Home Backend Development C++ How Can I Effectively Manage Excessive Dependencies in a Parameterized Factory Method?

How Can I Effectively Manage Excessive Dependencies in a Parameterized Factory Method?

Jan 21, 2025 am 01:32 AM

How Can I Effectively Manage Excessive Dependencies in a Parameterized Factory Method?

Factory method using dependency injection and control inversion

You are familiar with factory methods and the dependency injection (DI) pattern, but need guidance for the specific case of a large number of dependencies in a parameterized factory method.

Problem: Over-reliance on parameterized factories

In your factory class, the constructor requires six dependencies, and each car instance created by the factory has a different set of dependencies. This makes the factory difficult to manage and introduces CreateCar statements in switch case methods.

Alternative methods

You proposed two alternatives: injecting the car instance directly into the factory constructor or using a service locator. However, these solutions each have their drawbacks. Injecting car instances violates factory design principles, and using service locators is generally discouraged.

Solution: Strategy Pattern for Dependency Injection

Instead of using switch case statements in factories, consider adopting the Strategy pattern for dependency injection. This pattern allows you to create multiple factory implementations, each dedicated to creating a specific type of car.

Implementation:

  1. Define interface: Introduce interfaces for ICarFactory and ICarStrategy. ICarFactory represents a factory used to create car instances, while ICarStrategy represents a collection of factories.
  2. Create Factory: Implement concrete factory classes for each type of car, such as Car1Factory and Car2Factory. These factories inject necessary dependencies through their constructors.
  3. Implementation Strategy: Create a CarStrategy class that implements ICarStrategy and contains an array of ICarFactory instances. The CarStrategy method in CreateCar iterates over the factories to find a factory that can create the requested car type.
  4. Usage: Inject CarStrategy instances into your code. You can then use the CreateCar method to instantiate the car instance without specifying the dependencies directly.

Advantages of Strategy Mode:

  • Eliminate switch case statements in factory methods
  • Allows easy addition of new car factories
  • Facilitates DI dependencies for each factory
  • Centralized location to support factory registration

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