status-go/vendor/go.uber.org/fx/decorate.go

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// Copyright (c) 2022 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 (
"fmt"
"reflect"
"strings"
"go.uber.org/dig"
"go.uber.org/fx/internal/fxreflect"
)
// Decorate specifies one or more decorator functions to an Fx application.
//
// # Decorator functions
//
// Decorator functions let users augment objects in the graph.
// They can take in zero or more dependencies that must be provided to the
// application with fx.Provide, and produce one or more values that can be used
// by other fx.Provide and fx.Invoke calls.
//
// fx.Decorate(func(log *zap.Logger) *zap.Logger {
// return log.Named("myapp")
// })
// fx.Invoke(func(log *zap.Logger) {
// log.Info("hello")
// // Output:
// // {"level": "info","logger":"myapp","msg":"hello"}
// })
//
// The following decorator accepts multiple dependencies from the graph,
// augments and returns one of them.
//
// fx.Decorate(func(log *zap.Logger, cfg *Config) *zap.Logger {
// return log.Named(cfg.Name)
// })
//
// Similar to fx.Provide, functions passed to fx.Decorate may optionally return
// an error as their last result.
// If a decorator returns a non-nil error, it will halt application startup.
//
// fx.Decorate(func(conn *sql.DB, cfg *Config) (*sql.DB, error) {
// if err := conn.Ping(); err != nil {
// return sql.Open("driver-name", cfg.FallbackDB)
// }
// return conn, nil
// })
//
// Decorators support both, fx.In and fx.Out structs, similar to fx.Provide and
// fx.Invoke.
//
// type Params struct {
// fx.In
//
// Client usersvc.Client `name:"readOnly"`
// }
//
// type Result struct {
// fx.Out
//
// Client usersvc.Client `name:"readOnly"`
// }
//
// fx.Decorate(func(p Params) Result {
// ...
// })
//
// Decorators can be annotated with the fx.Annotate function, but not with the
// fx.Annotated type. Refer to documentation on fx.Annotate() to learn how to
// use it for annotating functions.
//
// fx.Decorate(
// fx.Annotate(
// func(client usersvc.Client) usersvc.Client {
// // ...
// },
// fx.ParamTags(`name:"readOnly"`),
// fx.ResultTags(`name:"readOnly"`),
// ),
// )
//
// Decorators support augmenting, filtering, or replacing value groups.
// To decorate a value group, expect the entire value group slice and produce
// the new slice.
//
// type HandlerParam struct {
// fx.In
//
// Log *zap.Logger
// Handlers []Handler `group:"server"
// }
//
// type HandlerResult struct {
// fx.Out
//
// Handlers []Handler `group:"server"
// }
//
// fx.Decorate(func(p HandlerParam) HandlerResult {
// var r HandlerResult
// for _, handler := range p.Handlers {
// r.Handlers = append(r.Handlers, wrapWithLogger(p.Log, handler))
// }
// return r
// }),
//
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// Decorators can not add new values to the graph,
// only modify or replace existing ones.
// Types returned by a decorator that are not already in the graph
// will be ignored.
//
// # Decorator scope
//
// Modifications made to the Fx graph with fx.Decorate are scoped to the
// deepest fx.Module inside which the decorator was specified.
//
// fx.Module("mymodule",
// fx.Decorate(func(log *zap.Logger) *zap.Logger {
// return log.Named("myapp")
// }),
// fx.Invoke(func(log *zap.Logger) {
// log.Info("decorated logger")
// // Output:
// // {"level": "info","logger":"myapp","msg":"decorated logger"}
// }),
// ),
// fx.Invoke(func(log *zap.Logger) {
// log.Info("plain logger")
// // Output:
// // {"level": "info","msg":"plain logger"}
// }),
//
// Decorations specified in the top-level fx.New call apply across the
// application and chain with module-specific decorators.
//
// fx.New(
// // ...
// fx.Decorate(func(log *zap.Logger) *zap.Logger {
// return log.With(zap.Field("service", "myservice"))
// }),
// // ...
// fx.Invoke(func(log *zap.Logger) {
// log.Info("outer decorator")
// // Output:
// // {"level": "info","service":"myservice","msg":"outer decorator"}
// }),
// // ...
// fx.Module("mymodule",
// fx.Decorate(func(log *zap.Logger) *zap.Logger {
// return log.Named("myapp")
// }),
// fx.Invoke(func(log *zap.Logger) {
// log.Info("inner decorator")
// // Output:
// // {"level": "info","logger":"myapp","service":"myservice","msg":"inner decorator"}
// }),
// ),
// )
func Decorate(decorators ...interface{}) Option {
return decorateOption{
Targets: decorators,
Stack: fxreflect.CallerStack(1, 0),
}
}
type decorateOption struct {
Targets []interface{}
Stack fxreflect.Stack
}
func (o decorateOption) apply(mod *module) {
for _, target := range o.Targets {
mod.decorators = append(mod.decorators, decorator{
Target: target,
Stack: o.Stack,
})
}
}
func (o decorateOption) String() string {
items := make([]string, len(o.Targets))
for i, f := range o.Targets {
items[i] = fxreflect.FuncName(f)
}
return fmt.Sprintf("fx.Decorate(%s)", strings.Join(items, ", "))
}
// decorator is a single decorator used in Fx.
type decorator struct {
// Decorator provided to Fx.
Target interface{}
// Stack trace of where this provide was made.
Stack fxreflect.Stack
// Whether this decorator was specified via fx.Replace
IsReplace bool
ReplaceType reflect.Type // set only if IsReplace
}
func runDecorator(c container, d decorator, opts ...dig.DecorateOption) (err error) {
decorator := d.Target
defer func() {
if err != nil {
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err = fmt.Errorf("fx.Decorate(%v) from:\n%+vFailed: %w", decorator, d.Stack, err)
}
}()
switch decorator := decorator.(type) {
case annotated:
if dcor, derr := decorator.Build(); derr == nil {
err = c.Decorate(dcor, opts...)
}
default:
err = c.Decorate(decorator, opts...)
}
return
}