contrast to traditional Ruby accessors -- created by calling attr_accessor, SmartProperties provide much more functionality:

  1. input conversion,
  2. input validation,
  3. default values, and
  4. presence checking.

These features can be configured by calling the property method with additional configuration parameters. The module also provides a default implementation for a constructor that accepts a set of attributes. This is comparable to the constructor of ActiveRecord objects.

Before we discuss the configuration of properties in more detail, we first present a short synopsis of all the functionality provided by SmartProperties.

Synopsis

The example below shows how to implement a class called Message which has three properties: subject, body, and priority. The two properties, subject and priority, are required whereas body is optional. Furthermore, all properties use input conversion. The priority property also uses validation and has a default value so if it is not set during initialization it will be set according to the default value.

require 'rubygems'
require 'smart_properties'

class Message
  include SmartProperties

  property :subject,  converts: :to_s,
                      required: true

  property :body,     converts: :to_s

  property :priority, converts: :to_sym,
                      accepts: [:low, :normal, :high],
                      default: :normal,
                      required: true
end

Creating an instance of this class without specifying any attributes will result in an SmartProperties::InitializationError telling you to specify the required property subject.

Message.new # => raises SmartProperties::InitializationError, "Message requires the following properties to be set: subject"

Creating an instance of this class with all required properties but then setting the property priority to an invalid value will also result in an SmartProperties::InvalidValueError. Since the property is required, assigning nil is also prohibited and will result in a SmartProperties::MissingValueError. All errors SmartProperties raises are subclasses of ArgumentError.

m = Message.new subject: 'Lorem ipsum'
m.priority # => :normal

begin
  m.priority = :urgent
rescue ArgumentError => error
  error.class # => raises SmartProperties::InvalidValueError
  error.message # => "Message does not accept :urgent as value for the property priority"
end

Next, we discuss the various configuration options SmartProperties provide.

Property Configuration

This subsection explains the various configuration options SmartProperties provide.

Input conversion

To automatically convert a given value for a property, you can use the :converts configuration parameter. The parameter can either be a Symbol or a lambda statement. Using a Symbol will instruct the setter to call the method identified by this symbol on the object provided as input data and take the result of this method call as value instead. The example below shows how to implement a property that automatically converts all given input to a String by calling #to_s on the object provided as input.

class Article
  property :title, converts: :to_s
end

If you need more fine-grained control, you can use a lambda statement to specify how the conversion should be done. The statement will be evaluated in the context of the class defining the property and takes the given value as input. The example below shows how to implement a property that automatically converts all given input to a slug representation.

class Article
  property :slug, converts: lambda { |slug| slug.downcase.gsub(/\s+/, '-').gsub(/\W/, '') }
end

Input validation

To ensure that a given value for a property is always of a certain type, you can specify the :accepts configuration parameter. This will result in an automatic validation whenever the setter for a certain property is called. The example below shows how to implement a property which only accepts instances of type String as input.

class Article
  property :title, accepts: String
end

Instead of using a class, you can also use a list of permitted values. The example below shows how to implement a property that only accepts true or false as values.

class Article
  property :published, accepts: [true, false]
end

You can also use a lambda statement for input validation if a more complex validation procedure is required. The lambda statement is evaluated in the context of the class that defines the property and receives the given value as input. The example below shows how to implement a property called title that only accepts values which match the given regular expression.

class Article
  property :title, accepts: lambda { |title| /^Lorem \w+$/ =~ title }
end

There are also a set of common validation helpers you may use. These common cases are provided to help avoid rewriting validation logic that occurs often. These validations can be found in the SmartProperties::Validations module.

class Article
  property :view_count, accepts: Ancestor.must_be(type: Number)
end

Default values

There is also support for default values. Simply use the :default configuration parameter to configure a default value for a certain property. The example below demonstrates how to implement a property that has 42 as default value.

class Article
  property :id, default: 42
end

Default values can also be specified using blocks which are evaluated at runtime and only if no value was supplied.

Presence checking

To ensure that a property is always set and never nil, you can use the :required configuration parameter. If present, this parameter will instruct the setter of a property to not accept nil as input. The example below shows how to implement a property that may not be nil.

class Article
  property :title, required: true
end

Alternatively you can also use the property! method.

class Article
  property! :title
end

The decision whether or not a property is required can also be delayed and evaluated at runtime by providing a block instead of a boolean value. The example below shows how to implement a class that has two properties, name and anonoymous. The name is only required if anonymous is set to false.

class Person
  property :name, required: lambda { not anonymous }
  property :anonymous, required: true, default: true, accepts: [true, false]
end

Custom reader naming

In Ruby, predicate methods by convention end with a ?. This convention is violated in the example above, but can easily be fixed by supplying a custom reader name:

class Person
  property :name, required: lambda { not anonymous }
  property :anonymous, required: true, default: true, accepts: [true, false], reader: :anonymous?
end

To ensure backwards compatibility, boolean properties do not automatically change their reader name. It is thus your responsibility to configure the property properly.

Custom reader implementation

For convenience, it is possible to use the super method to access the original reader when overriding a reader. This is recommended over direct access to the instance variable.

class Person
  property :name
  property! :address

  def name
    super || address.name
  end
end

Constructor argument forwarding

The SmartProperties initializer forwards anything to the super constructor it does not process itself. This is true for all positional arguments and those keyword arguments that do not correspond to a property. The example below demonstrates how Ruby's SimpleDelegator in conjunction with SmartProperties can be used to quickly construct a very flexible presenter.

class PersonPresenter < SimpleDelegator
  include SmartProperties
  property :name_formatter, accepts: Proc,
                            required: true,
                            default: lambda { |p| "#{p.firstname} #{p.lastname}" }

  def full_name
    name_formatter.call(self)
  end
end

person = OpenStruct.new(firstname: "John", lastname: "Doe")
presenter = PersonPresenter.new(person)
presenter.full_name # => "John Doe"

# Changing the format is easy
presenter.name_formatter = lambda { |p| "#{p.lastename}, #{p.firstname}" }
presenter.full_name # => "Doe, John"

Contributing

  1. Fork it
  2. Create your feature branch (git checkout -b my-new-feature)
  3. Commit your changes (git commit -am 'Added some feature')
  4. Push to the branch (git push origin my-new-feature)
  5. Create new Pull Request