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A tiny Dependency Injection container for Go without reflection or code generation

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IziDIC

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Description

Package izidic defines a tiny dependency injection container for Go projects, inspired by the Pimple DIC for PHP.

That container can hold two different kinds of data:

  • parameters, which are mutable data without any dependency;
  • services, which are functions returning a typed object providing a feature, and may depend on other services and parameters.

The basic feature is that storing service definitions does not create instances, allowing users to store definitions of services requiring other services, before those are actually defined.

Notice that parameters do not need to be primitive types. For instance, most applications are likely to store a stdout object with value os.Stdout.

Unlike heavyweights like google/wire or uber/zap, it works as a single step, explicit process, without reflection or code generation, to keep everything in sight.

Usage

Setup and use

Step Code examples
Import the package import "github.com/fgm/izidic"
Initialize a container dic := izidic.New()
Store parameters in the DIC dic.Store("executable", os.Args[0])
Register services with the DIC dic.Register("logger", loggerService)
Freeze the container dic.Freeze()
Read a parameter from the DIC p, err := dic.Param(name)
Get a service instance from the DIC s, err := dic.Service(name)

Freezing applies once all parameters and services are stored and registered, and enables concurrent access to the container.

Defining parameters

Parameters can be any value type. They can be stored in the container in any order.

Writing services

Services like loggerService in the previous example are instances ot the Service type, which is defined as:

type Service func(Container) (any, error)

  • Services can reference any other service and parameters from the container, to return the instance they build. The only restriction is that cycles are not supported.
  • Like parameters, services can be registered in any order on the container, so feel free to order the registrations in alphabetical order for readability.
  • Services are lazily instantiated on the first actual use: subsequent references will reuse the same instance. This means that the service function is a good place to perform one-time operations needed for configuration related to the service, like initializing the default log logger while building a logger service with log.SetOutput().

Accessing the container

  • Parameter access: s, err := dic.Param("name")
    • Check the error against nil
    • Type-assert the parameter value: name, ok := s.(string)
    • Or use shortcut: name := dic.MustParam("name").(string)
  • Service access: s, err := dic.Service("logger")
    • Check the error against nil
    • Type-assert the service instance value: logger, ok := s.(*log.Logger)
    • Or use shortcut: logger := dic.MustService("logger").(*log.Logger)

Best practices

Create a simpler developer experience

One limitation of having Container.(Must)Param() and Container.(Must)Service() return untyped results as any is the need to type-assert results on every access.

To make this safer and better looking, a neat approach is to define an application container type wrapping an izidic.Container and adding fully typed facade methods as in this example:

package di

import (
	"io"
	"log"

	"github.com/fgm/izidic"
)

type Container struct {
	izidic.Container
}

// Logger is a typed service accessor.
func (c *Container) Logger() *log.Logger { 
	return c.MustService("logger").(*log.Logger)
}

// Name is a types parameter accessor.
func (c *Container) Name() string {
	return c.MustParam("name").(string)
}

// loggerService is an izidic.Service also containing a one-time initialization action.
func loggerService(dic izidic.Container) (any, error) {
	w := dic.MustParam("writer").(io.Writer)
	log.SetOutput(w) // Support dependency code not taking an injected logger. 
	logger := log.New(w, "", log.LstdFlags)
	return logger, nil
}

func appService(dic izidic.Container) (any, error) {
	wdic := Container{dic}  // wrapped container with typed accessors
	logger := wdic.Logger() // typed service instance
	name := wdic.Name()     // typed parameter value
	appFeature := makeAppFeature(name, logger)
	return appFeature, nil
}

func Resolve(w io.Writer, name string, args []string) izidic.Container {
	dic := izidic.New()
	dic.Store("name", name)
	dic.Store("writer", w)
	dic.Register("logger", loggerService)
	dic.Register("app", appService)
	// others...
	dic.Freeze()
	return dic
}

These accessors will be useful when defining services, as in appService above, or in the boot sequence, which typically needs at least a logger and one or more application-domain service instances.

Create the container in a Resolve function

The cleanest way to initialize a container is to have the project contain an function, conventionally called Resolve, which takes all globals used in the project, and returns an instance of the custom container type defined above, as in examples/di/di.go.

Do not pass the container

Passing the container to application code, although it works, defines the "service locator" anti-pattern.

Because the container is a complex object with variable contents, code receiving the container is hard to test. That is the reason why receiving it is typically limited to izidic.Service functions, which are simple-minded initializers that do not need testing.

Instead, in the service providing a given feature, use something like appService:

  • obtain values from the container
  • pass them to a domain-level factory receiving exactly the typed arguments it needs and nothing more.

In most cases, the value obtained thus will be a struct or a func, ready to be used without further data from the container.

See a complete demo in examples/demo.go.