package mvc
import (
"errors"
"fmt"
"reflect"
"strconv"
"strings"
"unicode"
"github.com/kataras/iris/v12/core/router"
"github.com/kataras/iris/v12/macro"
)
const (
tokenBy = "By"
tokenWildcard = "Wildcard" // "ByWildcard".
)
// word lexer, not characters.
type methodLexer struct {
words []string
cur int
}
func newMethodLexer(s string) *methodLexer {
l := new(methodLexer)
l.reset(s)
return l
}
/*
var allowedCapitalWords = map[string]struct{}{
"ID": {},
"JSON": {},
}
*/
func (l *methodLexer) reset(s string) {
l.cur = -1
var words []string
if s != "" {
end := len(s)
start := -1
// outter:
for i, n := 0, end; i < n; i++ {
c := rune(s[i])
if unicode.IsUpper(c) {
// it doesn't count the last uppercase
if start != -1 {
/*
for allowedCapitalWord := range allowedCapitalWords {
capitalWordEnd := i + len(allowedCapitalWord) // takes last char too, e.g. ReadJSON, we need the JSON.
if len(s) >= capitalWordEnd {
word := s[i:capitalWordEnd]
if word == allowedCapitalWord {
words = append(words, word)
i = capitalWordEnd
start = i
continue outter
}
}
}
*/
end = i
words = append(words, s[start:end])
}
start = i
continue
}
end = i + 1
}
if end > 0 && len(s) >= end {
words = append(words, s[start:])
}
}
l.words = words
}
func (l *methodLexer) next() (w string) {
cur := l.cur + 1
if w = l.peek(cur); w != "" {
l.cur++
}
return
}
func (l *methodLexer) skip() {
if cur := l.cur + 1; cur < len(l.words) {
l.cur = cur
} else {
l.cur = len(l.words) - 1
}
}
func (l *methodLexer) peek(idx int) string {
if idx < len(l.words) {
return l.words[idx]
}
return ""
}
func (l *methodLexer) peekNext() (w string) {
return l.peek(l.cur + 1)
}
func genParamKey(argIdx int) string {
return "param" + strconv.Itoa(argIdx) // param0, param1, param2...
}
type methodParser struct {
lexer *methodLexer
fn reflect.Method
macros *macro.Macros
customPathWordFunc CustomPathWordFunc
}
func parseMethod(macros *macro.Macros, fn reflect.Method, skipper func(string) bool, wordFunc CustomPathWordFunc) (method, path string, err error) {
if skipper(fn.Name) {
return "", "", errSkip
}
p := &methodParser{
fn: fn,
lexer: newMethodLexer(fn.Name),
macros: macros,
customPathWordFunc: wordFunc,
}
return p.parse()
}
func methodTitle(httpMethod string) string {
httpMethodFuncName := strings.Title(strings.ToLower(httpMethod))
return httpMethodFuncName
}
var errSkip = errors.New("skip")
var allMethods = append(router.AllMethods[0:], []string{"ALL", "ANY"}...)
// CustomPathWordFunc describes the function which can be passed
// through `Application.SetCustomPathWordFunc` to customize
// the controllers method parsing.
type CustomPathWordFunc func(path, w string, wordIndex int) string
func addPathWord(path, w string) string {
if path[len(path)-1] != '/' {
path += "/"
}
path += strings.ToLower(w)
return path
}
func (p *methodParser) parse() (method, path string, err error) {
funcArgPos := 0
path = "/"
// take the first word and check for the method.
w := p.lexer.next()
for _, httpMethod := range allMethods {
possibleMethodFuncName := methodTitle(httpMethod)
if strings.Index(w, possibleMethodFuncName) == 0 {
method = httpMethod
break
}
}
if method == "" {
// this is not a valid method to parse, we just skip it,
// it may be used for end-dev's use cases.
return "", "", errSkip
}
wordIndex := 0
for {
w := p.lexer.next()
if w == "" {
break
}
if w == tokenBy {
funcArgPos++ // starting with 1 because in typ.NumIn() the first is the struct receiver.
// No need for these:
// ByBy will act like /{param:type}/{param:type} as users expected
// if func input arguments are there, else act By like normal path /by.
//
// if p.lexer.peekPrev() == tokenBy || typ.NumIn() == 1 { // ByBy, then act this second By like a path
// a.relPath += "/" + strings.ToLower(w)
// continue
// }
if path, funcArgPos, err = p.parsePathParam(path, w, funcArgPos); err != nil {
return "", "", err
}
continue
}
// custom static path.
if p.customPathWordFunc != nil {
path = p.customPathWordFunc(path, w, wordIndex)
} else {
// default static path.
path = addPathWord(path, w)
}
wordIndex++
}
return
}
func (p *methodParser) parsePathParam(path string, w string, funcArgPos int) (string, int, error) {
typ := p.fn.Type
if typ.NumIn() <= funcArgPos {
// By found but input arguments are not there, so act like /by path without restricts.
path = addPathWord(path, w)
return path, funcArgPos, nil
}
var (
paramKey = genParamKey(funcArgPos) // argfirst, argsecond...
m = p.macros.GetMaster() // default (String by-default)
trailings = p.macros.GetTrailings()
)
// string, int...
goType := typ.In(funcArgPos).Kind()
nextWord := p.lexer.peekNext()
if nextWord == tokenWildcard {
p.lexer.skip() // skip the Wildcard word.
if len(trailings) == 0 {
return "", 0, errors.New("no trailing path parameter found")
}
m = trailings[0]
} else {
// validMacros := p.macros.LookupForGoType(goType)
// instead of mapping with a reflect.Kind which has its limitation,
// we map the param types with a go type as a string,
// so custom structs such as "user" can be mapped to a macro with indent || alias == "user".
m = p.macros.Get(strings.ToLower(goType.String()))
if m == nil {
if typ.NumIn() > funcArgPos {
// has more input arguments but we are not in the correct
// index now, maybe the first argument was an `iris/context.Context`
// so retry with the "funcArgPos" incremented.
//
// the "funcArgPos" will be updated to the caller as well
// because we return it among the path and the error.
return p.parsePathParam(path, w, funcArgPos+1)
}
return "", 0, fmt.Errorf("invalid syntax: the standard go type: %s found in controller's function: %s at position: %d does not match any valid macro", goType, p.fn.Name, funcArgPos)
}
}
// /{argfirst:path}, /{argfirst:int64}...
if path[len(path)-1] != '/' {
path += "/"
}
path += fmt.Sprintf("{%s:%s}", paramKey, m.Indent())
if nextWord == "" && typ.NumIn() > funcArgPos+1 {
// By is the latest word but func is expected
// more path parameters values, i.e:
// GetBy(name string, age int)
// The caller (parse) doesn't need to know
// about the incremental funcArgPos because
// it will not need it.
return p.parsePathParam(path, nextWord, funcArgPos+1)
}
return path, funcArgPos, nil
}