package view
import (
"fmt"
"io"
"io/fs"
"os"
"path/filepath"
"reflect"
"strings"
"sync"
"github.com/kataras/iris/v12/context"
"github.com/CloudyKit/jet/v6"
)
const jetEngineName = "jet"
// JetEngine is the jet template parser's view engine.
type JetEngine struct {
fs fs.FS
rootDir string
extension string
left, right string
loader jet.Loader
developmentMode bool
// The Set is the `*jet.Set`, exported to offer any custom capabilities that jet users may want.
// Available after `Load`.
Set *jet.Set
mu sync.Mutex
// Note that global vars and functions are set in a single spot on the jet parser.
// If AddFunc or AddVar called before `Load` then these will be set here to be used via `Load` and clear.
vars map[string]interface{}
jetDataContextKey string
}
var (
_ Engine = (*JetEngine)(nil)
_ EngineFuncer = (*JetEngine)(nil)
)
// jet library does not export or give us any option to modify them via Set
// (unless we parse the files by ourselves but this is not a smart choice).
var jetExtensions = [...]string{
".html.jet",
".jet.html",
".jet",
}
// Jet creates and returns a new jet view engine.
// The given "extension" MUST begin with a dot.
//
// Usage:
// Jet("./views", ".jet") or
// Jet(iris.Dir("./views"), ".jet") or
// Jet(embed.FS, ".jet") or Jet(AssetFile(), ".jet") for embedded data.
func Jet(dirOrFS interface{}, extension string) *JetEngine {
extOK := false
for _, ext := range jetExtensions {
if ext == extension {
extOK = true
break
}
}
if !extOK {
panic(fmt.Sprintf("%s extension is not a valid jet engine extension[%s]", extension, strings.Join(jetExtensions[0:], ", ")))
}
s := &JetEngine{
fs: getFS(dirOrFS),
rootDir: "/",
extension: extension,
loader: &jetLoader{fs: getFS(dirOrFS)},
jetDataContextKey: "_jet",
}
return s
}
// String returns the name of this view engine, the "jet".
func (s *JetEngine) String() string {
return jetEngineName
}
// RootDir sets the directory to be used as a starting point
// to load templates from the provided file system.
func (s *JetEngine) RootDir(root string) *JetEngine {
if s.fs != nil && root != "" && root != "/" && root != "." && root != s.rootDir {
sub, err := fs.Sub(s.fs, s.rootDir)
if err != nil {
panic(err)
}
s.fs = sub
}
s.rootDir = filepath.ToSlash(root)
return s
}
// Name returns the jet engine's name.
func (s *JetEngine) Name() string {
return "Jet"
}
// Ext should return the final file extension which this view engine is responsible to render.
// If the filename extension on ExecuteWriter is empty then this is appended.
func (s *JetEngine) Ext() string {
return s.extension
}
// Delims sets the action delimiters to the specified strings, to be used in
// templates. An empty delimiter stands for the
// corresponding default: {{ or }}.
// Should act before `Load` or `iris.Application#RegisterView`.
func (s *JetEngine) Delims(left, right string) *JetEngine {
s.left = left
s.right = right
return s
}
// JetArguments is a type alias of `jet.Arguments`,
// can be used on `AddFunc$funcBody`.
type JetArguments = jet.Arguments
// AddFunc should adds a global function to the jet template set.
func (s *JetEngine) AddFunc(funcName string, funcBody interface{}) {
// if something like "urlpath" is registered.
if generalFunc, ok := funcBody.(func(string, ...interface{}) string); ok {
// jet, unlike others does not accept a func(string, ...interface{}) string,
// instead it wants:
// func(JetArguments) reflect.Value.
s.AddVar(funcName, jet.Func(func(args JetArguments) reflect.Value {
n := args.NumOfArguments()
if n == 0 { // no input, don't execute the function, panic instead.
panic(funcName + " expects one or more input arguments")
}
firstInput := args.Get(0).String()
if n == 1 { // if only the first argument is given.
return reflect.ValueOf(generalFunc(firstInput))
}
// if has variadic.
variadicN := n - 1
variadicInputs := make([]interface{}, variadicN) // except the first one.
for i := 0; i < variadicN; i++ {
variadicInputs[i] = args.Get(i + 1).Interface()
}
return reflect.ValueOf(generalFunc(firstInput, variadicInputs...))
}))
return
}
if jetFunc, ok := funcBody.(jet.Func); !ok {
alternativeJetFunc, ok := funcBody.(func(JetArguments) reflect.Value)
if !ok {
panic(fmt.Sprintf("JetEngine.AddFunc: funcBody argument is not a type of func(JetArguments) reflect.Value. Got %T instead", funcBody))
}
s.AddVar(funcName, jet.Func(alternativeJetFunc))
} else {
s.AddVar(funcName, jetFunc)
}
}
// AddVar adds a global variable to the jet template set.
func (s *JetEngine) AddVar(key string, value interface{}) {
if s.Set != nil {
s.Set.AddGlobal(key, value)
} else {
if s.vars == nil {
s.vars = make(map[string]interface{})
}
s.vars[key] = value
}
}
// Reload if setted to true the templates are reloading on each render,
// use it when you're in development and you're boring of restarting
// the whole app when you edit a template file.
//
// Note that if `true` is passed then only one `View -> ExecuteWriter` will be render each time,
// not safe concurrent access across clients, use it only on development state.
func (s *JetEngine) Reload(developmentMode bool) *JetEngine {
s.developmentMode = developmentMode
return s
}
// SetLoader can be used when the caller wants to use something like
// multi.Loader or httpfs.Loader.
func (s *JetEngine) SetLoader(loader jet.Loader) *JetEngine {
s.loader = loader
return s
}
type jetLoader struct {
fs fs.FS
}
var _ jet.Loader = (*jetLoader)(nil)
// Open opens a file from file system.
func (l *jetLoader) Open(name string) (io.ReadCloser, error) {
name = strings.TrimPrefix(name, "/")
return l.fs.Open(name)
}
// Exists checks if the template name exists by walking the list of template paths.
func (l *jetLoader) Exists(name string) bool {
name = strings.TrimPrefix(name, "/")
_, err := l.fs.Open(name)
return err == nil
}
// Load should load the templates from a physical system directory or by an embedded one (assets/go-bindata).
func (s *JetEngine) Load() error {
rootDirName := getRootDirName(s.fs)
return walk(s.fs, "", func(path string, info os.FileInfo, err error) error {
if err != nil {
return err
}
if info == nil || info.IsDir() {
return nil
}
if s.extension != "" {
if !strings.HasSuffix(path, s.extension) {
return nil
}
}
if s.rootDir == rootDirName {
path = strings.TrimPrefix(path, rootDirName)
path = strings.TrimPrefix(path, "/")
}
buf, err := asset(s.fs, path)
if err != nil {
return fmt.Errorf("%s: %w", path, err)
}
return s.ParseTemplate(path, string(buf))
})
}
// ParseTemplate accepts a name and contnets to parse and cache a template.
// This parser does not support funcs per template. Use the `AddFunc` instead.
func (s *JetEngine) ParseTemplate(name string, contents string) error {
s.initSet()
_, err := s.Set.Parse(name, contents)
return err
}
func (s *JetEngine) initSet() {
s.mu.Lock()
if s.Set == nil {
var opts = []jet.Option{
jet.WithDelims(s.left, s.right),
}
if s.developmentMode && !context.IsNoOpFS(s.fs) {
// this check is made to avoid jet's fs lookup on noOp fs (nil passed by the developer).
// This can be produced when nil fs passed
// and only `ParseTemplate` is used.
opts = append(opts, jet.InDevelopmentMode())
}
s.Set = jet.NewSet(s.loader, opts...)
if s.vars != nil {
for key, value := range s.vars {
s.Set.AddGlobal(key, value)
}
}
}
s.mu.Unlock()
}
type (
// JetRuntimeVars is a type alias for `jet.VarMap`.
// Can be used at `AddJetRuntimeVars/JetEngine.AddRuntimeVars`
// to set a runtime variable ${name} to the executing template.
JetRuntimeVars = jet.VarMap
// JetRuntime is a type alias of `jet.Runtime`,
// can be used on RuntimeVariable input function.
JetRuntime = jet.Runtime
)
// JetRuntimeVarsContextKey is the Iris Context key to keep any custom jet runtime variables.
// See `AddJetRuntimeVars` package-level function and `JetEngine.AddRuntimeVars` method.
const JetRuntimeVarsContextKey = "iris.jetvarmap"
// AddJetRuntimeVars sets or inserts runtime jet variables through the Iris Context.
// This gives the ability to add runtime variables from different handlers in the request chain,
// something that the jet template parser does not offer at all.
//
// Usage: view.AddJetRuntimeVars(ctx, view.JetRuntimeVars{...}).
// See `JetEngine.AddRuntimeVars` too.
func AddJetRuntimeVars(ctx *context.Context, jetVarMap JetRuntimeVars) {
if v := ctx.Values().Get(JetRuntimeVarsContextKey); v != nil {
if vars, ok := v.(JetRuntimeVars); ok {
for key, value := range jetVarMap {
vars[key] = value
}
return
}
}
ctx.Values().Set(JetRuntimeVarsContextKey, jetVarMap)
}
// AddRuntimeVars sets or inserts runtime jet variables through the Iris Context.
// This gives the ability to add runtime variables from different handlers in the request chain,
// something that the jet template parser does not offer at all.
//
// Usage: view.AddJetRuntimeVars(ctx, view.JetRuntimeVars{...}).
// See `view.AddJetRuntimeVars` if package-level access is more meanful to the code flow.
func (s *JetEngine) AddRuntimeVars(ctx *context.Context, vars JetRuntimeVars) {
AddJetRuntimeVars(ctx, vars)
}
// ExecuteWriter should execute a template by its filename with an optional layout and bindingData.
func (s *JetEngine) ExecuteWriter(w io.Writer, filename string, layout string, bindingData interface{}) error {
tmpl, err := s.Set.GetTemplate(filename)
if err != nil {
return err
}
var vars JetRuntimeVars
if ctx, ok := w.(*context.Context); ok {
runtimeVars := ctx.Values().Get(JetRuntimeVarsContextKey)
if runtimeVars != nil {
if jetVars, ok := runtimeVars.(JetRuntimeVars); ok {
vars = jetVars
}
}
if viewContextData := ctx.GetViewData(); len(viewContextData) > 0 { // fix #1876
if vars == nil {
vars = make(JetRuntimeVars)
}
for k, v := range viewContextData {
val, ok := v.(reflect.Value)
if !ok {
val = reflect.ValueOf(v)
}
vars[k] = val
}
}
if v := ctx.Values().Get(s.jetDataContextKey); v != nil {
if bindingData == nil {
// if bindingData is nil, try to fill them by context key (a middleware can set data).
bindingData = v
} else if m, ok := bindingData.(context.Map); ok {
// else if bindingData are passed to App/Context.View
// and it's map try to fill with the new values passed from a middleware.
if mv, ok := v.(context.Map); ok {
for key, value := range mv {
m[key] = value
}
}
}
}
}
if bindingData == nil {
return tmpl.Execute(w, vars, nil)
}
if vars == nil {
vars = make(JetRuntimeVars)
}
/* fixed on jet v4.0.0, so no need of this:
if m, ok := bindingData.(context.Map); ok {
var jetData interface{}
for k, v := range m {
if k == s.jetDataContextKey {
jetData = v
continue
}
if value, ok := v.(reflect.Value); ok {
vars[k] = value
} else {
vars[k] = reflect.ValueOf(v)
}
}
if jetData != nil {
bindingData = jetData
}
}*/
return tmpl.Execute(w, vars, bindingData)
}