syringe

A simple and basic dependency injection shard for crystal
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Bonemind/syringe
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Subhi Dweik

Syringe

Build Status

A simple and basic dependency injection shard for crystal

Installation

Add this to your application's shard.yml:

dependencies:
  syringe:
    github: Bonemind/syringe

Usage

Use case

Syringe attempts to provide dependency injection for crystal. This allows a class to define a type it expects an instance of, without having to add it when constructing the class for example, instead, an instance gets provided automatically when a class is instantiated.

This allows you to decouple implementation from interface and manage your dependencies in a more flexible way. If a class expects a DbClient for example, you could automatically inject a TestDbClient when running tests, while inserting your PostgresDbClient in other environments. This can be achieved without the rest of your code being any wiser.

# spec_helper.cr
class TestDbClient : DbClient
end

Syring.injectable(TestDbClient)

# main.cr
Syring.injectable(PostgresDbClient)

# foo_controller.cr
class FooController
  include Syringe

  def initialize(@db_client : DbClient)
  end
end

Code

require "syringe"

The basic idea behind syringe is that on one hand, you tell the module what instances can be injected, and on the other hand, register classes that need to have things injected into them (these can then be injected somewhere else).

To mark classes for injection, you have one of two options:

require "syringe"

class A
  Syringe.injectable
end

class B
end

Syringe.injectable(B)

Now Syringe is aware of these classes and you can inject them somewhere else in your application. To mark a class as syringe-injected you can either include Syringe in the class, or wrap the class, both of which generate a new method that provides the instances as requested by the initialize function:

class C
  include Syringe

  def initialize(@a : A, @boo : B)
  end
end

class D
  def initialize(@c : C)
  end
end

Syringe.wrap(D)

C.new # will now have an instance of A as @a and B as @boo

D.new # will have an instance of C with C having A and B instances

If you need more control of how the dependencies are instantiated, you can mark providers for certain classes which will be used when a class is requested. This class has to implement a getInstance class method that returns an instance of the provided class.

class T
  def new(@i_num : Int32)
  end
end

class TProvider
  Syringe.provide(T)
  @@i_num = 0

  def getInstance
    @@i_num = @@i_num + 1
    return T.new(@@i_num)
  end
end

class Q
  def initialize(@t : T)
  end
end

Syringe.wrap(Q)

q = Q.new # t.i_num will be 1
q2 = Q.new # t.i_num will be 2

If you want to inject an array of descendants you can specify Array(T) as the argument type

module Animal
  abstract def say(sentence : string)
end

class Animals
  include Syringe
  def initialize(@animals : Array(Animal)
  end

  def say(sentence : string)
    @animals.each do |animal|
      animal.say(sentence)
    end
  end
end

class Dog
  Syringe.injectable
  include Animal

  def say(sentence : string)
    puts "Woof! #{sentence}"
  end
end

class Cat
  Syringe.injectable
  include Animal

  def say(sentence : string)
    puts "Meow! #{sentence}"
  end
end

animals = Animals.new
animals.say("Hi")

This would output

Woof! Hi
Meow! Hi

Development

Syringe has no external dependencies, so simply clone the repository and get started. Tests can be run by:

crystal spec

Contributing

  1. Fork it (https://github.com/Bonemind/syringe/fork)
  2. Create your feature branch (git checkout -b my-new-feature)
  3. Commit your changes (git commit -am 'Add some feature')
  4. Push to the branch (git push origin my-new-feature)
  5. Create a new Pull Request

Contributors

syringe:
  github: Bonemind/syringe
  
License MIT
Crystal 0.29.0

Authors

Dependencies 0

Development Dependencies 0

Dependents 0

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