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restic/vendor/golang.org/x/text/language/examples_test.go
Alexander Neumann 2b39f9f4b2 Update dependencies
Among others, this updates minio-go, so that the new "eu-west-3" zone
for AWS is supported.
2018-01-23 19:40:42 +01:00

414 lines
11 KiB
Go

// 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.
package language_test
import (
"fmt"
"net/http"
"golang.org/x/text/language"
)
func ExampleCanonType() {
p := func(id string) {
fmt.Printf("Default(%s) -> %s\n", id, language.Make(id))
fmt.Printf("BCP47(%s) -> %s\n", id, language.BCP47.Make(id))
fmt.Printf("Macro(%s) -> %s\n", id, language.Macro.Make(id))
fmt.Printf("All(%s) -> %s\n", id, language.All.Make(id))
}
p("en-Latn")
p("sh")
p("zh-cmn")
p("bjd")
p("iw-Latn-fonipa-u-cu-usd")
// Output:
// Default(en-Latn) -> en-Latn
// BCP47(en-Latn) -> en
// Macro(en-Latn) -> en-Latn
// All(en-Latn) -> en
// Default(sh) -> sr-Latn
// BCP47(sh) -> sh
// Macro(sh) -> sh
// All(sh) -> sr-Latn
// Default(zh-cmn) -> cmn
// BCP47(zh-cmn) -> cmn
// Macro(zh-cmn) -> zh
// All(zh-cmn) -> zh
// Default(bjd) -> drl
// BCP47(bjd) -> drl
// Macro(bjd) -> bjd
// All(bjd) -> drl
// Default(iw-Latn-fonipa-u-cu-usd) -> he-Latn-fonipa-u-cu-usd
// BCP47(iw-Latn-fonipa-u-cu-usd) -> he-Latn-fonipa-u-cu-usd
// Macro(iw-Latn-fonipa-u-cu-usd) -> iw-Latn-fonipa-u-cu-usd
// All(iw-Latn-fonipa-u-cu-usd) -> he-Latn-fonipa-u-cu-usd
}
func ExampleTag_Base() {
fmt.Println(language.Make("und").Base())
fmt.Println(language.Make("und-US").Base())
fmt.Println(language.Make("und-NL").Base())
fmt.Println(language.Make("und-419").Base()) // Latin America
fmt.Println(language.Make("und-ZZ").Base())
// Output:
// en Low
// en High
// nl High
// es Low
// en Low
}
func ExampleTag_Script() {
en := language.Make("en")
sr := language.Make("sr")
sr_Latn := language.Make("sr_Latn")
fmt.Println(en.Script())
fmt.Println(sr.Script())
// Was a script explicitly specified?
_, c := sr.Script()
fmt.Println(c == language.Exact)
_, c = sr_Latn.Script()
fmt.Println(c == language.Exact)
// Output:
// Latn High
// Cyrl Low
// false
// true
}
func ExampleTag_Region() {
ru := language.Make("ru")
en := language.Make("en")
fmt.Println(ru.Region())
fmt.Println(en.Region())
// Output:
// RU Low
// US Low
}
func ExampleRegion_TLD() {
us := language.MustParseRegion("US")
gb := language.MustParseRegion("GB")
uk := language.MustParseRegion("UK")
bu := language.MustParseRegion("BU")
fmt.Println(us.TLD())
fmt.Println(gb.TLD())
fmt.Println(uk.TLD())
fmt.Println(bu.TLD())
fmt.Println(us.Canonicalize().TLD())
fmt.Println(gb.Canonicalize().TLD())
fmt.Println(uk.Canonicalize().TLD())
fmt.Println(bu.Canonicalize().TLD())
// Output:
// US <nil>
// UK <nil>
// UK <nil>
// ZZ language: region is not a valid ccTLD
// US <nil>
// UK <nil>
// UK <nil>
// MM <nil>
}
func ExampleCompose() {
nl, _ := language.ParseBase("nl")
us, _ := language.ParseRegion("US")
de := language.Make("de-1901-u-co-phonebk")
jp := language.Make("ja-JP")
fi := language.Make("fi-x-ing")
u, _ := language.ParseExtension("u-nu-arabic")
x, _ := language.ParseExtension("x-piglatin")
// Combine a base language and region.
fmt.Println(language.Compose(nl, us))
// Combine a base language and extension.
fmt.Println(language.Compose(nl, x))
// Replace the region.
fmt.Println(language.Compose(jp, us))
// Combine several tags.
fmt.Println(language.Compose(us, nl, u))
// Replace the base language of a tag.
fmt.Println(language.Compose(de, nl))
fmt.Println(language.Compose(de, nl, u))
// Remove the base language.
fmt.Println(language.Compose(de, language.Base{}))
// Remove all variants.
fmt.Println(language.Compose(de, []language.Variant{}))
// Remove all extensions.
fmt.Println(language.Compose(de, []language.Extension{}))
fmt.Println(language.Compose(fi, []language.Extension{}))
// Remove all variants and extensions.
fmt.Println(language.Compose(de.Raw()))
// An error is gobbled or returned if non-nil.
fmt.Println(language.Compose(language.ParseRegion("ZA")))
fmt.Println(language.Compose(language.ParseRegion("HH")))
// Compose uses the same Default canonicalization as Make.
fmt.Println(language.Compose(language.Raw.Parse("en-Latn-UK")))
// Call compose on a different CanonType for different results.
fmt.Println(language.All.Compose(language.Raw.Parse("en-Latn-UK")))
// Output:
// nl-US <nil>
// nl-x-piglatin <nil>
// ja-US <nil>
// nl-US-u-nu-arabic <nil>
// nl-1901-u-co-phonebk <nil>
// nl-1901-u-nu-arabic <nil>
// und-1901-u-co-phonebk <nil>
// de-u-co-phonebk <nil>
// de-1901 <nil>
// fi <nil>
// de <nil>
// und-ZA <nil>
// und language: subtag "HH" is well-formed but unknown
// en-Latn-GB <nil>
// en-GB <nil>
}
func ExampleParse_errors() {
for _, s := range []string{"Foo", "Bar", "Foobar"} {
_, err := language.Parse(s)
if err != nil {
if inv, ok := err.(language.ValueError); ok {
fmt.Println(inv.Subtag())
} else {
fmt.Println(s)
}
}
}
for _, s := range []string{"en", "aa-Uuuu", "AC", "ac-u"} {
_, err := language.Parse(s)
switch e := err.(type) {
case language.ValueError:
fmt.Printf("%s: culprit %q\n", s, e.Subtag())
case nil:
// No error.
default:
// A syntax error.
fmt.Printf("%s: ill-formed\n", s)
}
}
// Output:
// foo
// Foobar
// aa-Uuuu: culprit "Uuuu"
// AC: culprit "ac"
// ac-u: ill-formed
}
func ExampleParent() {
p := func(tag string) {
fmt.Printf("parent(%v): %v\n", tag, language.Make(tag).Parent())
}
p("zh-CN")
// Australian English inherits from World English.
p("en-AU")
// If the tag has a different maximized script from its parent, a tag with
// this maximized script is inserted. This allows different language tags
// which have the same base language and script in common to inherit from
// a common set of settings.
p("zh-HK")
// If the maximized script of the parent is not identical, CLDR will skip
// inheriting from it, as it means there will not be many entries in common
// and inheriting from it is nonsensical.
p("zh-Hant")
// The parent of a tag with variants and extensions is the tag with all
// variants and extensions removed.
p("de-1994-u-co-phonebk")
// Remove default script.
p("de-Latn-LU")
// Output:
// parent(zh-CN): zh
// parent(en-AU): en-001
// parent(zh-HK): zh-Hant
// parent(zh-Hant): und
// parent(de-1994-u-co-phonebk): de
// parent(de-Latn-LU): de
}
// ExampleMatcher_bestMatch gives some examples of getting the best match of
// a set of tags to any of the tags of given set.
func ExampleMatcher() {
// This is the set of tags from which we want to pick the best match. These
// can be, for example, the supported languages for some package.
tags := []language.Tag{
language.English,
language.BritishEnglish,
language.French,
language.Afrikaans,
language.BrazilianPortuguese,
language.EuropeanPortuguese,
language.Croatian,
language.SimplifiedChinese,
language.Raw.Make("iw-IL"),
language.Raw.Make("iw"),
language.Raw.Make("he"),
}
m := language.NewMatcher(tags)
// A simple match.
fmt.Println(m.Match(language.Make("fr")))
// Australian English is closer to British than American English.
fmt.Println(m.Match(language.Make("en-AU")))
// Default to the first tag passed to the Matcher if there is no match.
fmt.Println(m.Match(language.Make("ar")))
// Get the default tag.
fmt.Println(m.Match())
fmt.Println("----")
// Someone specifying sr-Latn is probably fine with getting Croatian.
fmt.Println(m.Match(language.Make("sr-Latn")))
// We match SimplifiedChinese, but with Low confidence.
fmt.Println(m.Match(language.TraditionalChinese))
// Serbian in Latin script is a closer match to Croatian than Traditional
// Chinese to Simplified Chinese.
fmt.Println(m.Match(language.TraditionalChinese, language.Make("sr-Latn")))
fmt.Println("----")
// In case a multiple variants of a language are available, the most spoken
// variant is typically returned.
fmt.Println(m.Match(language.Portuguese))
// Pick the first value passed to Match in case of a tie.
fmt.Println(m.Match(language.Dutch, language.Make("fr-BE"), language.Make("af-NA")))
fmt.Println(m.Match(language.Dutch, language.Make("af-NA"), language.Make("fr-BE")))
fmt.Println("----")
// If a Matcher is initialized with a language and it's deprecated version,
// it will distinguish between them.
fmt.Println(m.Match(language.Raw.Make("iw")))
// However, for non-exact matches, it will treat deprecated versions as
// equivalent and consider other factors first.
fmt.Println(m.Match(language.Raw.Make("he-IL")))
fmt.Println("----")
// User settings passed to the Unicode extension are ignored for matching
// and preserved in the returned tag.
fmt.Println(m.Match(language.Make("de-u-co-phonebk"), language.Make("fr-u-cu-frf")))
// Even if the matching language is different.
fmt.Println(m.Match(language.Make("de-u-co-phonebk"), language.Make("br-u-cu-frf")))
// If there is no matching language, the options of the first preferred tag are used.
fmt.Println(m.Match(language.Make("de-u-co-phonebk")))
// Output:
// fr 2 Exact
// en-GB 1 High
// en 0 No
// en 0 No
// ----
// hr 6 High
// zh-Hans 7 Low
// hr 6 High
// ----
// pt-BR 4 High
// fr 2 High
// af 3 High
// ----
// iw 9 Exact
// he 10 Exact
// ----
// fr-u-cu-frf 2 Exact
// fr-u-cu-frf 2 High
// en-u-co-phonebk 0 No
// TODO: "he" should be "he-u-rg-IL High"
}
func ExampleMatchStrings() {
// languages supported by this service:
matcher := language.NewMatcher([]language.Tag{
language.English, language.Dutch, language.German,
})
http.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
lang, _ := r.Cookie("lang")
tag, _ := language.MatchStrings(matcher, lang.String(), r.Header.Get("Accept-Language"))
fmt.Println("User language:", tag)
})
}
func ExampleComprehends() {
// Various levels of comprehensibility.
fmt.Println(language.Comprehends(language.English, language.English))
fmt.Println(language.Comprehends(language.AmericanEnglish, language.BritishEnglish))
// An explicit Und results in no match.
fmt.Println(language.Comprehends(language.English, language.Und))
fmt.Println("----")
// There is usually no mutual comprehensibility between different scripts.
fmt.Println(language.Comprehends(language.Make("en-Dsrt"), language.English))
// One exception is for Traditional versus Simplified Chinese, albeit with
// a low confidence.
fmt.Println(language.Comprehends(language.TraditionalChinese, language.SimplifiedChinese))
fmt.Println("----")
// A Swiss German speaker will often understand High German.
fmt.Println(language.Comprehends(language.Make("gsw"), language.Make("de")))
// The converse is not generally the case.
fmt.Println(language.Comprehends(language.Make("de"), language.Make("gsw")))
// Output:
// Exact
// High
// No
// ----
// No
// Low
// ----
// High
// No
}
func ExampleTag_values() {
us := language.MustParseRegion("US")
en := language.MustParseBase("en")
lang, _, region := language.AmericanEnglish.Raw()
fmt.Println(lang == en, region == us)
lang, _, region = language.BritishEnglish.Raw()
fmt.Println(lang == en, region == us)
// Tags can be compared for exact equivalence using '=='.
en_us, _ := language.Compose(en, us)
fmt.Println(en_us == language.AmericanEnglish)
// Output:
// true true
// true false
// true
}