mirror of https://github.com/go-gitea/gitea.git
306 lines
8.6 KiB
Go
306 lines
8.6 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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// +build ignore
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// Language tag table generator.
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// Data read from the web.
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package main
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import (
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"flag"
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"fmt"
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"io"
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"log"
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"sort"
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"strconv"
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"strings"
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"golang.org/x/text/internal/gen"
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"golang.org/x/text/internal/language"
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"golang.org/x/text/unicode/cldr"
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)
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var (
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test = flag.Bool("test",
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false,
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"test existing tables; can be used to compare web data with package data.")
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outputFile = flag.String("output",
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"tables.go",
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"output file for generated tables")
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)
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func main() {
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gen.Init()
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w := gen.NewCodeWriter()
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defer w.WriteGoFile("tables.go", "language")
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b := newBuilder(w)
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gen.WriteCLDRVersion(w)
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b.writeConstants()
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b.writeMatchData()
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}
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type builder struct {
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w *gen.CodeWriter
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hw io.Writer // MultiWriter for w and w.Hash
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data *cldr.CLDR
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supp *cldr.SupplementalData
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}
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func (b *builder) langIndex(s string) uint16 {
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return uint16(language.MustParseBase(s))
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}
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func (b *builder) regionIndex(s string) int {
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return int(language.MustParseRegion(s))
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}
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func (b *builder) scriptIndex(s string) int {
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return int(language.MustParseScript(s))
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}
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func newBuilder(w *gen.CodeWriter) *builder {
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r := gen.OpenCLDRCoreZip()
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defer r.Close()
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d := &cldr.Decoder{}
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data, err := d.DecodeZip(r)
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if err != nil {
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log.Fatal(err)
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}
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b := builder{
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w: w,
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hw: io.MultiWriter(w, w.Hash),
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data: data,
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supp: data.Supplemental(),
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}
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return &b
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}
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// writeConsts computes f(v) for all v in values and writes the results
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// as constants named _v to a single constant block.
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func (b *builder) writeConsts(f func(string) int, values ...string) {
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fmt.Fprintln(b.w, "const (")
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for _, v := range values {
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fmt.Fprintf(b.w, "\t_%s = %v\n", v, f(v))
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}
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fmt.Fprintln(b.w, ")")
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}
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// TODO: region inclusion data will probably not be use used in future matchers.
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var langConsts = []string{
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"de", "en", "fr", "it", "mo", "no", "nb", "pt", "sh", "mul", "und",
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}
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var scriptConsts = []string{
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"Latn", "Hani", "Hans", "Hant", "Qaaa", "Qaai", "Qabx", "Zinh", "Zyyy",
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"Zzzz",
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}
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var regionConsts = []string{
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"001", "419", "BR", "CA", "ES", "GB", "MD", "PT", "UK", "US",
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"ZZ", "XA", "XC", "XK", // Unofficial tag for Kosovo.
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}
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func (b *builder) writeConstants() {
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b.writeConsts(func(s string) int { return int(b.langIndex(s)) }, langConsts...)
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b.writeConsts(b.regionIndex, regionConsts...)
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b.writeConsts(b.scriptIndex, scriptConsts...)
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}
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type mutualIntelligibility struct {
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want, have uint16
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distance uint8
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oneway bool
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}
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type scriptIntelligibility struct {
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wantLang, haveLang uint16
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wantScript, haveScript uint8
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distance uint8
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// Always oneway
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}
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type regionIntelligibility struct {
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lang uint16 // compact language id
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script uint8 // 0 means any
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group uint8 // 0 means any; if bit 7 is set it means inverse
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distance uint8
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// Always twoway.
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}
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// writeMatchData writes tables with languages and scripts for which there is
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// mutual intelligibility. The data is based on CLDR's languageMatching data.
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// Note that we use a different algorithm than the one defined by CLDR and that
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// we slightly modify the data. For example, we convert scores to confidence levels.
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// We also drop all region-related data as we use a different algorithm to
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// determine region equivalence.
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func (b *builder) writeMatchData() {
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lm := b.supp.LanguageMatching.LanguageMatches
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cldr.MakeSlice(&lm).SelectAnyOf("type", "written_new")
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regionHierarchy := map[string][]string{}
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for _, g := range b.supp.TerritoryContainment.Group {
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regions := strings.Split(g.Contains, " ")
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regionHierarchy[g.Type] = append(regionHierarchy[g.Type], regions...)
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}
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regionToGroups := make([]uint8, language.NumRegions)
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idToIndex := map[string]uint8{}
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for i, mv := range lm[0].MatchVariable {
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if i > 6 {
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log.Fatalf("Too many groups: %d", i)
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}
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idToIndex[mv.Id] = uint8(i + 1)
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// TODO: also handle '-'
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for _, r := range strings.Split(mv.Value, "+") {
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todo := []string{r}
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for k := 0; k < len(todo); k++ {
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r := todo[k]
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regionToGroups[b.regionIndex(r)] |= 1 << uint8(i)
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todo = append(todo, regionHierarchy[r]...)
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}
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}
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}
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b.w.WriteVar("regionToGroups", regionToGroups)
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// maps language id to in- and out-of-group region.
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paradigmLocales := [][3]uint16{}
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locales := strings.Split(lm[0].ParadigmLocales[0].Locales, " ")
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for i := 0; i < len(locales); i += 2 {
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x := [3]uint16{}
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for j := 0; j < 2; j++ {
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pc := strings.SplitN(locales[i+j], "-", 2)
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x[0] = b.langIndex(pc[0])
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if len(pc) == 2 {
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x[1+j] = uint16(b.regionIndex(pc[1]))
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}
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}
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paradigmLocales = append(paradigmLocales, x)
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}
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b.w.WriteVar("paradigmLocales", paradigmLocales)
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b.w.WriteType(mutualIntelligibility{})
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b.w.WriteType(scriptIntelligibility{})
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b.w.WriteType(regionIntelligibility{})
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matchLang := []mutualIntelligibility{}
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matchScript := []scriptIntelligibility{}
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matchRegion := []regionIntelligibility{}
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// Convert the languageMatch entries in lists keyed by desired language.
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for _, m := range lm[0].LanguageMatch {
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// Different versions of CLDR use different separators.
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desired := strings.Replace(m.Desired, "-", "_", -1)
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supported := strings.Replace(m.Supported, "-", "_", -1)
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d := strings.Split(desired, "_")
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s := strings.Split(supported, "_")
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if len(d) != len(s) {
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log.Fatalf("not supported: desired=%q; supported=%q", desired, supported)
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continue
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}
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distance, _ := strconv.ParseInt(m.Distance, 10, 8)
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switch len(d) {
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case 2:
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if desired == supported && desired == "*_*" {
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continue
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}
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// language-script pair.
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matchScript = append(matchScript, scriptIntelligibility{
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wantLang: uint16(b.langIndex(d[0])),
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haveLang: uint16(b.langIndex(s[0])),
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wantScript: uint8(b.scriptIndex(d[1])),
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haveScript: uint8(b.scriptIndex(s[1])),
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distance: uint8(distance),
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})
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if m.Oneway != "true" {
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matchScript = append(matchScript, scriptIntelligibility{
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wantLang: uint16(b.langIndex(s[0])),
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haveLang: uint16(b.langIndex(d[0])),
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wantScript: uint8(b.scriptIndex(s[1])),
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haveScript: uint8(b.scriptIndex(d[1])),
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distance: uint8(distance),
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})
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}
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case 1:
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if desired == supported && desired == "*" {
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continue
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}
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if distance == 1 {
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// nb == no is already handled by macro mapping. Check there
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// really is only this case.
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if d[0] != "no" || s[0] != "nb" {
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log.Fatalf("unhandled equivalence %s == %s", s[0], d[0])
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}
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continue
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}
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// TODO: consider dropping oneway field and just doubling the entry.
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matchLang = append(matchLang, mutualIntelligibility{
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want: uint16(b.langIndex(d[0])),
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have: uint16(b.langIndex(s[0])),
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distance: uint8(distance),
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oneway: m.Oneway == "true",
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})
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case 3:
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if desired == supported && desired == "*_*_*" {
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continue
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}
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if desired != supported {
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// This is now supported by CLDR, but only one case, which
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// should already be covered by paradigm locales. For instance,
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// test case "und, en, en-GU, en-IN, en-GB ; en-ZA ; en-GB" in
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// testdata/CLDRLocaleMatcherTest.txt tests this.
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if supported != "en_*_GB" {
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log.Fatalf("not supported: desired=%q; supported=%q", desired, supported)
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}
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continue
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}
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ri := regionIntelligibility{
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lang: b.langIndex(d[0]),
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distance: uint8(distance),
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}
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if d[1] != "*" {
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ri.script = uint8(b.scriptIndex(d[1]))
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}
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switch {
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case d[2] == "*":
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ri.group = 0x80 // not contained in anything
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case strings.HasPrefix(d[2], "$!"):
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ri.group = 0x80
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d[2] = "$" + d[2][len("$!"):]
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fallthrough
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case strings.HasPrefix(d[2], "$"):
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ri.group |= idToIndex[d[2]]
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}
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matchRegion = append(matchRegion, ri)
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default:
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log.Fatalf("not supported: desired=%q; supported=%q", desired, supported)
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}
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}
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sort.SliceStable(matchLang, func(i, j int) bool {
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return matchLang[i].distance < matchLang[j].distance
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})
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b.w.WriteComment(`
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matchLang holds pairs of langIDs of base languages that are typically
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mutually intelligible. Each pair is associated with a confidence and
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whether the intelligibility goes one or both ways.`)
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b.w.WriteVar("matchLang", matchLang)
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b.w.WriteComment(`
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matchScript holds pairs of scriptIDs where readers of one script
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can typically also read the other. Each is associated with a confidence.`)
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sort.SliceStable(matchScript, func(i, j int) bool {
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return matchScript[i].distance < matchScript[j].distance
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})
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b.w.WriteVar("matchScript", matchScript)
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sort.SliceStable(matchRegion, func(i, j int) bool {
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return matchRegion[i].distance < matchRegion[j].distance
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})
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b.w.WriteVar("matchRegion", matchRegion)
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}
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