README
¶
Container
GoLobby Container is a lightweight yet powerful IoC (dependency injection) container for Go projects. It's built neat, easy-to-use, and performance-in-mind to be your ultimate requirement.
Documentation
Required Go Versions
It requires Go v1.11 or newer versions.
Installation
To install this package, run the following command in your project directory.
go get github.com/golobby/container/v3
Introduction
GoLobby Container is used to bind abstractions to their implementations. Binding is the process of introducing appropriate concretes (implementations) of abstractions to an IoC container. In this process, you also determine the resolving type, singleton or transient. In singleton bindings, the container provides an instance once and returns it for all the requests. In transient bindings, the container always returns a brand-new instance for each request. After the binding process, you can ask the IoC container to make the appropriate implementation of the abstraction that your code needs. Then your code will depend on abstractions, not implementations!
Quick Start
The following example demonstrates a simple binding and resolving.
// Bind Config interface to JsonConfig struct
err := container.Singleton(func() Config {
return &JsonConfig{...}
})
var c Config
err := container.Resolve(&c)
// `c` will be the instance of JsonConfig
Typed Binding
Singleton
The following snippet expresses singleton binding.
err := container.Singleton(func() Abstraction {
return Implementation
})
// If you might return an error...
err := container.Singleton(func() (Abstraction, error) {
return Implementation, nil
})
It takes a resolver (function) whose return type is the abstraction and the function body returns the concrete (implementation).
The example below shows a singleton binding.
err := container.Singleton(func() Database {
return &MySQL{}
})
Transient
The example below shows a transient binding.
err := container.Transient(func() Shape {
return &Rectangle{}
})
Named Bindings
You may have different concretes for an abstraction. In this case, you can use named bindings instead of typed bindings. Named bindings take the dependency name into account as well. The rest is similar to typed bindings. The following examples demonstrate some named bindings.
// Singleton
err := container.NamedSingleton("square" func() Shape {
return &Rectangle{}
})
err := container.NamedSingleton("rounded" func() Shape {
return &Circle{}
})
// Transient
err := container.NamedTransient("sql" func() Database {
return &MySQL{}
})
err := container.NamedTransient("noSql" func() Database {
return &MongoDB{}
})
Resolver Errors
The process of creating concrete (resolving) might face an error. In this case, you can return the error as the second return value like the example below.
err := container.Transient(func() (Shape, error) {
return nil, errors.New("my-app: cannot create a Shaple implementation")
})
It could be applied to other binding types.
Resolving
Container resolves the dependencies with the Resolve(), Call(), and Fill() methods.
Using References
The Resolve() method takes reference of the abstraction type and fills it with the appropriate concrete.
var a Abstraction
err := container.Resolve(&a)
// `a` will be an implementation of the Abstraction
Example of resolving using references:
var m Mailer
err := container.Resolve(&m)
// `m` will be an implementation of the Mailer interface
m.Send("contact@miladrahimi.com", "Hello Milad!")
Example of named-resolving using references:
var s Shape
err := container.NamedResolve(&s, "rounded")
// `s` will be an implementation of the Shape that named rounded
Using Closures
The Call() method takes a receiver (function) with arguments of abstractions you need.
It calls it with parameters of appropriate concretes.
err := container.Call(func(a Abstraction) {
// `a` will be an implementation of the Abstraction
})
Example of resolving using closures:
err := container.Call(func(db Database) {
// `db` will be an implementation of the Database interface
db.Query("...")
})
You can also resolve multiple abstractions like the following example:
err := container.Call(func(db Database, s Shape) {
db.Query("...")
s.Area()
})
Caution: The Call() method does not support named bindings.
Using Structs
The Fill() method takes a struct (pointer) and resolves its fields.
The example below expresses how the Fill() method works.
type App struct {
mailer Mailer `container:"type"`
sql Database `container:"name"`
noSql Database `container:"name"`
x int
}
myApp := App{}
err := container.Fill(&myApp)
// [Typed Bindings]
// `myApp.mailer` will be an implementation of the Mailer interface
// [Named Bindings]
// `myApp.sql` will be a sql implementation of the Database interface
// `myApp.noSql` will be a noSql implementation of the Database interface
// `myApp.x` will be ignored since it has no `container` tag
Binding time
You can resolve dependencies at the binding time if you need previous dependencies for the new one.
The following example shows resolving dependencies at binding time.
// Bind Config to JsonConfig
err := container.Singleton(func() Config {
return &JsonConfig{...}
})
// Bind Database to MySQL
err := container.Singleton(func(c Config) Database {
// `c` will be an instance of `JsonConfig`
return &MySQL{
Username: c.Get("DB_USERNAME"),
Password: c.Get("DB_PASSWORD"),
}
})
Standalone Instance
By default, the Container keeps your bindings in the global instance. Sometimes you may want to create a standalone instance for a part of your application. If so, create a standalone instance like the example below.
c := container.New()
err := c.Singleton(func() Database {
return &MySQL{}
})
err := c.Call(func(db Database) {
db.Query("...")
})
The rest stays the same. The global container is still available.
Performance
The package Container inevitably uses reflection for binding and resolving processes. If performance is a concern, try to bind and resolve the dependencies where it runs only once, like the main and init functions.
License
GoLobby Container is released under the MIT License.
Documentation
¶
Overview ¶
Package container is a lightweight yet powerful IoC container for Go projects. It provides an easy-to-use interface and performance-in-mind container to be your ultimate requirement.
Index ¶
- func Call(receiver interface{}) error
- func Fill(receiver interface{}) error
- func NamedResolve(abstraction interface{}, name string) error
- func NamedSingleton(name string, resolver interface{}) error
- func NamedTransient(name string, resolver interface{}) error
- func Reset()
- func Resolve(abstraction interface{}) error
- func Singleton(resolver interface{}) error
- func Transient(resolver interface{}) error
- type Container
- func (c Container) Call(function interface{}) error
- func (c Container) Fill(structure interface{}) error
- func (c Container) NamedResolve(abstraction interface{}, name string) error
- func (c Container) NamedSingleton(name string, resolver interface{}) error
- func (c Container) NamedTransient(name string, resolver interface{}) error
- func (c Container) Reset()
- func (c Container) Resolve(abstraction interface{}) error
- func (c Container) Singleton(resolver interface{}) error
- func (c Container) Transient(resolver interface{}) error
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func Call ¶
func Call(receiver interface{}) error
Call takes a function (receiver) with one or more arguments of the abstractions (interfaces). It invokes the function (receiver) and passes the related implementations.
func Fill ¶
func Fill(receiver interface{}) error
Fill takes a struct and resolves the fields with the tag `container:"inject"`
func NamedResolve ¶
NamedResolve resolves like the Resolve method but for named bindings.
func NamedSingleton ¶
NamedSingleton binds like the Singleton method but for named bindings.
func NamedTransient ¶
NamedTransient binds like the Transient method but for named bindings.
func Reset ¶
func Reset()
Reset deletes all the existing bindings and empties the container instance.
func Resolve ¶
func Resolve(abstraction interface{}) error
Resolve takes an abstraction (interface reference) and fills it with the related implementation.
func Singleton ¶
func Singleton(resolver interface{}) error
Singleton binds an abstraction to concrete for further singleton resolves. It takes a resolver function that returns the concrete, and its return type matches the abstraction (interface). The resolver function can have arguments of abstraction that have been declared in the Container already.
func Transient ¶
func Transient(resolver interface{}) error
Transient binds an abstraction to concrete for further transient resolves. It takes a resolver function that returns the concrete, and its return type matches the abstraction (interface). The resolver function can have arguments of abstraction that have been declared in the Container already.
Types ¶
type Container ¶ added in v3.1.4
Container holds all of the declared bindings
func (Container) Call ¶ added in v3.1.4
Call takes a function (receiver) with one or more arguments of the abstractions (interfaces). It invokes the function (receiver) and passes the related implementations.
func (Container) Fill ¶ added in v3.1.4
Fill takes a struct and resolves the fields with the tag `container:"inject"`
func (Container) NamedResolve ¶ added in v3.1.4
NamedResolve resolves like the Resolve method but for named bindings.
func (Container) NamedSingleton ¶ added in v3.1.4
NamedSingleton binds like the Singleton method but for named bindings.
func (Container) NamedTransient ¶ added in v3.1.4
NamedTransient binds like the Transient method but for named bindings.
func (Container) Reset ¶ added in v3.1.4
func (c Container) Reset()
Reset deletes all the existing bindings and empties the container instance.
func (Container) Resolve ¶ added in v3.1.4
Resolve takes an abstraction (interface reference) and fills it with the related implementation.
func (Container) Singleton ¶ added in v3.1.4
Singleton binds an abstraction to concrete for further singleton resolves. It takes a resolver function that returns the concrete, and its return type matches the abstraction (interface). The resolver function can have arguments of abstraction that have been declared in the Container already.
func (Container) Transient ¶ added in v3.1.4
Transient binds an abstraction to concrete for further transient resolves. It takes a resolver function that returns the concrete, and its return type matches the abstraction (interface). The resolver function can have arguments of abstraction that have been declared in the Container already.
Source Files