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inout.go
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inout.go
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// Copyright (c) 2019 Uber Technologies, Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package fx
import "go.uber.org/dig"
// In can be embedded in a constructor's parameter struct to take advantage of
// advanced dependency injection features.
//
// Modules should take a single parameter struct that embeds an In in order to
// provide a forward-compatible API: since adding fields to a struct is
// backward-compatible, modules can then add optional dependencies in minor
// releases.
//
// # Parameter Structs
//
// Fx constructors declare their dependencies as function parameters. This can
// quickly become unreadable if the constructor has a lot of dependencies.
//
// func NewHandler(users *UserGateway, comments *CommentGateway, posts *PostGateway, votes *VoteGateway, authz *AuthZGateway) *Handler {
// // ...
// }
//
// To improve the readability of constructors like this, create a struct that
// lists all the dependencies as fields and change the function to accept that
// struct instead. The new struct is called a parameter struct.
//
// Fx has first class support for parameter structs: any struct embedding
// fx.In gets treated as a parameter struct, so the individual fields in the
// struct are supplied via dependency injection. Using a parameter struct, we
// can make the constructor above much more readable:
//
// type HandlerParams struct {
// fx.In
//
// Users *UserGateway
// Comments *CommentGateway
// Posts *PostGateway
// Votes *VoteGateway
// AuthZ *AuthZGateway
// }
//
// func NewHandler(p HandlerParams) *Handler {
// // ...
// }
//
// Though it's rarely a good idea, constructors can receive any combination of
// parameter structs and parameters.
//
// func NewHandler(p HandlerParams, l *log.Logger) *Handler {
// // ...
// }
//
// # Optional Dependencies
//
// Constructors often have optional dependencies on some types: if those types are
// missing, they can operate in a degraded state. Fx supports optional
// dependencies via the `optional:"true"` tag to fields on parameter structs.
//
// type UserGatewayParams struct {
// fx.In
//
// Conn *sql.DB
// Cache *redis.Client `optional:"true"`
// }
//
// If an optional field isn't available in the container, the constructor
// receives the field's zero value.
//
// func NewUserGateway(p UserGatewayParams, log *log.Logger) (*UserGateway, error) {
// if p.Cache == nil {
// log.Print("Caching disabled")
// }
// // ...
// }
//
// Constructors that declare optional dependencies MUST gracefully handle
// situations in which those dependencies are absent.
//
// The optional tag also allows adding new dependencies without breaking
// existing consumers of the constructor.
//
// # Named Values
//
// Some use cases require the application container to hold multiple values of
// the same type. For details on producing named values, see the documentation
// for the Out type.
//
// Fx allows functions to consume named values via the `name:".."` tag on
// parameter structs. Note that both the name AND type of the fields on the
// parameter struct must match the corresponding result struct.
//
// type GatewayParams struct {
// fx.In
//
// WriteToConn *sql.DB `name:"rw"`
// ReadFromConn *sql.DB `name:"ro"`
// }
//
// The name tag may be combined with the optional tag to declare the
// dependency optional.
//
// type GatewayParams struct {
// fx.In
//
// WriteToConn *sql.DB `name:"rw"`
// ReadFromConn *sql.DB `name:"ro" optional:"true"`
// }
//
// func NewCommentGateway(p GatewayParams, log *log.Logger) (*CommentGateway, error) {
// if p.ReadFromConn == nil {
// log.Print("Warning: Using RW connection for reads")
// p.ReadFromConn = p.WriteToConn
// }
// // ...
// }
//
// # Value Groups
//
// To make it easier to produce and consume many values of the same type, Fx
// supports named, unordered collections called value groups. For details on
// producing value groups, see the documentation for the Out type.
//
// Functions can depend on a value group by requesting a slice tagged with
// `group:".."`. This will execute all constructors that provide a value to
// that group in an unspecified order, then collect all the results into a
// single slice. Keep in mind that this makes the types of the parameter and
// result struct fields different: if a group of constructors each returns
// type T, parameter structs consuming the group must use a field of type []T.
//
// type ServerParams struct {
// fx.In
//
// Handlers []Handler `group:"server"`
// }
//
// func NewServer(p ServerParams) *Server {
// server := newServer()
// for _, h := range p.Handlers {
// server.Register(h)
// }
// return server
// }
//
// Note that values in a value group are unordered. Fx makes no guarantees
// about the order in which these values will be produced.
//
// # Soft Value Groups
//
// A soft value group can be thought of as a best-attempt at populating the
// group with values from constructors that have already run. In other words,
// if a constructor's output type is only consumed by a soft value group,
// it will not be run.
//
// Note that Fx does not guarantee precise execution order of constructors
// or invokers, which means that the change in code that affects execution
// ordering of other constructors or functions will affect the values
// populated in this group.
//
// To declare a soft relationship between a group and its constructors, use
// the `soft` option on the group tag (`group:"[groupname],soft"`).
// This option is only valid for input parameters.
//
// type Params struct {
// fx.In
//
// Handlers []Handler `group:"server,soft"`
// Logger *zap.Logger
// }
//
// NewHandlerAndLogger := func() (Handler, *zap.Logger) { ... }
// NewHandler := func() Handler { ... }
// Foo := func(Params) { ... }
//
// app := fx.New(
// fx.Provide(fx.Annotate(NewHandlerAndLogger, fx.ResultTags(`group:"server"`))),
// fx.Provide(fx.Annotate(NewHandler, fx.ResultTags(`group::"server"`))),
// fx.Invoke(Foo),
// )
//
// The only constructor called is `NewHandlerAndLogger`, because this also provides
// `*zap.Logger` needed in the `Params` struct received by `Foo`. The Handlers
// group will be populated with a single Handler returned by `NewHandlerAndLogger`.
//
// In the next example, the slice `s` isn't populated as the provider would be
// called only because `strings` soft group value is its only consumer.
//
// app := fx.New(
// fx.Provide(
// fx.Annotate(
// func() (string, int) { return "hello", 42 },
// fx.ResultTags(`group:"strings"`),
// ),
// ),
// fx.Invoke(
// fx.Annotate(func(s []string) {
// // s will be an empty slice
// }, fx.ParamTags(`group:"strings,soft"`)),
// ),
// )
//
// In the next example, the slice `s` will be populated because there is a
// consumer for the same type which is not a `soft` dependency.
//
// app := fx.New(
// fx.Provide(
// fx.Annotate(
// func() string { "hello" },
// fx.ResultTags(`group:"strings"`),
// ),
// ),
// fx.Invoke(
// fx.Annotate(func(b []string) {
// // b is []string{"hello"}
// }, fx.ParamTags(`group:"strings"`)),
// ),
// fx.Invoke(
// fx.Annotate(func(s []string) {
// // s is []string{"hello"}
// }, fx.ParamTags(`group:"strings,soft"`)),
// ),
// )
//
// # Unexported fields
//
// By default, a type that embeds fx.In may not have any unexported fields. The
// following will return an error if used with Fx.
//
// type Params struct {
// fx.In
//
// Logger *zap.Logger
// mu sync.Mutex
// }
//
// If you have need of unexported fields on such a type, you may opt-into
// ignoring unexported fields by adding the ignore-unexported struct tag to the
// fx.In. For example,
//
// type Params struct {
// fx.In `ignore-unexported:"true"`
//
// Logger *zap.Logger
// mu sync.Mutex
// }
type In = dig.In
// Out is the inverse of In: it can be embedded in result structs to take
// advantage of advanced features.
//
// Modules should return a single result struct that embeds an Out in order to
// provide a forward-compatible API: since adding fields to a struct is
// backward-compatible, minor releases can provide additional types.
//
// # Result Structs
//
// Result structs are the inverse of parameter structs (discussed in the In
// documentation). These structs represent multiple outputs from a
// single function as fields. Fx treats all structs embedding fx.Out as result
// structs, so other constructors can rely on the result struct's fields
// directly.
//
// Without result structs, we sometimes have function definitions like this:
//
// func SetupGateways(conn *sql.DB) (*UserGateway, *CommentGateway, *PostGateway, error) {
// // ...
// }
//
// With result structs, we can make this both more readable and easier to
// modify in the future:
//
// type Gateways struct {
// fx.Out
//
// Users *UserGateway
// Comments *CommentGateway
// Posts *PostGateway
// }
//
// func SetupGateways(conn *sql.DB) (Gateways, error) {
// // ...
// }
//
// # Named Values
//
// Some use cases require the application container to hold multiple values of
// the same type. For details on consuming named values, see the documentation
// for the In type.
//
// A constructor that produces a result struct can tag any field with
// `name:".."` to have the corresponding value added to the graph under the
// specified name. An application may contain at most one unnamed value of a
// given type, but may contain any number of named values of the same type.
//
// type ConnectionResult struct {
// fx.Out
//
// ReadWrite *sql.DB `name:"rw"`
// ReadOnly *sql.DB `name:"ro"`
// }
//
// func ConnectToDatabase(...) (ConnectionResult, error) {
// // ...
// return ConnectionResult{ReadWrite: rw, ReadOnly: ro}, nil
// }
//
// # Value Groups
//
// To make it easier to produce and consume many values of the same type, Fx
// supports named, unordered collections called value groups. For details on
// consuming value groups, see the documentation for the In type.
//
// Constructors can send values into value groups by returning a result struct
// tagged with `group:".."`.
//
// type HandlerResult struct {
// fx.Out
//
// Handler Handler `group:"server"`
// }
//
// func NewHelloHandler() HandlerResult {
// // ...
// }
//
// func NewEchoHandler() HandlerResult {
// // ...
// }
//
// Any number of constructors may provide values to this named collection, but
// the ordering of the final collection is unspecified. Keep in mind that
// value groups require parameter and result structs to use fields with
// different types: if a group of constructors each returns type T, parameter
// structs consuming the group must use a field of type []T.
//
// To provide multiple values for a group from a result struct, produce a
// slice and use the `,flatten` option on the group tag. This indicates that
// each element in the slice should be injected into the group individually.
//
// type IntResult struct {
// fx.Out
//
// Handler []int `group:"server"` // Consume as [][]int
// Handler []int `group:"server,flatten"` // Consume as []int
// }
type Out = dig.Out