/golang-runtime-di

a runtime dependency injection framework for golang.

Primary LanguageGoApache License 2.0Apache-2.0

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golang-runtime-di

description

golang-runtime-di is a framework for runtime dependency injection in go.

usage

quickstart

  • add it to your go.mod: go get github.com/dbsystel/golang-runtime-di
  • create your components (interfaces are encouraged):
    type Producer interface {}
    type Producer1 interface { A() }
    type Producer1Impl struct {}
    func (p *Producer1Impl) A() {}
    
    type Producer2 struct {}
    
    type Producer3 string
    
    type Consumer struct {
      Producer1 `inject:""`               // inject by interface 
      *Producer2 `inject:""`              // inject by ptr
      Producer3 `inject:""`               // inject by value
      AllProducers []Producer `inject:""` // inject all known coercible components
    }
  • create a new scope, register your components:
    scope := &di.Scope{}
    scope.MustRegister(&ProducerImpl1{})                                          // Component instance
    scope.MustRegister(func () *Producer2 { return &Producer2{} })                // Component factory
    scope.MustRegister(func () (Producer3, error) { return Producer3("a"), nil }) // Component factory with error
  • Wire the target components:
    consumer := &Consumer{} 
    // kindly note: 
    // - you must use ptr here
    // - wired instances are not automatically registered
    scope.MustWire(consumer)

the inject tag

The inject tag marks a struct field to be injected by the DI.

There are following options on the tag:

  • optional: marks the dependency to be optional. this will not create an error if the dependency is not found in scope.
  • qualifier=<xy>: use a qualifier to resolve the dependency. by default the qualifier is empty, thus only unqualified instances are selected.
  • qualifier=*: resolve the dependency from any qualifier

Options may be combined, e.g.: optional,qualifier=squash.

dependency injection

scoping

Each scope is isolated, but be aware that if you wire a struct multiple times in different scopes, the dependencies maybe replace by each wiring, depending on the scopes registrations.

qualifiers

Qualifiers can be used to use the same dependency type more than once, the default qualifier is empty ("").
Example:

scope.MustRegister(&Component{}).WithQualifier("yay")

priorities

Priorities can be used to allow overriding of components, lower numbers denote higher priorities.
Example:

// The following factory will not even be called, if the injection of Dependency is requested
scope.MustRegister(func () (*Dependency, error) { return nil, errors.New("meh") }).WithPriority(1)
// Note: priority is higher
scope.MustRegister(&Dependency{}).WithPriority(-1)

registrations and wiring

For the registrations in a scope the following rules apply:

  • matching the dependency fields and registered components will be done using reflection (Type.AssignableTo() and Type.Implements(), resp.)
  • if you are using factory functions, factories for registered components will only be called if necessary
  • wiring of the components will only happen once when the component is to be injected the first time.

component resolution

The component resolution for injection sticks by the following rules (imperatively applied):

  • select registrations which can be coerced to the fields type
  • select the registrations matching the qualifier (skipped if qualifier=*)
  • order by priority
  • if single dependency injection (not slice):
    • select highest priority (= lowest number)
    • error if there's more than a single candidate with that priority
  • if dependency is required (not optional):
    • error if no candidates found

examples

This project comes with tested examples:

License

This project is licensed under Apache License v2.0, which is included in the repository.

Contributions

Contributions are very welcome, please refer to the contribution guide.

Code of conduct

Our code of conduct can be found here.