// Copyright 2013 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. //go:generate go run gen.go -output tables.go package language // TODO: Remove above NOTE after: // - verifying that tables are dropped correctly (most notably matcher tables). import ( "strings" "golang.org/x/text/internal/language" "golang.org/x/text/internal/language/compact" ) // Tag represents a BCP 47 language tag. It is used to specify an instance of a // specific language or locale. All language tag values are guaranteed to be // well-formed. type Tag compact.Tag func makeTag(t language.Tag) (tag Tag) { return Tag(compact.Make(t)) } func (t *Tag) tag() language.Tag { return (*compact.Tag)(t).Tag() } func (t *Tag) isCompact() bool { return (*compact.Tag)(t).IsCompact() } // TODO: improve performance. func (t *Tag) lang() language.Language { return t.tag().LangID } func (t *Tag) region() language.Region { return t.tag().RegionID } func (t *Tag) script() language.Script { return t.tag().ScriptID } // Make is a convenience wrapper for Parse that omits the error. // In case of an error, a sensible default is returned. func Make(s string) Tag { return Default.Make(s) } // Make is a convenience wrapper for c.Parse that omits the error. // In case of an error, a sensible default is returned. func (c CanonType) Make(s string) Tag { t, _ := c.Parse(s) return t } // Raw returns the raw base language, script and region, without making an // attempt to infer their values. func (t Tag) Raw() (b Base, s Script, r Region) { tt := t.tag() return Base{tt.LangID}, Script{tt.ScriptID}, Region{tt.RegionID} } // IsRoot returns true if t is equal to language "und". func (t Tag) IsRoot() bool { return compact.Tag(t).IsRoot() } // CanonType can be used to enable or disable various types of canonicalization. type CanonType int const ( // Replace deprecated base languages with their preferred replacements. DeprecatedBase CanonType = 1 << iota // Replace deprecated scripts with their preferred replacements. DeprecatedScript // Replace deprecated regions with their preferred replacements. DeprecatedRegion // Remove redundant scripts. SuppressScript // Normalize legacy encodings. This includes legacy languages defined in // CLDR as well as bibliographic codes defined in ISO-639. Legacy // Map the dominant language of a macro language group to the macro language // subtag. For example cmn -> zh. Macro // The CLDR flag should be used if full compatibility with CLDR is required. // There are a few cases where language.Tag may differ from CLDR. To follow all // of CLDR's suggestions, use All|CLDR. CLDR // Raw can be used to Compose or Parse without Canonicalization. Raw CanonType = 0 // Replace all deprecated tags with their preferred replacements. Deprecated = DeprecatedBase | DeprecatedScript | DeprecatedRegion // All canonicalizations recommended by BCP 47. BCP47 = Deprecated | SuppressScript // All canonicalizations. All = BCP47 | Legacy | Macro // Default is the canonicalization used by Parse, Make and Compose. To // preserve as much information as possible, canonicalizations that remove // potentially valuable information are not included. The Matcher is // designed to recognize similar tags that would be the same if // they were canonicalized using All. Default = Deprecated | Legacy canonLang = DeprecatedBase | Legacy | Macro // TODO: LikelyScript, LikelyRegion: suppress similar to ICU. ) // canonicalize returns the canonicalized equivalent of the tag and // whether there was any change. func canonicalize(c CanonType, t language.Tag) (language.Tag, bool) { if c == Raw { return t, false } changed := false if c&SuppressScript != 0 { if t.LangID.SuppressScript() == t.ScriptID { t.ScriptID = 0 changed = true } } if c&canonLang != 0 { for { if l, aliasType := t.LangID.Canonicalize(); l != t.LangID { switch aliasType { case language.Legacy: if c&Legacy != 0 { if t.LangID == _sh && t.ScriptID == 0 { t.ScriptID = _Latn } t.LangID = l changed = true } case language.Macro: if c&Macro != 0 { // We deviate here from CLDR. The mapping "nb" -> "no" // qualifies as a typical Macro language mapping. However, // for legacy reasons, CLDR maps "no", the macro language // code for Norwegian, to the dominant variant "nb". This // change is currently under consideration for CLDR as well. // See https://unicode.org/cldr/trac/ticket/2698 and also // https://unicode.org/cldr/trac/ticket/1790 for some of the // practical implications. TODO: this check could be removed // if CLDR adopts this change. if c&CLDR == 0 || t.LangID != _nb { changed = true t.LangID = l } } case language.Deprecated: if c&DeprecatedBase != 0 { if t.LangID == _mo && t.RegionID == 0 { t.RegionID = _MD } t.LangID = l changed = true // Other canonicalization types may still apply. continue } } } else if c&Legacy != 0 && t.LangID == _no && c&CLDR != 0 { t.LangID = _nb changed = true } break } } if c&DeprecatedScript != 0 { if t.ScriptID == _Qaai { changed = true t.ScriptID = _Zinh } } if c&DeprecatedRegion != 0 { if r := t.RegionID.Canonicalize(); r != t.RegionID { changed = true t.RegionID = r } } return t, changed } // Canonicalize returns the canonicalized equivalent of the tag. func (c CanonType) Canonicalize(t Tag) (Tag, error) { // First try fast path. if t.isCompact() { if _, changed := canonicalize(c, compact.Tag(t).Tag()); !changed { return t, nil } } // It is unlikely that one will canonicalize a tag after matching. So do // a slow but simple approach here. if tag, changed := canonicalize(c, t.tag()); changed { tag.RemakeString() return makeTag(tag), nil } return t, nil } // Confidence indicates the level of certainty for a given return value. // For example, Serbian may be written in Cyrillic or Latin script. // The confidence level indicates whether a value was explicitly specified, // whether it is typically the only possible value, or whether there is // an ambiguity. type Confidence int const ( No Confidence = iota // full confidence that there was no match Low // most likely value picked out of a set of alternatives High // value is generally assumed to be the correct match Exact // exact match or explicitly specified value ) var confName = []string{"No", "Low", "High", "Exact"} func (c Confidence) String() string { return confName[c] } // String returns the canonical string representation of the language tag. func (t Tag) String() string { return t.tag().String() } // MarshalText implements encoding.TextMarshaler. func (t Tag) MarshalText() (text []byte, err error) { return t.tag().MarshalText() } // UnmarshalText implements encoding.TextUnmarshaler. func (t *Tag) UnmarshalText(text []byte) error { var tag language.Tag err := tag.UnmarshalText(text) *t = makeTag(tag) return err } // Base returns the base language of the language tag. If the base language is // unspecified, an attempt will be made to infer it from the context. // It uses a variant of CLDR's Add Likely Subtags algorithm. This is subject to change. func (t Tag) Base() (Base, Confidence) { if b := t.lang(); b != 0 { return Base{b}, Exact } tt := t.tag() c := High if tt.ScriptID == 0 && !tt.RegionID.IsCountry() { c = Low } if tag, err := tt.Maximize(); err == nil && tag.LangID != 0 { return Base{tag.LangID}, c } return Base{0}, No } // Script infers the script for the language tag. If it was not explicitly given, it will infer // a most likely candidate. // If more than one script is commonly used for a language, the most likely one // is returned with a low confidence indication. For example, it returns (Cyrl, Low) // for Serbian. // If a script cannot be inferred (Zzzz, No) is returned. We do not use Zyyy (undetermined) // as one would suspect from the IANA registry for BCP 47. In a Unicode context Zyyy marks // common characters (like 1, 2, 3, '.', etc.) and is therefore more like multiple scripts. // See https://www.unicode.org/reports/tr24/#Values for more details. Zzzz is also used for // unknown value in CLDR. (Zzzz, Exact) is returned if Zzzz was explicitly specified. // Note that an inferred script is never guaranteed to be the correct one. Latin is // almost exclusively used for Afrikaans, but Arabic has been used for some texts // in the past. Also, the script that is commonly used may change over time. // It uses a variant of CLDR's Add Likely Subtags algorithm. This is subject to change. func (t Tag) Script() (Script, Confidence) { if scr := t.script(); scr != 0 { return Script{scr}, Exact } tt := t.tag() sc, c := language.Script(_Zzzz), No if scr := tt.LangID.SuppressScript(); scr != 0 { // Note: it is not always the case that a language with a suppress // script value is only written in one script (e.g. kk, ms, pa). if tt.RegionID == 0 { return Script{scr}, High } sc, c = scr, High } if tag, err := tt.Maximize(); err == nil { if tag.ScriptID != sc { sc, c = tag.ScriptID, Low } } else { tt, _ = canonicalize(Deprecated|Macro, tt) if tag, err := tt.Maximize(); err == nil && tag.ScriptID != sc { sc, c = tag.ScriptID, Low } } return Script{sc}, c } // Region returns the region for the language tag. If it was not explicitly given, it will // infer a most likely candidate from the context. // It uses a variant of CLDR's Add Likely Subtags algorithm. This is subject to change. func (t Tag) Region() (Region, Confidence) { if r := t.region(); r != 0 { return Region{r}, Exact } tt := t.tag() if tt, err := tt.Maximize(); err == nil { return Region{tt.RegionID}, Low // TODO: differentiate between high and low. } tt, _ = canonicalize(Deprecated|Macro, tt) if tag, err := tt.Maximize(); err == nil { return Region{tag.RegionID}, Low } return Region{_ZZ}, No // TODO: return world instead of undetermined? } // Variants returns the variants specified explicitly for this language tag. // or nil if no variant was specified. func (t Tag) Variants() []Variant { if !compact.Tag(t).MayHaveVariants() { return nil } v := []Variant{} x, str := "", t.tag().Variants() for str != "" { x, str = nextToken(str) v = append(v, Variant{x}) } return v } // Parent returns the CLDR parent of t. In CLDR, missing fields in data for a // specific language are substituted with fields from the parent language. // The parent for a language may change for newer versions of CLDR. func (t Tag) Parent() Tag { return Tag(compact.Tag(t).Parent()) } // returns token t and the rest of the string. func nextToken(s string) (t, tail string) { p := strings.Index(s[1:], "-") if p == -1 { return s[1:], "" } p++ return s[1:p], s[p:] } // Extension is a single BCP 47 extension. type Extension struct { s string } // String returns the string representation of the extension, including the // type tag. func (e Extension) String() string { return e.s } // ParseExtension parses s as an extension and returns it on success. func ParseExtension(s string) (e Extension, err error) { ext, err := language.ParseExtension(s) return Extension{ext}, err } // Type returns the one-byte extension type of e. It returns 0 for the zero // exception. func (e Extension) Type() byte { if e.s == "" { return 0 } return e.s[0] } // Tokens returns the list of tokens of e. func (e Extension) Tokens() []string { return strings.Split(e.s, "-") } // Extension returns the extension of type x for tag t. It will return // false for ok if t does not have the requested extension. The returned // extension will be invalid in this case. func (t Tag) Extension(x byte) (ext Extension, ok bool) { if !compact.Tag(t).MayHaveExtensions() { return Extension{}, false } e, ok := t.tag().Extension(x) return Extension{e}, ok } // Extensions returns all extensions of t. func (t Tag) Extensions() []Extension { if !compact.Tag(t).MayHaveExtensions() { return nil } e := []Extension{} for _, ext := range t.tag().Extensions() { e = append(e, Extension{ext}) } return e } // TypeForKey returns the type associated with the given key, where key and type // are of the allowed values defined for the Unicode locale extension ('u') in // https://www.unicode.org/reports/tr35/#Unicode_Language_and_Locale_Identifiers. // TypeForKey will traverse the inheritance chain to get the correct value. func (t Tag) TypeForKey(key string) string { if !compact.Tag(t).MayHaveExtensions() { if key != "rg" && key != "va" { return "" } } return t.tag().TypeForKey(key) } // SetTypeForKey returns a new Tag with the key set to type, where key and type // are of the allowed values defined for the Unicode locale extension ('u') in // https://www.unicode.org/reports/tr35/#Unicode_Language_and_Locale_Identifiers. // An empty value removes an existing pair with the same key. func (t Tag) SetTypeForKey(key, value string) (Tag, error) { tt, err := t.tag().SetTypeForKey(key, value) return makeTag(tt), err } // NumCompactTags is the number of compact tags. The maximum tag is // NumCompactTags-1. const NumCompactTags = compact.NumCompactTags // CompactIndex returns an index, where 0 <= index < NumCompactTags, for tags // for which data exists in the text repository.The index will change over time // and should not be stored in persistent storage. If t does not match a compact // index, exact will be false and the compact index will be returned for the // first match after repeatedly taking the Parent of t. func CompactIndex(t Tag) (index int, exact bool) { id, exact := compact.LanguageID(compact.Tag(t)) return int(id), exact } var root = language.Tag{} // Base is an ISO 639 language code, used for encoding the base language // of a language tag. type Base struct { langID language.Language } // ParseBase parses a 2- or 3-letter ISO 639 code. // It returns a ValueError if s is a well-formed but unknown language identifier // or another error if another error occurred. func ParseBase(s string) (Base, error) { l, err := language.ParseBase(s) return Base{l}, err } // String returns the BCP 47 representation of the base language. func (b Base) String() string { return b.langID.String() } // ISO3 returns the ISO 639-3 language code. func (b Base) ISO3() string { return b.langID.ISO3() } // IsPrivateUse reports whether this language code is reserved for private use. func (b Base) IsPrivateUse() bool { return b.langID.IsPrivateUse() } // Script is a 4-letter ISO 15924 code for representing scripts. // It is idiomatically represented in title case. type Script struct { scriptID language.Script } // ParseScript parses a 4-letter ISO 15924 code. // It returns a ValueError if s is a well-formed but unknown script identifier // or another error if another error occurred. func ParseScript(s string) (Script, error) { sc, err := language.ParseScript(s) return Script{sc}, err } // String returns the script code in title case. // It returns "Zzzz" for an unspecified script. func (s Script) String() string { return s.scriptID.String() } // IsPrivateUse reports whether this script code is reserved for private use. func (s Script) IsPrivateUse() bool { return s.scriptID.IsPrivateUse() } // Region is an ISO 3166-1 or UN M.49 code for representing countries and regions. type Region struct { regionID language.Region } // EncodeM49 returns the Region for the given UN M.49 code. // It returns an error if r is not a valid code. func EncodeM49(r int) (Region, error) { rid, err := language.EncodeM49(r) return Region{rid}, err } // ParseRegion parses a 2- or 3-letter ISO 3166-1 or a UN M.49 code. // It returns a ValueError if s is a well-formed but unknown region identifier // or another error if another error occurred. func ParseRegion(s string) (Region, error) { r, err := language.ParseRegion(s) return Region{r}, err } // String returns the BCP 47 representation for the region. // It returns "ZZ" for an unspecified region. func (r Region) String() string { return r.regionID.String() } // ISO3 returns the 3-letter ISO code of r. // Note that not all regions have a 3-letter ISO code. // In such cases this method returns "ZZZ". func (r Region) ISO3() string { return r.regionID.String() } // M49 returns the UN M.49 encoding of r, or 0 if this encoding // is not defined for r. func (r Region) M49() int { return r.regionID.M49() } // IsPrivateUse reports whether r has the ISO 3166 User-assigned status. This // may include private-use tags that are assigned by CLDR and used in this // implementation. So IsPrivateUse and IsCountry can be simultaneously true. func (r Region) IsPrivateUse() bool { return r.regionID.IsPrivateUse() } // IsCountry returns whether this region is a country or autonomous area. This // includes non-standard definitions from CLDR. func (r Region) IsCountry() bool { return r.regionID.IsCountry() } // IsGroup returns whether this region defines a collection of regions. This // includes non-standard definitions from CLDR. func (r Region) IsGroup() bool { return r.regionID.IsGroup() } // Contains returns whether Region c is contained by Region r. It returns true // if c == r. func (r Region) Contains(c Region) bool { return r.regionID.Contains(c.regionID) } // TLD returns the country code top-level domain (ccTLD). UK is returned for GB. // In all other cases it returns either the region itself or an error. // // This method may return an error for a region for which there exists a // canonical form with a ccTLD. To get that ccTLD canonicalize r first. The // region will already be canonicalized it was obtained from a Tag that was // obtained using any of the default methods. func (r Region) TLD() (Region, error) { tld, err := r.regionID.TLD() return Region{tld}, err } // Canonicalize returns the region or a possible replacement if the region is // deprecated. It will not return a replacement for deprecated regions that // are split into multiple regions. func (r Region) Canonicalize() Region { return Region{r.regionID.Canonicalize()} } // Variant represents a registered variant of a language as defined by BCP 47. type Variant struct { variant string } // ParseVariant parses and returns a Variant. An error is returned if s is not // a valid variant. func ParseVariant(s string) (Variant, error) { v, err := language.ParseVariant(s) return Variant{v.String()}, err } // String returns the string representation of the variant. func (v Variant) String() string { return v.variant }