1
0
mirror of https://github.com/go-gitea/gitea.git synced 2024-10-31 08:37:35 -04:00
gitea/vendor/github.com/go-openapi/inflect/inflect.go
Antoine GIRARD 9fe4437bda Use vendored go-swagger (#8087)
* Use vendored go-swagger

* vendor go-swagger

* revert un wanteed change

* remove un-needed GO111MODULE

* Update Makefile

Co-Authored-By: techknowlogick <matti@mdranta.net>
2019-09-04 22:53:54 +03:00

714 lines
18 KiB
Go
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

package inflect
import (
"fmt"
"regexp"
"strconv"
"strings"
"unicode"
"unicode/utf8"
)
// used by rulesets
type Rule struct {
suffix string
replacement string
exact bool
}
// a Ruleset is the config of pluralization rules
// you can extend the rules with the Add* methods
type Ruleset struct {
uncountables map[string]bool
plurals []*Rule
singulars []*Rule
humans []*Rule
acronyms []*Rule
acronymMatcher *regexp.Regexp
}
// create a blank ruleset. Unless you are going to
// build your own rules from scratch you probably
// won't need this and can just use the defaultRuleset
// via the global inflect.* methods
func NewRuleset() *Ruleset {
rs := new(Ruleset)
rs.uncountables = make(map[string]bool)
rs.plurals = make([]*Rule, 0)
rs.singulars = make([]*Rule, 0)
rs.humans = make([]*Rule, 0)
rs.acronyms = make([]*Rule, 0)
return rs
}
// create a new ruleset and load it with the default
// set of common English pluralization rules
func NewDefaultRuleset() *Ruleset {
rs := NewRuleset()
rs.AddPlural("s", "s")
rs.AddPlural("testis", "testes")
rs.AddPlural("axis", "axes")
rs.AddPlural("octopus", "octopi")
rs.AddPlural("virus", "viri")
rs.AddPlural("octopi", "octopi")
rs.AddPlural("viri", "viri")
rs.AddPlural("alias", "aliases")
rs.AddPlural("status", "statuses")
rs.AddPlural("bus", "buses")
rs.AddPlural("buffalo", "buffaloes")
rs.AddPlural("tomato", "tomatoes")
rs.AddPlural("tum", "ta")
rs.AddPlural("ium", "ia")
rs.AddPlural("ta", "ta")
rs.AddPlural("ia", "ia")
rs.AddPlural("sis", "ses")
rs.AddPlural("lf", "lves")
rs.AddPlural("rf", "rves")
rs.AddPlural("afe", "aves")
rs.AddPlural("bfe", "bves")
rs.AddPlural("cfe", "cves")
rs.AddPlural("dfe", "dves")
rs.AddPlural("efe", "eves")
rs.AddPlural("gfe", "gves")
rs.AddPlural("hfe", "hves")
rs.AddPlural("ife", "ives")
rs.AddPlural("jfe", "jves")
rs.AddPlural("kfe", "kves")
rs.AddPlural("lfe", "lves")
rs.AddPlural("mfe", "mves")
rs.AddPlural("nfe", "nves")
rs.AddPlural("ofe", "oves")
rs.AddPlural("pfe", "pves")
rs.AddPlural("qfe", "qves")
rs.AddPlural("rfe", "rves")
rs.AddPlural("sfe", "sves")
rs.AddPlural("tfe", "tves")
rs.AddPlural("ufe", "uves")
rs.AddPlural("vfe", "vves")
rs.AddPlural("wfe", "wves")
rs.AddPlural("xfe", "xves")
rs.AddPlural("yfe", "yves")
rs.AddPlural("zfe", "zves")
rs.AddPlural("hive", "hives")
rs.AddPlural("quy", "quies")
rs.AddPlural("by", "bies")
rs.AddPlural("cy", "cies")
rs.AddPlural("dy", "dies")
rs.AddPlural("fy", "fies")
rs.AddPlural("gy", "gies")
rs.AddPlural("hy", "hies")
rs.AddPlural("jy", "jies")
rs.AddPlural("ky", "kies")
rs.AddPlural("ly", "lies")
rs.AddPlural("my", "mies")
rs.AddPlural("ny", "nies")
rs.AddPlural("py", "pies")
rs.AddPlural("qy", "qies")
rs.AddPlural("ry", "ries")
rs.AddPlural("sy", "sies")
rs.AddPlural("ty", "ties")
rs.AddPlural("vy", "vies")
rs.AddPlural("wy", "wies")
rs.AddPlural("xy", "xies")
rs.AddPlural("zy", "zies")
rs.AddPlural("x", "xes")
rs.AddPlural("ch", "ches")
rs.AddPlural("ss", "sses")
rs.AddPlural("sh", "shes")
rs.AddPlural("matrix", "matrices")
rs.AddPlural("vertix", "vertices")
rs.AddPlural("indix", "indices")
rs.AddPlural("matrex", "matrices")
rs.AddPlural("vertex", "vertices")
rs.AddPlural("index", "indices")
rs.AddPlural("mouse", "mice")
rs.AddPlural("louse", "lice")
rs.AddPlural("mice", "mice")
rs.AddPlural("lice", "lice")
rs.AddPluralExact("ox", "oxen", true)
rs.AddPluralExact("oxen", "oxen", true)
rs.AddPluralExact("quiz", "quizzes", true)
rs.AddSingular("s", "")
rs.AddSingular("news", "news")
rs.AddSingular("ta", "tum")
rs.AddSingular("ia", "ium")
rs.AddSingular("analyses", "analysis")
rs.AddSingular("bases", "basis")
rs.AddSingular("diagnoses", "diagnosis")
rs.AddSingular("parentheses", "parenthesis")
rs.AddSingular("prognoses", "prognosis")
rs.AddSingular("synopses", "synopsis")
rs.AddSingular("theses", "thesis")
rs.AddSingular("analyses", "analysis")
rs.AddSingular("aves", "afe")
rs.AddSingular("bves", "bfe")
rs.AddSingular("cves", "cfe")
rs.AddSingular("dves", "dfe")
rs.AddSingular("eves", "efe")
rs.AddSingular("gves", "gfe")
rs.AddSingular("hves", "hfe")
rs.AddSingular("ives", "ife")
rs.AddSingular("jves", "jfe")
rs.AddSingular("kves", "kfe")
rs.AddSingular("lves", "lfe")
rs.AddSingular("mves", "mfe")
rs.AddSingular("nves", "nfe")
rs.AddSingular("oves", "ofe")
rs.AddSingular("pves", "pfe")
rs.AddSingular("qves", "qfe")
rs.AddSingular("rves", "rfe")
rs.AddSingular("sves", "sfe")
rs.AddSingular("tves", "tfe")
rs.AddSingular("uves", "ufe")
rs.AddSingular("vves", "vfe")
rs.AddSingular("wves", "wfe")
rs.AddSingular("xves", "xfe")
rs.AddSingular("yves", "yfe")
rs.AddSingular("zves", "zfe")
rs.AddSingular("hives", "hive")
rs.AddSingular("tives", "tive")
rs.AddSingular("lves", "lf")
rs.AddSingular("rves", "rf")
rs.AddSingular("quies", "quy")
rs.AddSingular("bies", "by")
rs.AddSingular("cies", "cy")
rs.AddSingular("dies", "dy")
rs.AddSingular("fies", "fy")
rs.AddSingular("gies", "gy")
rs.AddSingular("hies", "hy")
rs.AddSingular("jies", "jy")
rs.AddSingular("kies", "ky")
rs.AddSingular("lies", "ly")
rs.AddSingular("mies", "my")
rs.AddSingular("nies", "ny")
rs.AddSingular("pies", "py")
rs.AddSingular("qies", "qy")
rs.AddSingular("ries", "ry")
rs.AddSingular("sies", "sy")
rs.AddSingular("ties", "ty")
rs.AddSingular("vies", "vy")
rs.AddSingular("wies", "wy")
rs.AddSingular("xies", "xy")
rs.AddSingular("zies", "zy")
rs.AddSingular("series", "series")
rs.AddSingular("movies", "movie")
rs.AddSingular("xes", "x")
rs.AddSingular("ches", "ch")
rs.AddSingular("sses", "ss")
rs.AddSingular("shes", "sh")
rs.AddSingular("mice", "mouse")
rs.AddSingular("lice", "louse")
rs.AddSingular("buses", "bus")
rs.AddSingular("oes", "o")
rs.AddSingular("shoes", "shoe")
rs.AddSingular("crises", "crisis")
rs.AddSingular("axes", "axis")
rs.AddSingular("testes", "testis")
rs.AddSingular("octopi", "octopus")
rs.AddSingular("viri", "virus")
rs.AddSingular("statuses", "status")
rs.AddSingular("aliases", "alias")
rs.AddSingularExact("oxen", "ox", true)
rs.AddSingular("vertices", "vertex")
rs.AddSingular("indices", "index")
rs.AddSingular("matrices", "matrix")
rs.AddSingularExact("quizzes", "quiz", true)
rs.AddSingular("databases", "database")
rs.AddIrregular("person", "people")
rs.AddIrregular("man", "men")
rs.AddIrregular("child", "children")
rs.AddIrregular("sex", "sexes")
rs.AddIrregular("move", "moves")
rs.AddIrregular("zombie", "zombies")
rs.AddUncountable("equipment")
rs.AddUncountable("information")
rs.AddUncountable("rice")
rs.AddUncountable("money")
rs.AddUncountable("species")
rs.AddUncountable("series")
rs.AddUncountable("fish")
rs.AddUncountable("sheep")
rs.AddUncountable("jeans")
rs.AddUncountable("police")
return rs
}
func (rs *Ruleset) Uncountables() map[string]bool {
return rs.uncountables
}
// add a pluralization rule
func (rs *Ruleset) AddPlural(suffix, replacement string) {
rs.AddPluralExact(suffix, replacement, false)
}
// add a pluralization rule with full string match
func (rs *Ruleset) AddPluralExact(suffix, replacement string, exact bool) {
// remove uncountable
delete(rs.uncountables, suffix)
// create rule
r := new(Rule)
r.suffix = suffix
r.replacement = replacement
r.exact = exact
// prepend
rs.plurals = append([]*Rule{r}, rs.plurals...)
}
// add a singular rule
func (rs *Ruleset) AddSingular(suffix, replacement string) {
rs.AddSingularExact(suffix, replacement, false)
}
// same as AddSingular but you can set `exact` to force
// a full string match
func (rs *Ruleset) AddSingularExact(suffix, replacement string, exact bool) {
// remove from uncountable
delete(rs.uncountables, suffix)
// create rule
r := new(Rule)
r.suffix = suffix
r.replacement = replacement
r.exact = exact
rs.singulars = append([]*Rule{r}, rs.singulars...)
}
// Human rules are applied by humanize to show more friendly
// versions of words
func (rs *Ruleset) AddHuman(suffix, replacement string) {
r := new(Rule)
r.suffix = suffix
r.replacement = replacement
rs.humans = append([]*Rule{r}, rs.humans...)
}
// Add any inconsistant pluralizing/sinularizing rules
// to the set here.
func (rs *Ruleset) AddIrregular(singular, plural string) {
delete(rs.uncountables, singular)
delete(rs.uncountables, plural)
rs.AddPlural(singular, plural)
rs.AddPlural(plural, plural)
rs.AddSingular(plural, singular)
}
// if you use acronym you may need to add them to the ruleset
// to prevent Underscored words of things like "HTML" coming out
// as "h_t_m_l"
func (rs *Ruleset) AddAcronym(word string) {
r := new(Rule)
r.suffix = word
r.replacement = rs.Titleize(strings.ToLower(word))
rs.acronyms = append(rs.acronyms, r)
}
// add a word to this ruleset that has the same singular and plural form
// for example: "rice"
func (rs *Ruleset) AddUncountable(word string) {
rs.uncountables[strings.ToLower(word)] = true
}
func (rs *Ruleset) isUncountable(word string) bool {
// handle multiple words by using the last one
words := strings.Split(word, " ")
if _, exists := rs.uncountables[strings.ToLower(words[len(words)-1])]; exists {
return true
}
return false
}
// returns the plural form of a singular word
func (rs *Ruleset) Pluralize(word string) string {
if len(word) == 0 {
return word
}
if rs.isUncountable(word) {
return word
}
for _, rule := range rs.plurals {
if rule.exact {
if word == rule.suffix {
return rule.replacement
}
} else {
if strings.HasSuffix(word, rule.suffix) {
return replaceLast(word, rule.suffix, rule.replacement)
}
}
}
return word + "s"
}
// returns the singular form of a plural word
func (rs *Ruleset) Singularize(word string) string {
if len(word) == 0 {
return word
}
if rs.isUncountable(word) {
return word
}
for _, rule := range rs.singulars {
if rule.exact {
if word == rule.suffix {
return rule.replacement
}
} else {
if strings.HasSuffix(word, rule.suffix) {
return replaceLast(word, rule.suffix, rule.replacement)
}
}
}
return word
}
// uppercase first character
func (rs *Ruleset) Capitalize(word string) string {
return strings.ToUpper(word[:1]) + word[1:]
}
// "dino_party" -> "DinoParty"
func (rs *Ruleset) Camelize(word string) string {
words := splitAtCaseChangeWithTitlecase(word)
return strings.Join(words, "")
}
// same as Camelcase but with first letter downcased
func (rs *Ruleset) CamelizeDownFirst(word string) string {
word = Camelize(word)
return strings.ToLower(word[:1]) + word[1:]
}
// Captitilize every word in sentance "hello there" -> "Hello There"
func (rs *Ruleset) Titleize(word string) string {
words := splitAtCaseChangeWithTitlecase(word)
return strings.Join(words, " ")
}
func (rs *Ruleset) safeCaseAcronyms(word string) string {
// convert an acroymn like HTML into Html
for _, rule := range rs.acronyms {
word = strings.Replace(word, rule.suffix, rule.replacement, -1)
}
return word
}
func (rs *Ruleset) seperatedWords(word, sep string) string {
word = rs.safeCaseAcronyms(word)
words := splitAtCaseChange(word)
return strings.Join(words, sep)
}
// lowercase underscore version "BigBen" -> "big_ben"
func (rs *Ruleset) Underscore(word string) string {
return rs.seperatedWords(word, "_")
}
// First letter of sentance captitilized
// Uses custom friendly replacements via AddHuman()
func (rs *Ruleset) Humanize(word string) string {
word = replaceLast(word, "_id", "") // strip foreign key kinds
// replace and strings in humans list
for _, rule := range rs.humans {
word = strings.Replace(word, rule.suffix, rule.replacement, -1)
}
sentance := rs.seperatedWords(word, " ")
return strings.ToUpper(sentance[:1]) + sentance[1:]
}
// an underscored foreign key name "Person" -> "person_id"
func (rs *Ruleset) ForeignKey(word string) string {
return rs.Underscore(rs.Singularize(word)) + "_id"
}
// a foreign key (with an underscore) "Person" -> "personid"
func (rs *Ruleset) ForeignKeyCondensed(word string) string {
return rs.Underscore(word) + "id"
}
// Rails style pluralized table names: "SuperPerson" -> "super_people"
func (rs *Ruleset) Tableize(word string) string {
return rs.Pluralize(rs.Underscore(rs.Typeify(word)))
}
var notUrlSafe *regexp.Regexp = regexp.MustCompile(`[^\w\d\-_ ]`)
// param safe dasherized names like "my-param"
func (rs *Ruleset) Parameterize(word string) string {
return ParameterizeJoin(word, "-")
}
// param safe dasherized names with custom seperator
func (rs *Ruleset) ParameterizeJoin(word, sep string) string {
word = strings.ToLower(word)
word = rs.Asciify(word)
word = notUrlSafe.ReplaceAllString(word, "")
word = strings.Replace(word, " ", sep, -1)
if len(sep) > 0 {
squash, err := regexp.Compile(sep + "+")
if err == nil {
word = squash.ReplaceAllString(word, sep)
}
}
word = strings.Trim(word, sep+" ")
return word
}
var lookalikes map[string]*regexp.Regexp = map[string]*regexp.Regexp{
"A": regexp.MustCompile(`À|Á|Â|Ã|Ä|Å`),
"AE": regexp.MustCompile(`Æ`),
"C": regexp.MustCompile(`Ç`),
"E": regexp.MustCompile(`È|É|Ê|Ë`),
"G": regexp.MustCompile(`Ğ`),
"I": regexp.MustCompile(`Ì|Í|Î|Ï|İ`),
"N": regexp.MustCompile(`Ñ`),
"O": regexp.MustCompile(`Ò|Ó|Ô|Õ|Ö|Ø`),
"S": regexp.MustCompile(`Ş`),
"U": regexp.MustCompile(`Ù|Ú|Û|Ü`),
"Y": regexp.MustCompile(`Ý`),
"ss": regexp.MustCompile(`ß`),
"a": regexp.MustCompile(`à|á|â|ã|ä|å`),
"ae": regexp.MustCompile(`æ`),
"c": regexp.MustCompile(`ç`),
"e": regexp.MustCompile(`è|é|ê|ë`),
"g": regexp.MustCompile(`ğ`),
"i": regexp.MustCompile(`ì|í|î|ï|ı`),
"n": regexp.MustCompile(`ñ`),
"o": regexp.MustCompile(`ò|ó|ô|õ|ö|ø`),
"s": regexp.MustCompile(`ş`),
"u": regexp.MustCompile(`ù|ú|û|ü|ũ|ū|ŭ|ů|ű|ų`),
"y": regexp.MustCompile(`ý|ÿ`),
}
// transforms latin characters like é -> e
func (rs *Ruleset) Asciify(word string) string {
for repl, regex := range lookalikes {
word = regex.ReplaceAllString(word, repl)
}
return word
}
var tablePrefix *regexp.Regexp = regexp.MustCompile(`^[^.]*\.`)
// "something_like_this" -> "SomethingLikeThis"
func (rs *Ruleset) Typeify(word string) string {
word = tablePrefix.ReplaceAllString(word, "")
return rs.Camelize(rs.Singularize(word))
}
// "SomeText" -> "some-text"
func (rs *Ruleset) Dasherize(word string) string {
return rs.seperatedWords(word, "-")
}
// "1031" -> "1031st"
func (rs *Ruleset) Ordinalize(str string) string {
number, err := strconv.Atoi(str)
if err != nil {
return str
}
switch abs(number) % 100 {
case 11, 12, 13:
return fmt.Sprintf("%dth", number)
default:
switch abs(number) % 10 {
case 1:
return fmt.Sprintf("%dst", number)
case 2:
return fmt.Sprintf("%dnd", number)
case 3:
return fmt.Sprintf("%drd", number)
}
}
return fmt.Sprintf("%dth", number)
}
/////////////////////////////////////////
// the default global ruleset
//////////////////////////////////////////
var defaultRuleset *Ruleset
func init() {
defaultRuleset = NewDefaultRuleset()
}
func Uncountables() map[string]bool {
return defaultRuleset.Uncountables()
}
func AddPlural(suffix, replacement string) {
defaultRuleset.AddPlural(suffix, replacement)
}
func AddSingular(suffix, replacement string) {
defaultRuleset.AddSingular(suffix, replacement)
}
func AddHuman(suffix, replacement string) {
defaultRuleset.AddHuman(suffix, replacement)
}
func AddIrregular(singular, plural string) {
defaultRuleset.AddIrregular(singular, plural)
}
func AddAcronym(word string) {
defaultRuleset.AddAcronym(word)
}
func AddUncountable(word string) {
defaultRuleset.AddUncountable(word)
}
func Pluralize(word string) string {
return defaultRuleset.Pluralize(word)
}
func Singularize(word string) string {
return defaultRuleset.Singularize(word)
}
func Capitalize(word string) string {
return defaultRuleset.Capitalize(word)
}
func Camelize(word string) string {
return defaultRuleset.Camelize(word)
}
func CamelizeDownFirst(word string) string {
return defaultRuleset.CamelizeDownFirst(word)
}
func Titleize(word string) string {
return defaultRuleset.Titleize(word)
}
func Underscore(word string) string {
return defaultRuleset.Underscore(word)
}
func Humanize(word string) string {
return defaultRuleset.Humanize(word)
}
func ForeignKey(word string) string {
return defaultRuleset.ForeignKey(word)
}
func ForeignKeyCondensed(word string) string {
return defaultRuleset.ForeignKeyCondensed(word)
}
func Tableize(word string) string {
return defaultRuleset.Tableize(word)
}
func Parameterize(word string) string {
return defaultRuleset.Parameterize(word)
}
func ParameterizeJoin(word, sep string) string {
return defaultRuleset.ParameterizeJoin(word, sep)
}
func Typeify(word string) string {
return defaultRuleset.Typeify(word)
}
func Dasherize(word string) string {
return defaultRuleset.Dasherize(word)
}
func Ordinalize(word string) string {
return defaultRuleset.Ordinalize(word)
}
func Asciify(word string) string {
return defaultRuleset.Asciify(word)
}
// helper funcs
func reverse(s string) string {
o := make([]rune, utf8.RuneCountInString(s))
i := len(o)
for _, c := range s {
i--
o[i] = c
}
return string(o)
}
func isSpacerChar(c rune) bool {
switch {
case c == rune("_"[0]):
return true
case c == rune(" "[0]):
return true
case c == rune(":"[0]):
return true
case c == rune("-"[0]):
return true
}
return false
}
func splitAtCaseChange(s string) []string {
words := make([]string, 0)
word := make([]rune, 0)
for _, c := range s {
spacer := isSpacerChar(c)
if len(word) > 0 {
if unicode.IsUpper(c) || spacer {
words = append(words, string(word))
word = make([]rune, 0)
}
}
if !spacer {
word = append(word, unicode.ToLower(c))
}
}
words = append(words, string(word))
return words
}
func splitAtCaseChangeWithTitlecase(s string) []string {
words := make([]string, 0)
word := make([]rune, 0)
for _, c := range s {
spacer := isSpacerChar(c)
if len(word) > 0 {
if unicode.IsUpper(c) || spacer {
words = append(words, string(word))
word = make([]rune, 0)
}
}
if !spacer {
if len(word) > 0 {
word = append(word, unicode.ToLower(c))
} else {
word = append(word, unicode.ToUpper(c))
}
}
}
words = append(words, string(word))
return words
}
func replaceLast(s, match, repl string) string {
// reverse strings
srev := reverse(s)
mrev := reverse(match)
rrev := reverse(repl)
// match first and reverse back
return reverse(strings.Replace(srev, mrev, rrev, 1))
}
func abs(x int) int {
if x < 0 {
return -x
}
return x
}