website/sl/sl.go

// The [sl] package has two main concepts, the [ServiceLocator] itself is the main object that one should pass around through the application. A [ServiceLocator] has a list of slots that can be filled with [InjectLazy] and [InjectValue] and retrieved with [Use]. As slots should be unique they can only be created with the [NewSlot] function.
//
// The usual way to use this module is to make slots for go interfaces and then pass implementations using the [InjectValue] and [InjectLazy] functions.
package sl

import (
	"fmt"
	"log"
	"os"
)

// Logger is the debug logger, in the future this will be disabled and discard by default.
//
// As this is the service locator module it was meaning less to pass this through the ServiceLocator itself (without making the whole module more complex)
var Logger *log.Logger = log.New(os.Stderr, "[sl]", log.LstdFlags)

// slot is just a "typed" unique "symbol".
type slot[T any] *struct{}

// NewSlot is the only way to create instances of the slot type. Each instance is unique.
//
// This then lets you attach a service instance of type "T" to a [ServiceLocator] object.
func NewSlot[T any]() slot[T] {
	return slot[T](new(struct{}))
}

// slotEntry represents a service that can lazily initialized (using "createFunc"). Once initialized the instance is kept in the "value" field. The field "typeName" just for debugging purposes.
type slotEntry struct {
	createFunc func(*ServiceLocator) (any, error)
	created    bool
	value      any

	typeName string
}

func (s *slotEntry) checkInitialized(l *ServiceLocator) error {
	if !s.created {
		v, err := s.createFunc(l)
		if err != nil {
			return err
		}

		Logger.Printf(`initialized lazy value of type %T for slot of type %s`, v, s.typeName)

		s.created = true
		s.value = v
	}

	return nil
}

// ServiceLocator is the main context passed around to retrive service instances, the interface uses generics so to inject and retrive service instances you should use the functions [InjectValue], [InjectLazy] and [Use].
type ServiceLocator struct {
	providers map[any]*slotEntry
}

// New creates a new [ServiceLocator] context to pass around in the application.
func New() *ServiceLocator {
	return &ServiceLocator{
		providers: map[any]*slotEntry{},
	}
}

// InjectValue will inject a concrete instance inside the ServiceLocator "l" for the given "slotKey". This should be used for injecting "static" services, for instances whose construction depend on other services you should use the [InjectLazy] function.
//
// This is generic over "T" to check that instances for the given slot type check as "T" can also be an interface.
func InjectValue[T any](l *ServiceLocator, slotKey slot[T], value T) T {
	Logger.Printf(`injected value of type %T for slot of type %s`, value, getTypeName[T]())

	l.providers[slotKey] = &slotEntry{
		nil,
		true,
		value,
		getTypeName[T](),
	}
	return value
}

// InjectLazy will inject an instance inside the given ServiceLocator and "slotKey" that is created only when requested with a call to the [Use] function.
//
// This is generic over "T" to check that instances for the given slot type check as "T" can also be an interface.
func InjectLazy[T any](l *ServiceLocator, slotKey slot[T], createFunc func(*ServiceLocator) (T, error)) {
	Logger.Printf(`injected lazy for slot of type %s`, getTypeName[T]())

	l.providers[slotKey] = &slotEntry{
		createFunc: func(l *ServiceLocator) (any, error) {
			return createFunc(l)
		},
		created:  false,
		value:    nil,
		typeName: getTypeName[T](),
	}
}

// Use retrieves the value of type T associated with the given slot key from the provided ServiceLocator instance.
//
// If the ServiceLocator does not have a value for the slot key, or if the value wasn't correctly initialized (in the case of a lazy slot), an error is returned.
func Use[T any](l *ServiceLocator, slotKey slot[T]) (T, error) {
	var zero T

	slot, ok := l.providers[slotKey]
	if !ok {
		return zero, fmt.Errorf(`no injected value for type %s`, getTypeName[T]())
	}

	err := slot.checkInitialized(l)
	if err != nil {
		return zero, err
	}

	v := slot.value.(T)

	Logger.Printf(`using slot of type %s with value of type %T`, getTypeName[T](), v)
	return v, nil
}

// getTypeName is a trick to get the name of a type (even if it is an interface type)
func getTypeName[T any]() string {
	var zero T
	return fmt.Sprintf(`%T`, &zero)[1:]
}
fix: updated project name and sl documentation 2 years ago			`// The [sl] package has two main concepts, the [ServiceLocator] itself is the main object that one should pass around through the application. A [ServiceLocator] has a list of slots that can be filled with [InjectLazy] and [InjectValue] and retrieved with [Use]. As slots should be unique they can only be created with the [NewSlot] function.`
			`//`
			`// The usual way to use this module is to make slots for go interfaces and then pass implementations using the [InjectValue] and [InjectLazy] functions.`
initial commit 2 years ago			`package sl`

			`import (`
			`"fmt"`
			`"log"`
fix: updated project name and sl documentation 2 years ago			`"os"`
initial commit 2 years ago			`)`

fix: updated project name and sl documentation 2 years ago			`// Logger is the debug logger, in the future this will be disabled and discard by default.`
			`//`
			`// As this is the service locator module it was meaning less to pass this through the ServiceLocator itself (without making the whole module more complex)`
			`var Logger *log.Logger = log.New(os.Stderr, "[sl]", log.LstdFlags)`
initial commit 2 years ago
fix: updated project name and sl documentation 2 years ago			`// slot is just a "typed" unique "symbol".`
			`type slot[T any] *struct{}`

			`// NewSlot is the only way to create instances of the slot type. Each instance is unique.`
			`//`
			`// This then lets you attach a service instance of type "T" to a [ServiceLocator] object.`
			`func NewSlot[T any]() slot[T] {`
			`return slot[T](new(struct{}))`
initial commit 2 years ago			`}`

fix: updated project name and sl documentation 2 years ago			`// slotEntry represents a service that can lazily initialized (using "createFunc"). Once initialized the instance is kept in the "value" field. The field "typeName" just for debugging purposes.`
			`type slotEntry struct {`
refactor: new (simpler) version of the sl library 2 years ago			`createFunc func(*ServiceLocator) (any, error)`
			`created bool`
			`value any`

fix: updated project name and sl documentation 2 years ago			`typeName string`
initial commit 2 years ago			`}`

fix: updated project name and sl documentation 2 years ago			`func (s slotEntry) checkInitialized(l ServiceLocator) error {`
refactor: new (simpler) version of the sl library 2 years ago			`if !s.created {`
			`v, err := s.createFunc(l)`
			`if err != nil {`
			`return err`
			`}`

fix: updated project name and sl documentation 2 years ago			Logger.Printf(`initialized lazy value of type %T for slot of type %s`, v, s.typeName)
refactor: new (simpler) version of the sl library 2 years ago
feat: ora funge tutto benissimo per qualche motivo 2 years ago			`s.created = true`
refactor: new (simpler) version of the sl library 2 years ago			`s.value = v`
initial commit 2 years ago			`}`

refactor: new (simpler) version of the sl library 2 years ago			`return nil`
initial commit 2 years ago			`}`

fix: updated project name and sl documentation 2 years ago			`// ServiceLocator is the main context passed around to retrive service instances, the interface uses generics so to inject and retrive service instances you should use the functions [InjectValue], [InjectLazy] and [Use].`
refactor: new (simpler) version of the sl library 2 years ago			`type ServiceLocator struct {`
fix: updated project name and sl documentation 2 years ago			`providers map[any]*slotEntry`
refactor: new (simpler) version of the sl library 2 years ago			`}`
initial commit 2 years ago
fix: updated project name and sl documentation 2 years ago			`// New creates a new [ServiceLocator] context to pass around in the application.`
refactor: new (simpler) version of the sl library 2 years ago			`func New() *ServiceLocator {`
			`return &ServiceLocator{`
fix: updated project name and sl documentation 2 years ago			`providers: map[any]*slotEntry{},`
refactor: new (simpler) version of the sl library 2 years ago			`}`
initial commit 2 years ago			`}`

fix: updated project name and sl documentation 2 years ago			`// InjectValue will inject a concrete instance inside the ServiceLocator "l" for the given "slotKey". This should be used for injecting "static" services, for instances whose construction depend on other services you should use the [InjectLazy] function.`
			`//`
			`// This is generic over "T" to check that instances for the given slot type check as "T" can also be an interface.`
			`func InjectValue[T any](l *ServiceLocator, slotKey slot[T], value T) T {`
			Logger.Printf(`injected value of type %T for slot of type %s`, value, getTypeName[T]())
initial commit 2 years ago
fix: updated project name and sl documentation 2 years ago			`l.providers[slotKey] = &slotEntry{`
feat: ora funge tutto benissimo per qualche motivo 2 years ago			`nil,`
			`true,`
			`value,`
			`getTypeName[T](),`
			`}`
initial commit 2 years ago			`return value`
			`}`

fix: updated project name and sl documentation 2 years ago			`// InjectLazy will inject an instance inside the given ServiceLocator and "slotKey" that is created only when requested with a call to the [Use] function.`
			`//`
			`// This is generic over "T" to check that instances for the given slot type check as "T" can also be an interface.`
			`func InjectLazy[T any](l ServiceLocator, slotKey slot[T], createFunc func(ServiceLocator) (T, error)) {`
			Logger.Printf(`injected lazy for slot of type %s`, getTypeName[T]())
refactor: new (simpler) version of the sl library 2 years ago
fix: updated project name and sl documentation 2 years ago			`l.providers[slotKey] = &slotEntry{`
refactor: new (simpler) version of the sl library 2 years ago			`createFunc: func(l *ServiceLocator) (any, error) {`
			`return createFunc(l)`
			`},`
fix: updated project name and sl documentation 2 years ago			`created: false,`
			`value: nil,`
			`typeName: getTypeName[T](),`
initial commit 2 years ago			`}`
refactor: new (simpler) version of the sl library 2 years ago			`}`

fix: updated project name and sl documentation 2 years ago			`// Use retrieves the value of type T associated with the given slot key from the provided ServiceLocator instance.`
			`//`
			`// If the ServiceLocator does not have a value for the slot key, or if the value wasn't correctly initialized (in the case of a lazy slot), an error is returned.`
			`func Use[T any](l *ServiceLocator, slotKey slot[T]) (T, error) {`
refactor: new (simpler) version of the sl library 2 years ago			`var zero T`
initial commit 2 years ago
refactor: new (simpler) version of the sl library 2 years ago			`slot, ok := l.providers[slotKey]`
			`if !ok {`
			return zero, fmt.Errorf(`no injected value for type %s`, getTypeName[T]())
initial commit 2 years ago			`}`

refactor: new (simpler) version of the sl library 2 years ago			`err := slot.checkInitialized(l)`
			`if err != nil {`
initial commit 2 years ago			`return zero, err`
			`}`

refactor: new (simpler) version of the sl library 2 years ago			`v := slot.value.(T)`

fix: updated project name and sl documentation 2 years ago			Logger.Printf(`using slot of type %s with value of type %T`, getTypeName[T](), v)
refactor: new (simpler) version of the sl library 2 years ago			`return v, nil`
			`}`

fix: updated project name and sl documentation 2 years ago			`// getTypeName is a trick to get the name of a type (even if it is an interface type)`
refactor: new (simpler) version of the sl library 2 years ago			`func getTypeName[T any]() string {`
			`var zero T`
			return fmt.Sprintf(`%T`, &zero)[1:]
initial commit 2 years ago			`}`