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matterbridge/vendor/golang.org/x/text/language/display/maketables.go

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2017-02-18 22:00:46 +00:00
// Copyright 2014 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.
// +build ignore
// Generator for display name tables.
package main
import (
"bytes"
"flag"
"fmt"
"log"
"reflect"
"sort"
"strings"
"golang.org/x/text/internal/gen"
"golang.org/x/text/language"
"golang.org/x/text/unicode/cldr"
)
var (
test = flag.Bool("test", false,
"test existing tables; can be used to compare web data with package data.")
outputFile = flag.String("output", "tables.go", "output file")
stats = flag.Bool("stats", false, "prints statistics to stderr")
short = flag.Bool("short", false, `Use "short" alternatives, when available.`)
draft = flag.String("draft",
"contributed",
`Minimal draft requirements (approved, contributed, provisional, unconfirmed).`)
pkg = flag.String("package",
"display",
"the name of the package in which the generated file is to be included")
tags = newTagSet("tags",
[]language.Tag{},
"space-separated list of tags to include or empty for all")
dict = newTagSet("dict",
dictTags(),
"space-separated list or tags for which to include a Dictionary. "+
`"" means the common list from go.text/language.`)
)
func dictTags() (tag []language.Tag) {
// TODO: replace with language.Common.Tags() once supported.
const str = "af am ar ar-001 az bg bn ca cs da de el en en-US en-GB " +
"es es-ES es-419 et fa fi fil fr fr-CA gu he hi hr hu hy id is it ja " +
"ka kk km kn ko ky lo lt lv mk ml mn mr ms my ne nl no pa pl pt pt-BR " +
"pt-PT ro ru si sk sl sq sr sr-Latn sv sw ta te th tr uk ur uz vi " +
"zh zh-Hans zh-Hant zu"
for _, s := range strings.Split(str, " ") {
tag = append(tag, language.MustParse(s))
}
return tag
}
func main() {
gen.Init()
// Read the CLDR zip file.
r := gen.OpenCLDRCoreZip()
defer r.Close()
d := &cldr.Decoder{}
d.SetDirFilter("main", "supplemental")
d.SetSectionFilter("localeDisplayNames")
data, err := d.DecodeZip(r)
if err != nil {
log.Fatalf("DecodeZip: %v", err)
}
w := gen.NewCodeWriter()
defer w.WriteGoFile(*outputFile, "display")
gen.WriteCLDRVersion(w)
b := builder{
w: w,
data: data,
group: make(map[string]*group),
}
b.generate()
}
const tagForm = language.All
// tagSet is used to parse command line flags of tags. It implements the
// flag.Value interface.
type tagSet map[language.Tag]bool
func newTagSet(name string, tags []language.Tag, usage string) tagSet {
f := tagSet(make(map[language.Tag]bool))
for _, t := range tags {
f[t] = true
}
flag.Var(f, name, usage)
return f
}
// String implements the String method of the flag.Value interface.
func (f tagSet) String() string {
tags := []string{}
for t := range f {
tags = append(tags, t.String())
}
sort.Strings(tags)
return strings.Join(tags, " ")
}
// Set implements Set from the flag.Value interface.
func (f tagSet) Set(s string) error {
if s != "" {
for _, s := range strings.Split(s, " ") {
if s != "" {
tag, err := tagForm.Parse(s)
if err != nil {
return err
}
f[tag] = true
}
}
}
return nil
}
func (f tagSet) contains(t language.Tag) bool {
if len(f) == 0 {
return true
}
return f[t]
}
// builder is used to create all tables with display name information.
type builder struct {
w *gen.CodeWriter
data *cldr.CLDR
fromLocs []string
// destination tags for the current locale.
toTags []string
toTagIndex map[string]int
// list of supported tags
supported []language.Tag
// key-value pairs per group
group map[string]*group
// statistics
sizeIndex int // total size of all indexes of headers
sizeData int // total size of all data of headers
totalSize int
}
type group struct {
// Maps from a given language to the Namer data for this language.
lang map[language.Tag]keyValues
headers []header
toTags []string
threeStart int
fourPlusStart int
}
// set sets the typ to the name for locale loc.
func (g *group) set(t language.Tag, typ, name string) {
kv := g.lang[t]
if kv == nil {
kv = make(keyValues)
g.lang[t] = kv
}
if kv[typ] == "" {
kv[typ] = name
}
}
type keyValues map[string]string
type header struct {
tag language.Tag
data string
index []uint16
}
var versionInfo = `// Version is deprecated. Use CLDRVersion.
const Version = %#v
`
var self = language.MustParse("mul")
// generate builds and writes all tables.
func (b *builder) generate() {
fmt.Fprintf(b.w, versionInfo, cldr.Version)
b.filter()
b.setData("lang", func(g *group, loc language.Tag, ldn *cldr.LocaleDisplayNames) {
if ldn.Languages != nil {
for _, v := range ldn.Languages.Language {
lang := v.Type
if lang == "root" {
// We prefer the data from "und"
// TODO: allow both the data for root and und somehow.
continue
}
tag := tagForm.MustParse(lang)
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if tags.contains(tag) {
g.set(loc, tag.String(), v.Data())
}
}
}
})
b.setData("script", func(g *group, loc language.Tag, ldn *cldr.LocaleDisplayNames) {
if ldn.Scripts != nil {
for _, v := range ldn.Scripts.Script {
code := language.MustParseScript(v.Type)
if code.IsPrivateUse() { // Qaaa..Qabx
// TODO: data currently appears to be very meager.
// Reconsider if we have data for English.
if loc == language.English {
log.Fatal("Consider including data for private use scripts.")
}
continue
}
g.set(loc, code.String(), v.Data())
}
}
})
b.setData("region", func(g *group, loc language.Tag, ldn *cldr.LocaleDisplayNames) {
if ldn.Territories != nil {
for _, v := range ldn.Territories.Territory {
g.set(loc, language.MustParseRegion(v.Type).String(), v.Data())
}
}
})
b.makeSupported()
b.writeParents()
b.writeGroup("lang")
b.writeGroup("script")
b.writeGroup("region")
b.w.WriteConst("numSupported", len(b.supported))
buf := bytes.Buffer{}
for _, tag := range b.supported {
fmt.Fprint(&buf, tag.String(), "|")
}
b.w.WriteConst("supported", buf.String())
b.writeDictionaries()
b.supported = []language.Tag{self}
// Compute the names of locales in their own language. Some of these names
// may be specified in their parent locales. We iterate the maximum depth
// of the parent three times to match successive parents of tags until a
// possible match is found.
for i := 0; i < 4; i++ {
b.setData("self", func(g *group, tag language.Tag, ldn *cldr.LocaleDisplayNames) {
parent := tag
if b, s, r := tag.Raw(); i > 0 && (s != language.Script{} && r == language.Region{}) {
parent, _ = language.Raw.Compose(b)
}
if ldn.Languages != nil {
for _, v := range ldn.Languages.Language {
key := tagForm.MustParse(v.Type)
saved := key
if key == parent {
g.set(self, tag.String(), v.Data())
}
for k := 0; k < i; k++ {
key = key.Parent()
}
if key == tag {
g.set(self, saved.String(), v.Data()) // set does not overwrite a value.
}
}
}
})
}
b.writeGroup("self")
}
func (b *builder) setData(name string, f func(*group, language.Tag, *cldr.LocaleDisplayNames)) {
b.sizeIndex = 0
b.sizeData = 0
b.toTags = nil
b.fromLocs = nil
b.toTagIndex = make(map[string]int)
g := b.group[name]
if g == nil {
g = &group{lang: make(map[language.Tag]keyValues)}
b.group[name] = g
}
for _, loc := range b.data.Locales() {
// We use RawLDML instead of LDML as we are managing our own inheritance
// in this implementation.
ldml := b.data.RawLDML(loc)
// We do not support the POSIX variant (it is not a supported BCP 47
// variant). This locale also doesn't happen to contain any data, so
// we'll skip it by checking for this.
tag, err := tagForm.Parse(loc)
if err != nil {
if ldml.LocaleDisplayNames != nil {
log.Fatalf("setData: %v", err)
}
continue
}
if ldml.LocaleDisplayNames != nil && tags.contains(tag) {
f(g, tag, ldml.LocaleDisplayNames)
}
}
}
func (b *builder) filter() {
filter := func(s *cldr.Slice) {
if *short {
s.SelectOnePerGroup("alt", []string{"short", ""})
} else {
s.SelectOnePerGroup("alt", []string{"stand-alone", ""})
}
d, err := cldr.ParseDraft(*draft)
if err != nil {
log.Fatalf("filter: %v", err)
}
s.SelectDraft(d)
}
for _, loc := range b.data.Locales() {
if ldn := b.data.RawLDML(loc).LocaleDisplayNames; ldn != nil {
if ldn.Languages != nil {
s := cldr.MakeSlice(&ldn.Languages.Language)
if filter(&s); len(ldn.Languages.Language) == 0 {
ldn.Languages = nil
}
}
if ldn.Scripts != nil {
s := cldr.MakeSlice(&ldn.Scripts.Script)
if filter(&s); len(ldn.Scripts.Script) == 0 {
ldn.Scripts = nil
}
}
if ldn.Territories != nil {
s := cldr.MakeSlice(&ldn.Territories.Territory)
if filter(&s); len(ldn.Territories.Territory) == 0 {
ldn.Territories = nil
}
}
}
}
}
// makeSupported creates a list of all supported locales.
func (b *builder) makeSupported() {
// tags across groups
for _, g := range b.group {
for t, _ := range g.lang {
b.supported = append(b.supported, t)
}
}
b.supported = b.supported[:unique(tagsSorter(b.supported))]
}
type tagsSorter []language.Tag
func (a tagsSorter) Len() int { return len(a) }
func (a tagsSorter) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a tagsSorter) Less(i, j int) bool { return a[i].String() < a[j].String() }
func (b *builder) writeGroup(name string) {
g := b.group[name]
for _, kv := range g.lang {
for t, _ := range kv {
g.toTags = append(g.toTags, t)
}
}
g.toTags = g.toTags[:unique(tagsBySize(g.toTags))]
// Allocate header per supported value.
g.headers = make([]header, len(b.supported))
for i, sup := range b.supported {
kv, ok := g.lang[sup]
if !ok {
g.headers[i].tag = sup
continue
}
data := []byte{}
index := make([]uint16, len(g.toTags), len(g.toTags)+1)
for j, t := range g.toTags {
index[j] = uint16(len(data))
data = append(data, kv[t]...)
}
index = append(index, uint16(len(data)))
// Trim the tail of the index.
// TODO: indexes can be reduced in size quite a bit more.
n := len(index)
for ; n >= 2 && index[n-2] == index[n-1]; n-- {
}
index = index[:n]
// Workaround for a bug in CLDR 26.
// See http://unicode.org/cldr/trac/ticket/8042.
if cldr.Version == "26" && sup.String() == "hsb" {
data = bytes.Replace(data, []byte{'"'}, nil, 1)
}
g.headers[i] = header{sup, string(data), index}
}
g.writeTable(b.w, name)
}
type tagsBySize []string
func (l tagsBySize) Len() int { return len(l) }
func (l tagsBySize) Swap(i, j int) { l[i], l[j] = l[j], l[i] }
func (l tagsBySize) Less(i, j int) bool {
a, b := l[i], l[j]
// Sort single-tag entries based on size first. Otherwise alphabetic.
if len(a) != len(b) && (len(a) <= 4 || len(b) <= 4) {
return len(a) < len(b)
}
return a < b
}
// parentIndices returns slice a of len(tags) where tags[a[i]] is the parent
// of tags[i].
func parentIndices(tags []language.Tag) []int16 {
index := make(map[language.Tag]int16)
for i, t := range tags {
index[t] = int16(i)
}
// Construct default parents.
parents := make([]int16, len(tags))
for i, t := range tags {
parents[i] = -1
for t = t.Parent(); t != language.Und; t = t.Parent() {
if j, ok := index[t]; ok {
parents[i] = j
break
}
}
}
return parents
}
func (b *builder) writeParents() {
parents := parentIndices(b.supported)
fmt.Fprintf(b.w, "var parents = ")
b.w.WriteArray(parents)
}
// writeKeys writes keys to a special index used by the display package.
// tags are assumed to be sorted by length.
func writeKeys(w *gen.CodeWriter, name string, keys []string) {
w.Size += int(3 * reflect.TypeOf("").Size())
w.WriteComment("Number of keys: %d", len(keys))
fmt.Fprintf(w, "var (\n\t%sIndex = tagIndex{\n", name)
for i := 2; i <= 4; i++ {
sub := []string{}
for _, t := range keys {
if len(t) != i {
break
}
sub = append(sub, t)
}
s := strings.Join(sub, "")
w.WriteString(s)
fmt.Fprintf(w, ",\n")
keys = keys[len(sub):]
}
fmt.Fprintln(w, "\t}")
if len(keys) > 0 {
w.Size += int(reflect.TypeOf([]string{}).Size())
fmt.Fprintf(w, "\t%sTagsLong = ", name)
w.WriteSlice(keys)
}
fmt.Fprintln(w, ")\n")
}
// identifier creates an identifier from the given tag.
func identifier(t language.Tag) string {
return strings.Replace(t.String(), "-", "", -1)
}
func (h *header) writeEntry(w *gen.CodeWriter, name string) {
if len(dict) > 0 && dict.contains(h.tag) {
fmt.Fprintf(w, "\t{ // %s\n", h.tag)
fmt.Fprintf(w, "\t\t%[1]s%[2]sStr,\n\t\t%[1]s%[2]sIdx,\n", identifier(h.tag), name)
fmt.Fprintln(w, "\t},")
} else if len(h.data) == 0 {
fmt.Fprintln(w, "\t\t{}, //", h.tag)
} else {
fmt.Fprintf(w, "\t{ // %s\n", h.tag)
w.WriteString(h.data)
fmt.Fprintln(w, ",")
w.WriteSlice(h.index)
fmt.Fprintln(w, ",\n\t},")
}
}
// write the data for the given header as single entries. The size for this data
// was already accounted for in writeEntry.
func (h *header) writeSingle(w *gen.CodeWriter, name string) {
if len(dict) > 0 && dict.contains(h.tag) {
tag := identifier(h.tag)
w.WriteConst(tag+name+"Str", h.data)
// Note that we create a slice instead of an array. If we use an array
// we need to refer to it as a[:] in other tables, which will cause the
// array to always be included by the linker. See Issue 7651.
w.WriteVar(tag+name+"Idx", h.index)
}
}
// WriteTable writes an entry for a single Namer.
func (g *group) writeTable(w *gen.CodeWriter, name string) {
start := w.Size
writeKeys(w, name, g.toTags)
w.Size += len(g.headers) * int(reflect.ValueOf(g.headers[0]).Type().Size())
fmt.Fprintf(w, "var %sHeaders = [%d]header{\n", name, len(g.headers))
title := strings.Title(name)
for _, h := range g.headers {
h.writeEntry(w, title)
}
fmt.Fprintln(w, "}\n")
for _, h := range g.headers {
h.writeSingle(w, title)
}
n := w.Size - start
fmt.Fprintf(w, "// Total size for %s: %d bytes (%d KB)\n\n", name, n, n/1000)
}
func (b *builder) writeDictionaries() {
fmt.Fprintln(b.w, "// Dictionary entries of frequent languages")
fmt.Fprintln(b.w, "var (")
parents := parentIndices(b.supported)
for i, t := range b.supported {
if dict.contains(t) {
ident := identifier(t)
fmt.Fprintf(b.w, "\t%s = Dictionary{ // %s\n", ident, t)
if p := parents[i]; p == -1 {
fmt.Fprintln(b.w, "\t\tnil,")
} else {
fmt.Fprintf(b.w, "\t\t&%s,\n", identifier(b.supported[p]))
}
fmt.Fprintf(b.w, "\t\theader{%[1]sLangStr, %[1]sLangIdx},\n", ident)
fmt.Fprintf(b.w, "\t\theader{%[1]sScriptStr, %[1]sScriptIdx},\n", ident)
fmt.Fprintf(b.w, "\t\theader{%[1]sRegionStr, %[1]sRegionIdx},\n", ident)
fmt.Fprintln(b.w, "\t}")
}
}
fmt.Fprintln(b.w, ")")
var s string
var a []uint16
sz := reflect.TypeOf(s).Size()
sz += reflect.TypeOf(a).Size()
sz *= 3
sz += reflect.TypeOf(&a).Size()
n := int(sz) * len(dict)
fmt.Fprintf(b.w, "// Total size for %d entries: %d bytes (%d KB)\n\n", len(dict), n, n/1000)
b.w.Size += n
}
// unique sorts the given lists and removes duplicate entries by swapping them
// past position k, where k is the number of unique values. It returns k.
func unique(a sort.Interface) int {
if a.Len() == 0 {
return 0
}
sort.Sort(a)
k := 1
for i := 1; i < a.Len(); i++ {
if a.Less(k-1, i) {
if k != i {
a.Swap(k, i)
}
k++
}
}
return k
}