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https://github.com/rocky-linux/peridot.git
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ad0f7a5305
Upgrade to Go 1.20.5, Hydra v2 SDK, rules-go v0.44.2 (with proper resolves), protobuf v25.3 and mass upgrade of Go dependencies.
628 lines
17 KiB
Go
628 lines
17 KiB
Go
// Copyright 2013 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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//go:generate go run gen.go gen_common.go -output tables.go
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package language // import "golang.org/x/text/internal/language"
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// TODO: Remove above NOTE after:
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// - verifying that tables are dropped correctly (most notably matcher tables).
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import (
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"errors"
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"fmt"
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"strings"
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)
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const (
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// maxCoreSize is the maximum size of a BCP 47 tag without variants and
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// extensions. Equals max lang (3) + script (4) + max reg (3) + 2 dashes.
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maxCoreSize = 12
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// max99thPercentileSize is a somewhat arbitrary buffer size that presumably
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// is large enough to hold at least 99% of the BCP 47 tags.
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max99thPercentileSize = 32
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// maxSimpleUExtensionSize is the maximum size of a -u extension with one
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// key-type pair. Equals len("-u-") + key (2) + dash + max value (8).
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maxSimpleUExtensionSize = 14
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)
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// Tag represents a BCP 47 language tag. It is used to specify an instance of a
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// specific language or locale. All language tag values are guaranteed to be
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// well-formed. The zero value of Tag is Und.
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type Tag struct {
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// TODO: the following fields have the form TagTypeID. This name is chosen
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// to allow refactoring the public package without conflicting with its
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// Base, Script, and Region methods. Once the transition is fully completed
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// the ID can be stripped from the name.
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LangID Language
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RegionID Region
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// TODO: we will soon run out of positions for ScriptID. Idea: instead of
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// storing lang, region, and ScriptID codes, store only the compact index and
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// have a lookup table from this code to its expansion. This greatly speeds
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// up table lookup, speed up common variant cases.
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// This will also immediately free up 3 extra bytes. Also, the pVariant
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// field can now be moved to the lookup table, as the compact index uniquely
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// determines the offset of a possible variant.
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ScriptID Script
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pVariant byte // offset in str, includes preceding '-'
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pExt uint16 // offset of first extension, includes preceding '-'
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// str is the string representation of the Tag. It will only be used if the
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// tag has variants or extensions.
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str string
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}
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// Make is a convenience wrapper for Parse that omits the error.
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// In case of an error, a sensible default is returned.
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func Make(s string) Tag {
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t, _ := Parse(s)
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return t
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}
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// Raw returns the raw base language, script and region, without making an
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// attempt to infer their values.
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// TODO: consider removing
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func (t Tag) Raw() (b Language, s Script, r Region) {
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return t.LangID, t.ScriptID, t.RegionID
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}
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// equalTags compares language, script and region subtags only.
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func (t Tag) equalTags(a Tag) bool {
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return t.LangID == a.LangID && t.ScriptID == a.ScriptID && t.RegionID == a.RegionID
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}
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// IsRoot returns true if t is equal to language "und".
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func (t Tag) IsRoot() bool {
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if int(t.pVariant) < len(t.str) {
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return false
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}
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return t.equalTags(Und)
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}
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// IsPrivateUse reports whether the Tag consists solely of an IsPrivateUse use
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// tag.
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func (t Tag) IsPrivateUse() bool {
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return t.str != "" && t.pVariant == 0
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}
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// RemakeString is used to update t.str in case lang, script or region changed.
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// It is assumed that pExt and pVariant still point to the start of the
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// respective parts.
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func (t *Tag) RemakeString() {
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if t.str == "" {
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return
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}
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extra := t.str[t.pVariant:]
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if t.pVariant > 0 {
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extra = extra[1:]
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}
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if t.equalTags(Und) && strings.HasPrefix(extra, "x-") {
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t.str = extra
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t.pVariant = 0
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t.pExt = 0
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return
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}
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var buf [max99thPercentileSize]byte // avoid extra memory allocation in most cases.
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b := buf[:t.genCoreBytes(buf[:])]
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if extra != "" {
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diff := len(b) - int(t.pVariant)
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b = append(b, '-')
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b = append(b, extra...)
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t.pVariant = uint8(int(t.pVariant) + diff)
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t.pExt = uint16(int(t.pExt) + diff)
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} else {
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t.pVariant = uint8(len(b))
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t.pExt = uint16(len(b))
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}
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t.str = string(b)
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}
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// genCoreBytes writes a string for the base languages, script and region tags
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// to the given buffer and returns the number of bytes written. It will never
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// write more than maxCoreSize bytes.
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func (t *Tag) genCoreBytes(buf []byte) int {
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n := t.LangID.StringToBuf(buf[:])
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if t.ScriptID != 0 {
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n += copy(buf[n:], "-")
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n += copy(buf[n:], t.ScriptID.String())
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}
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if t.RegionID != 0 {
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n += copy(buf[n:], "-")
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n += copy(buf[n:], t.RegionID.String())
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}
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return n
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}
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// String returns the canonical string representation of the language tag.
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func (t Tag) String() string {
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if t.str != "" {
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return t.str
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}
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if t.ScriptID == 0 && t.RegionID == 0 {
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return t.LangID.String()
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}
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buf := [maxCoreSize]byte{}
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return string(buf[:t.genCoreBytes(buf[:])])
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}
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// MarshalText implements encoding.TextMarshaler.
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func (t Tag) MarshalText() (text []byte, err error) {
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if t.str != "" {
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text = append(text, t.str...)
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} else if t.ScriptID == 0 && t.RegionID == 0 {
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text = append(text, t.LangID.String()...)
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} else {
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buf := [maxCoreSize]byte{}
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text = buf[:t.genCoreBytes(buf[:])]
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}
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return text, nil
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}
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// UnmarshalText implements encoding.TextUnmarshaler.
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func (t *Tag) UnmarshalText(text []byte) error {
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tag, err := Parse(string(text))
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*t = tag
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return err
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}
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// Variants returns the part of the tag holding all variants or the empty string
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// if there are no variants defined.
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func (t Tag) Variants() string {
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if t.pVariant == 0 {
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return ""
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}
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return t.str[t.pVariant:t.pExt]
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}
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// VariantOrPrivateUseTags returns variants or private use tags.
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func (t Tag) VariantOrPrivateUseTags() string {
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if t.pExt > 0 {
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return t.str[t.pVariant:t.pExt]
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}
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return t.str[t.pVariant:]
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}
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// HasString reports whether this tag defines more than just the raw
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// components.
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func (t Tag) HasString() bool {
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return t.str != ""
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}
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// Parent returns the CLDR parent of t. In CLDR, missing fields in data for a
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// specific language are substituted with fields from the parent language.
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// The parent for a language may change for newer versions of CLDR.
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func (t Tag) Parent() Tag {
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if t.str != "" {
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// Strip the variants and extensions.
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b, s, r := t.Raw()
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t = Tag{LangID: b, ScriptID: s, RegionID: r}
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if t.RegionID == 0 && t.ScriptID != 0 && t.LangID != 0 {
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base, _ := addTags(Tag{LangID: t.LangID})
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if base.ScriptID == t.ScriptID {
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return Tag{LangID: t.LangID}
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}
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}
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return t
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}
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if t.LangID != 0 {
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if t.RegionID != 0 {
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maxScript := t.ScriptID
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if maxScript == 0 {
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max, _ := addTags(t)
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maxScript = max.ScriptID
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}
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for i := range parents {
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if Language(parents[i].lang) == t.LangID && Script(parents[i].maxScript) == maxScript {
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for _, r := range parents[i].fromRegion {
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if Region(r) == t.RegionID {
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return Tag{
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LangID: t.LangID,
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ScriptID: Script(parents[i].script),
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RegionID: Region(parents[i].toRegion),
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}
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}
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}
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}
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}
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// Strip the script if it is the default one.
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base, _ := addTags(Tag{LangID: t.LangID})
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if base.ScriptID != maxScript {
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return Tag{LangID: t.LangID, ScriptID: maxScript}
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}
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return Tag{LangID: t.LangID}
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} else if t.ScriptID != 0 {
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// The parent for an base-script pair with a non-default script is
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// "und" instead of the base language.
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base, _ := addTags(Tag{LangID: t.LangID})
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if base.ScriptID != t.ScriptID {
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return Und
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}
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return Tag{LangID: t.LangID}
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}
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}
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return Und
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}
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// ParseExtension parses s as an extension and returns it on success.
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func ParseExtension(s string) (ext string, err error) {
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defer func() {
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if recover() != nil {
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ext = ""
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err = ErrSyntax
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}
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}()
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scan := makeScannerString(s)
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var end int
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if n := len(scan.token); n != 1 {
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return "", ErrSyntax
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}
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scan.toLower(0, len(scan.b))
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end = parseExtension(&scan)
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if end != len(s) {
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return "", ErrSyntax
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}
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return string(scan.b), nil
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}
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// HasVariants reports whether t has variants.
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func (t Tag) HasVariants() bool {
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return uint16(t.pVariant) < t.pExt
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}
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// HasExtensions reports whether t has extensions.
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func (t Tag) HasExtensions() bool {
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return int(t.pExt) < len(t.str)
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}
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// Extension returns the extension of type x for tag t. It will return
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// false for ok if t does not have the requested extension. The returned
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// extension will be invalid in this case.
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func (t Tag) Extension(x byte) (ext string, ok bool) {
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for i := int(t.pExt); i < len(t.str)-1; {
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var ext string
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i, ext = getExtension(t.str, i)
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if ext[0] == x {
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return ext, true
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}
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}
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return "", false
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}
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// Extensions returns all extensions of t.
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func (t Tag) Extensions() []string {
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e := []string{}
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for i := int(t.pExt); i < len(t.str)-1; {
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var ext string
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i, ext = getExtension(t.str, i)
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e = append(e, ext)
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}
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return e
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}
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// TypeForKey returns the type associated with the given key, where key and type
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// are of the allowed values defined for the Unicode locale extension ('u') in
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// https://www.unicode.org/reports/tr35/#Unicode_Language_and_Locale_Identifiers.
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// TypeForKey will traverse the inheritance chain to get the correct value.
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//
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// If there are multiple types associated with a key, only the first will be
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// returned. If there is no type associated with a key, it returns the empty
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// string.
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func (t Tag) TypeForKey(key string) string {
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if _, start, end, _ := t.findTypeForKey(key); end != start {
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s := t.str[start:end]
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if p := strings.IndexByte(s, '-'); p >= 0 {
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s = s[:p]
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}
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return s
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}
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return ""
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}
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var (
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errPrivateUse = errors.New("cannot set a key on a private use tag")
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errInvalidArguments = errors.New("invalid key or type")
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)
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// SetTypeForKey returns a new Tag with the key set to type, where key and type
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// are of the allowed values defined for the Unicode locale extension ('u') in
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// https://www.unicode.org/reports/tr35/#Unicode_Language_and_Locale_Identifiers.
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// An empty value removes an existing pair with the same key.
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func (t Tag) SetTypeForKey(key, value string) (Tag, error) {
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if t.IsPrivateUse() {
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return t, errPrivateUse
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}
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if len(key) != 2 {
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return t, errInvalidArguments
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}
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// Remove the setting if value is "".
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if value == "" {
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start, sep, end, _ := t.findTypeForKey(key)
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if start != sep {
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// Remove a possible empty extension.
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switch {
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case t.str[start-2] != '-': // has previous elements.
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case end == len(t.str), // end of string
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end+2 < len(t.str) && t.str[end+2] == '-': // end of extension
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start -= 2
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}
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if start == int(t.pVariant) && end == len(t.str) {
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t.str = ""
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t.pVariant, t.pExt = 0, 0
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} else {
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t.str = fmt.Sprintf("%s%s", t.str[:start], t.str[end:])
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}
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}
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return t, nil
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}
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if len(value) < 3 || len(value) > 8 {
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return t, errInvalidArguments
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}
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var (
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buf [maxCoreSize + maxSimpleUExtensionSize]byte
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uStart int // start of the -u extension.
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)
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// Generate the tag string if needed.
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if t.str == "" {
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uStart = t.genCoreBytes(buf[:])
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buf[uStart] = '-'
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uStart++
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}
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// Create new key-type pair and parse it to verify.
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b := buf[uStart:]
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copy(b, "u-")
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copy(b[2:], key)
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b[4] = '-'
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b = b[:5+copy(b[5:], value)]
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scan := makeScanner(b)
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if parseExtensions(&scan); scan.err != nil {
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return t, scan.err
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}
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// Assemble the replacement string.
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if t.str == "" {
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t.pVariant, t.pExt = byte(uStart-1), uint16(uStart-1)
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t.str = string(buf[:uStart+len(b)])
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} else {
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s := t.str
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start, sep, end, hasExt := t.findTypeForKey(key)
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if start == sep {
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if hasExt {
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b = b[2:]
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}
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t.str = fmt.Sprintf("%s-%s%s", s[:sep], b, s[end:])
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} else {
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t.str = fmt.Sprintf("%s-%s%s", s[:start+3], value, s[end:])
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}
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}
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return t, nil
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}
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// findTypeForKey returns the start and end position for the type corresponding
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// to key or the point at which to insert the key-value pair if the type
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// wasn't found. The hasExt return value reports whether an -u extension was present.
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// Note: the extensions are typically very small and are likely to contain
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// only one key-type pair.
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func (t Tag) findTypeForKey(key string) (start, sep, end int, hasExt bool) {
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p := int(t.pExt)
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if len(key) != 2 || p == len(t.str) || p == 0 {
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return p, p, p, false
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}
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s := t.str
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// Find the correct extension.
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for p++; s[p] != 'u'; p++ {
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if s[p] > 'u' {
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p--
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return p, p, p, false
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}
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if p = nextExtension(s, p); p == len(s) {
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return len(s), len(s), len(s), false
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}
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}
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// Proceed to the hyphen following the extension name.
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p++
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// curKey is the key currently being processed.
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curKey := ""
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// Iterate over keys until we get the end of a section.
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for {
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end = p
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for p++; p < len(s) && s[p] != '-'; p++ {
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}
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n := p - end - 1
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if n <= 2 && curKey == key {
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if sep < end {
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sep++
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}
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return start, sep, end, true
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}
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switch n {
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case 0, // invalid string
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1: // next extension
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return end, end, end, true
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case 2:
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// next key
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curKey = s[end+1 : p]
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if curKey > key {
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return end, end, end, true
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}
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start = end
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sep = p
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}
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}
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}
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// ParseBase parses a 2- or 3-letter ISO 639 code.
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// It returns a ValueError if s is a well-formed but unknown language identifier
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// or another error if another error occurred.
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func ParseBase(s string) (l Language, err error) {
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defer func() {
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if recover() != nil {
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l = 0
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err = ErrSyntax
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}
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}()
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if n := len(s); n < 2 || 3 < n {
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return 0, ErrSyntax
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}
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var buf [3]byte
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return getLangID(buf[:copy(buf[:], s)])
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}
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// ParseScript parses a 4-letter ISO 15924 code.
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// It returns a ValueError if s is a well-formed but unknown script identifier
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// or another error if another error occurred.
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func ParseScript(s string) (scr Script, err error) {
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defer func() {
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if recover() != nil {
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scr = 0
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err = ErrSyntax
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}
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}()
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if len(s) != 4 {
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return 0, ErrSyntax
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}
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var buf [4]byte
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return getScriptID(script, buf[:copy(buf[:], s)])
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}
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// EncodeM49 returns the Region for the given UN M.49 code.
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// It returns an error if r is not a valid code.
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func EncodeM49(r int) (Region, error) {
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return getRegionM49(r)
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}
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// ParseRegion parses a 2- or 3-letter ISO 3166-1 or a UN M.49 code.
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// It returns a ValueError if s is a well-formed but unknown region identifier
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// or another error if another error occurred.
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func ParseRegion(s string) (r Region, err error) {
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defer func() {
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if recover() != nil {
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r = 0
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err = ErrSyntax
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|
}
|
|
}()
|
|
|
|
if n := len(s); n < 2 || 3 < n {
|
|
return 0, ErrSyntax
|
|
}
|
|
var buf [3]byte
|
|
return getRegionID(buf[:copy(buf[:], s)])
|
|
}
|
|
|
|
// IsCountry returns whether this region is a country or autonomous area. This
|
|
// includes non-standard definitions from CLDR.
|
|
func (r Region) IsCountry() bool {
|
|
if r == 0 || r.IsGroup() || r.IsPrivateUse() && r != _XK {
|
|
return false
|
|
}
|
|
return true
|
|
}
|
|
|
|
// IsGroup returns whether this region defines a collection of regions. This
|
|
// includes non-standard definitions from CLDR.
|
|
func (r Region) IsGroup() bool {
|
|
if r == 0 {
|
|
return false
|
|
}
|
|
return int(regionInclusion[r]) < len(regionContainment)
|
|
}
|
|
|
|
// Contains returns whether Region c is contained by Region r. It returns true
|
|
// if c == r.
|
|
func (r Region) Contains(c Region) bool {
|
|
if r == c {
|
|
return true
|
|
}
|
|
g := regionInclusion[r]
|
|
if g >= nRegionGroups {
|
|
return false
|
|
}
|
|
m := regionContainment[g]
|
|
|
|
d := regionInclusion[c]
|
|
b := regionInclusionBits[d]
|
|
|
|
// A contained country may belong to multiple disjoint groups. Matching any
|
|
// of these indicates containment. If the contained region is a group, it
|
|
// must strictly be a subset.
|
|
if d >= nRegionGroups {
|
|
return b&m != 0
|
|
}
|
|
return b&^m == 0
|
|
}
|
|
|
|
var errNoTLD = errors.New("language: region is not a valid ccTLD")
|
|
|
|
// 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) {
|
|
// See http://en.wikipedia.org/wiki/Country_code_top-level_domain for the
|
|
// difference between ISO 3166-1 and IANA ccTLD.
|
|
if r == _GB {
|
|
r = _UK
|
|
}
|
|
if (r.typ() & ccTLD) == 0 {
|
|
return 0, errNoTLD
|
|
}
|
|
return r, nil
|
|
}
|
|
|
|
// 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 {
|
|
if cr := normRegion(r); cr != 0 {
|
|
return cr
|
|
}
|
|
return r
|
|
}
|
|
|
|
// Variant represents a registered variant of a language as defined by BCP 47.
|
|
type Variant struct {
|
|
ID uint8
|
|
str string
|
|
}
|
|
|
|
// ParseVariant parses and returns a Variant. An error is returned if s is not
|
|
// a valid variant.
|
|
func ParseVariant(s string) (v Variant, err error) {
|
|
defer func() {
|
|
if recover() != nil {
|
|
v = Variant{}
|
|
err = ErrSyntax
|
|
}
|
|
}()
|
|
|
|
s = strings.ToLower(s)
|
|
if id, ok := variantIndex[s]; ok {
|
|
return Variant{id, s}, nil
|
|
}
|
|
return Variant{}, NewValueError([]byte(s))
|
|
}
|
|
|
|
// String returns the string representation of the variant.
|
|
func (v Variant) String() string {
|
|
return v.str
|
|
}
|