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main.go
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main.go
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package main
import (
"fmt"
"strings"
"github.com/kataras/iris"
"github.com/kataras/iris/context"
"github.com/kataras/iris/hero"
// External package to optionally filter JSON responses before sent,
// see `sendJSON` for more.
"github.com/jmespath/go-jmespath"
)
/*
$ go get github.com/jmespath/go-jmespath
*/
func newApp() *iris.Application {
app := iris.New()
// PartyFunc is the same as usersRouter := app.Party("/users")
// but it gives us an easy way to call router's registration functions,
// i.e functions from another package that can handle this group of routes.
app.PartyFunc("/users", registerUsersRoutes)
return app
}
func main() {
app := newApp()
// http://localhost:8080/users?query=[?Name == 'John Doe'].Age
// <- client will receive the age of a user which his name is "John Doe".
// You can also test query=[0].Name to retrieve the first user's name.
// Or even query=[0:3].Age to print the first three ages.
// Learn more about jmespath and how to filter:
// http://jmespath.readthedocs.io/en/latest/ and
// https://github.com/jmespath/go-jmespath/tree/master/fuzz/testdata
//
// http://localhost:8080/users
// http://localhost:8080/users/William%20Woe
// http://localhost:8080/users/William%20Woe/age
app.Run(iris.Addr(":8080"))
}
/*
START OF USERS ROUTER
*/
func registerUsersRoutes(usersRouter iris.Party) {
// GET: /users
usersRouter.Get("/", getAllUsersHandler)
usersRouter.PartyFunc("/{name:string}", registerUserRoutes)
}
type user struct {
Name string `json:"name"`
Age int `json:"age"`
}
var usersSample = []*user{
{"William Woe", 25},
{"Mary Moe", 15},
{"John Doe", 17},
}
func getAllUsersHandler(ctx iris.Context) {
err := sendJSON(ctx, usersSample)
if err != nil {
fail(ctx, iris.StatusInternalServerError, "unable to send a list of all users: %v", err)
return
}
}
/*
START OF USERS.USER SUB ROUTER
*/
func registerUserRoutes(userRouter iris.Party) {
// create a new dependency injection manager for this sub router.
userDeps := hero.New()
// you can also use the global/package-level hero.Register(userDependency) as we have already learned in other examples.
userDeps.Register(userDependency)
// GET: /users/{name:string}
userRouter.Get("/", userDeps.Handler(getUserHandler))
// GET: /users/{name:string}/age
userRouter.Get("/age", userDeps.Handler(getUserAgeHandler))
}
var userDependency = func(ctx iris.Context) *user {
name := strings.Title(ctx.Params().Get("name"))
for _, u := range usersSample {
if u.Name == name {
return u
}
}
// you may want or no to handle the error here, either way the main route handler
// is going to be executed, always. A dynamic dependency(per-request) is not a middleware, so things like `ctx.Next()` or `ctx.StopExecution()`
// do not apply here, look the `getUserHandler`'s first lines; we stop/exit the handler manually
// if the received user is nil but depending on your app's needs, it is possible to do other things too.
// A dynamic dependency like this can return more output values, i.e (*user, bool).
fail(ctx, iris.StatusNotFound, "user with name '%s' not found", name)
return nil
}
func getUserHandler(ctx iris.Context, u *user) {
if u == nil {
return
}
sendJSON(ctx, u)
}
func getUserAgeHandler(ctx iris.Context, u *user) {
if u == nil {
return
}
ctx.Writef("%d", u.Age)
}
/* Remember, with 'hero' you get mvc-like functions, so this can work too:
func getUserAgeHandler(u *user) string {
if u == nil {
return ""
}
return fmt.Sprintf("%d", u.Age)
}
*/
/* END OF USERS.USER SUB ROUTER */
/* END OF USERS ROUTER */
// common JSON response for manual HTTP errors, optionally.
type httpError struct {
Code int `json:"code"`
Reason string `json:"reason"`
}
func (h httpError) Error() string {
return fmt.Sprintf("Status Code: %d\nReason: %s", h.Code, h.Reason)
}
func fail(ctx iris.Context, statusCode int, format string, a ...interface{}) {
err := httpError{
Code: statusCode,
Reason: fmt.Sprintf(format, a...),
}
// log all the >= 500 internal errors.
if statusCode >= 500 {
ctx.Application().Logger().Error(err)
}
ctx.StatusCode(statusCode)
ctx.JSON(err)
// no next handlers will run.
ctx.StopExecution()
}
// JSON helper to give end-user the ability to put indention chars or filtering the response, you can do that, optionally.
// If you'd like to see that function inside the Iris' Context itself raise a [Feature Request] issue and link this example.
func sendJSON(ctx iris.Context, resp interface{}) (err error) {
indent := ctx.URLParamDefault("indent", " ")
// i.e [?Name == 'John Doe'].Age # to output the [age] of a user which his name is "John Doe".
if query := ctx.URLParam("query"); query != "" && query != "[]" {
resp, err = jmespath.Search(query, resp)
if err != nil {
return
}
}
_, err = ctx.JSON(resp, context.JSON{Indent: indent, UnescapeHTML: true})
return err
}