rclone/vendor/golang.org/x/text/language/match_test.go
2017-09-30 15:27:27 +01:00

506 lines
13 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
import (
"bytes"
"flag"
"fmt"
"os"
"path"
"path/filepath"
"strings"
"testing"
"golang.org/x/text/internal/testtext"
"golang.org/x/text/internal/ucd"
)
var verbose = flag.Bool("verbose", false, "set to true to print the internal tables of matchers")
func TestCompliance(t *testing.T) {
filepath.Walk("testdata", func(file string, info os.FileInfo, err error) error {
if info.IsDir() {
return nil
}
r, err := os.Open(file)
if err != nil {
t.Fatal(err)
}
ucd.Parse(r, func(p *ucd.Parser) {
name := strings.Replace(path.Join(p.String(0), p.String(1)), " ", "", -1)
if skip[name] {
return
}
t.Run(info.Name()+"/"+name, func(t *testing.T) {
supported := makeTagList(p.String(0))
desired := makeTagList(p.String(1))
gotCombined, index, conf := NewMatcher(supported).Match(desired...)
gotMatch := supported[index]
wantMatch := mk(p.String(2))
if gotMatch != wantMatch {
t.Fatalf("match: got %q; want %q (%v)", gotMatch, wantMatch, conf)
}
wantCombined, err := Raw.Parse(p.String(3))
if err == nil && gotCombined != wantCombined {
t.Errorf("combined: got %q; want %q (%v)", gotCombined, wantCombined, conf)
}
})
})
return nil
})
}
var skip = map[string]bool{
// TODO: bugs
// Honor the wildcard match. This may only be useful to select non-exact
// stuff.
"mul,af/nl": true, // match: got "af"; want "mul"
// TODO: include other extensions.
// combined: got "en-GB-u-ca-buddhist-nu-arab"; want "en-GB-fonipa-t-m0-iso-i0-pinyin-u-ca-buddhist-nu-arab"
"und,en-GB-u-sd-gbsct/en-fonipa-u-nu-Arab-ca-buddhist-t-m0-iso-i0-pinyin": true,
// Inconsistencies with Mark Davis' implementation where it is not clear
// which is better.
// Inconsistencies in combined. I think the Go approach is more appropriate.
// We could use -u-rg- and -u-va- as alternative.
"und,fr/fr-BE-fonipa": true, // combined: got "fr"; want "fr-BE-fonipa"
"und,fr-CA/fr-BE-fonipa": true, // combined: got "fr-CA"; want "fr-BE-fonipa"
"und,fr-fonupa/fr-BE-fonipa": true, // combined: got "fr-fonupa"; want "fr-BE-fonipa"
"und,no/nn-BE-fonipa": true, // combined: got "no"; want "no-BE-fonipa"
"50,und,fr-CA-fonupa/fr-BE-fonipa": true, // combined: got "fr-CA-fonupa"; want "fr-BE-fonipa"
// The initial number is a threshold. As we don't use scoring, we will not
// implement this.
"50,und,fr-Cyrl-CA-fonupa/fr-BE-fonipa": true,
// match: got "und"; want "fr-Cyrl-CA-fonupa"
// combined: got "und"; want "fr-Cyrl-BE-fonipa"
// Other interesting cases to test:
// - Should same language or same script have the preference if there is
// usually no understanding of the other script?
// - More specific region in desired may replace enclosing supported.
}
func makeTagList(s string) (tags []Tag) {
for _, s := range strings.Split(s, ",") {
tags = append(tags, mk(strings.TrimSpace(s)))
}
return tags
}
func TestMatchStrings(t *testing.T) {
testCases := []struct {
supported string
desired string // strings separted by |
tag string
index int
}{{
supported: "en",
desired: "",
tag: "en",
index: 0,
}, {
supported: "en",
desired: "nl",
tag: "en",
index: 0,
}, {
supported: "en,nl",
desired: "nl",
tag: "nl",
index: 1,
}, {
supported: "en,nl",
desired: "nl|en",
tag: "nl",
index: 1,
}, {
supported: "en-GB,nl",
desired: "en ; q=0.1,nl",
tag: "nl",
index: 1,
}, {
supported: "en-GB,nl",
desired: "en;q=0.005 | dk; q=0.1,nl ",
tag: "en-GB",
index: 0,
}, {
// do not match faulty tags with und
supported: "en,und",
desired: "|en",
tag: "en",
index: 0,
}}
for _, tc := range testCases {
t.Run(path.Join(tc.supported, tc.desired), func(t *testing.T) {
m := NewMatcher(makeTagList(tc.supported))
tag, index := MatchStrings(m, strings.Split(tc.desired, "|")...)
if tag.String() != tc.tag || index != tc.index {
t.Errorf("got %v, %d; want %v, %d", tag, index, tc.tag, tc.index)
}
})
}
}
func TestAddLikelySubtags(t *testing.T) {
tests := []struct{ in, out string }{
{"aa", "aa-Latn-ET"},
{"aa-Latn", "aa-Latn-ET"},
{"aa-Arab", "aa-Arab-ET"},
{"aa-Arab-ER", "aa-Arab-ER"},
{"kk", "kk-Cyrl-KZ"},
{"kk-CN", "kk-Arab-CN"},
{"cmn", "cmn"},
{"zh-AU", "zh-Hant-AU"},
{"zh-VN", "zh-Hant-VN"},
{"zh-SG", "zh-Hans-SG"},
{"zh-Hant", "zh-Hant-TW"},
{"zh-Hani", "zh-Hani-CN"},
{"und-Hani", "zh-Hani-CN"},
{"und", "en-Latn-US"},
{"und-GB", "en-Latn-GB"},
{"und-CW", "pap-Latn-CW"},
{"und-YT", "fr-Latn-YT"},
{"und-Arab", "ar-Arab-EG"},
{"und-AM", "hy-Armn-AM"},
{"und-TW", "zh-Hant-TW"},
{"und-002", "en-Latn-NG"},
{"und-Latn-002", "en-Latn-NG"},
{"en-Latn-002", "en-Latn-NG"},
{"en-002", "en-Latn-NG"},
{"en-001", "en-Latn-US"},
{"und-003", "en-Latn-US"},
{"und-GB", "en-Latn-GB"},
{"Latn-001", "en-Latn-US"},
{"en-001", "en-Latn-US"},
{"es-419", "es-Latn-419"},
{"he-145", "he-Hebr-IL"},
{"ky-145", "ky-Latn-TR"},
{"kk", "kk-Cyrl-KZ"},
// Don't specialize duplicate and ambiguous matches.
{"kk-034", "kk-Arab-034"}, // Matches IR and AF. Both are Arab.
{"ku-145", "ku-Latn-TR"}, // Matches IQ, TR, and LB, but kk -> TR.
{"und-Arab-CC", "ms-Arab-CC"},
{"und-Arab-GB", "ks-Arab-GB"},
{"und-Hans-CC", "zh-Hans-CC"},
{"und-CC", "en-Latn-CC"},
{"sr", "sr-Cyrl-RS"},
{"sr-151", "sr-Latn-151"}, // Matches RO and RU.
// We would like addLikelySubtags to generate the same results if the input
// only changes by adding tags that would otherwise have been added
// by the expansion.
// In other words:
// und-AA -> xx-Scrp-AA implies und-Scrp-AA -> xx-Scrp-AA
// und-AA -> xx-Scrp-AA implies xx-AA -> xx-Scrp-AA
// und-Scrp -> xx-Scrp-AA implies und-Scrp-AA -> xx-Scrp-AA
// und-Scrp -> xx-Scrp-AA implies xx-Scrp -> xx-Scrp-AA
// xx -> xx-Scrp-AA implies xx-Scrp -> xx-Scrp-AA
// xx -> xx-Scrp-AA implies xx-AA -> xx-Scrp-AA
//
// The algorithm specified in
// http://unicode.org/reports/tr35/tr35-9.html#Supplemental_Data,
// Section C.10, does not handle the first case. For example,
// the CLDR data contains an entry und-BJ -> fr-Latn-BJ, but not
// there is no rule for und-Latn-BJ. According to spec, und-Latn-BJ
// would expand to en-Latn-BJ, violating the aforementioned principle.
// We deviate from the spec by letting und-Scrp-AA expand to xx-Scrp-AA
// if a rule of the form und-AA -> xx-Scrp-AA is defined.
// Note that as of version 23, CLDR has some explicitly specified
// entries that do not conform to these rules. The implementation
// will not correct these explicit inconsistencies. A later versions of CLDR
// is supposed to fix this.
{"und-Latn-BJ", "fr-Latn-BJ"},
{"und-Bugi-ID", "bug-Bugi-ID"},
// regions, scripts and languages without definitions
{"und-Arab-AA", "ar-Arab-AA"},
{"und-Afak-RE", "fr-Afak-RE"},
{"und-Arab-GB", "ks-Arab-GB"},
{"abp-Arab-GB", "abp-Arab-GB"},
// script has preference over region
{"und-Arab-NL", "ar-Arab-NL"},
{"zza", "zza-Latn-TR"},
// preserve variants and extensions
{"de-1901", "de-Latn-DE-1901"},
{"de-x-abc", "de-Latn-DE-x-abc"},
{"de-1901-x-abc", "de-Latn-DE-1901-x-abc"},
{"x-abc", "x-abc"}, // TODO: is this the desired behavior?
}
for i, tt := range tests {
in, _ := Parse(tt.in)
out, _ := Parse(tt.out)
in, _ = in.addLikelySubtags()
if in.String() != out.String() {
t.Errorf("%d: add(%s) was %s; want %s", i, tt.in, in, tt.out)
}
}
}
func TestMinimize(t *testing.T) {
tests := []struct{ in, out string }{
{"aa", "aa"},
{"aa-Latn", "aa"},
{"aa-Latn-ET", "aa"},
{"aa-ET", "aa"},
{"aa-Arab", "aa-Arab"},
{"aa-Arab-ER", "aa-Arab-ER"},
{"aa-Arab-ET", "aa-Arab"},
{"und", "und"},
{"und-Latn", "und"},
{"und-Latn-US", "und"},
{"en-Latn-US", "en"},
{"cmn", "cmn"},
{"cmn-Hans", "cmn-Hans"},
{"cmn-Hant", "cmn-Hant"},
{"zh-AU", "zh-AU"},
{"zh-VN", "zh-VN"},
{"zh-SG", "zh-SG"},
{"zh-Hant", "zh-Hant"},
{"zh-Hant-TW", "zh-TW"},
{"zh-Hans", "zh"},
{"zh-Hani", "zh-Hani"},
{"und-Hans", "und-Hans"},
{"und-Hani", "und-Hani"},
{"und-CW", "und-CW"},
{"und-YT", "und-YT"},
{"und-Arab", "und-Arab"},
{"und-AM", "und-AM"},
{"und-Arab-CC", "und-Arab-CC"},
{"und-CC", "und-CC"},
{"und-Latn-BJ", "und-BJ"},
{"und-Bugi-ID", "und-Bugi"},
{"bug-Bugi-ID", "bug-Bugi"},
// regions, scripts and languages without definitions
{"und-Arab-AA", "und-Arab-AA"},
// preserve variants and extensions
{"de-Latn-1901", "de-1901"},
{"de-Latn-x-abc", "de-x-abc"},
{"de-DE-1901-x-abc", "de-1901-x-abc"},
{"x-abc", "x-abc"}, // TODO: is this the desired behavior?
}
for i, tt := range tests {
in, _ := Parse(tt.in)
out, _ := Parse(tt.out)
min, _ := in.minimize()
if min.String() != out.String() {
t.Errorf("%d: min(%s) was %s; want %s", i, tt.in, min, tt.out)
}
max, _ := min.addLikelySubtags()
if x, _ := in.addLikelySubtags(); x.String() != max.String() {
t.Errorf("%d: max(min(%s)) = %s; want %s", i, tt.in, max, x)
}
}
}
func TestRegionGroups(t *testing.T) {
testCases := []struct {
a, b string
distance uint8
}{
{"zh-TW", "zh-HK", 5},
{"zh-MO", "zh-HK", 4},
{"es-ES", "es-AR", 5},
{"es-ES", "es", 4},
{"es-419", "es-MX", 4},
{"es-AR", "es-MX", 4},
{"es-ES", "es-MX", 5},
{"es-PT", "es-MX", 5},
}
for _, tc := range testCases {
a := MustParse(tc.a)
aScript, _ := a.Script()
b := MustParse(tc.b)
bScript, _ := b.Script()
if aScript != bScript {
t.Errorf("scripts differ: %q vs %q", aScript, bScript)
continue
}
d, _ := regionGroupDist(a.region, b.region, aScript.scriptID, a.lang)
if d != tc.distance {
t.Errorf("got %q; want %q", d, tc.distance)
}
}
}
func TestIsParadigmLocale(t *testing.T) {
testCases := map[string]bool{
"en-US": true,
"en-GB": true,
"en-VI": false,
"es-GB": false,
"es-ES": true,
"es-419": true,
}
for str, want := range testCases {
tag := Make(str)
got := isParadigmLocale(tag.lang, tag.region)
if got != want {
t.Errorf("isPL(%q) = %v; want %v", str, got, want)
}
}
}
// Implementation of String methods for various types for debugging purposes.
func (m *matcher) String() string {
w := &bytes.Buffer{}
fmt.Fprintln(w, "Default:", m.default_)
for tag, h := range m.index {
fmt.Fprintf(w, " %s: %v\n", tag, h)
}
return w.String()
}
func (h *matchHeader) String() string {
w := &bytes.Buffer{}
fmt.Fprint(w, "haveTag: ")
for _, h := range h.haveTags {
fmt.Fprintf(w, "%v, ", h)
}
return w.String()
}
func (t haveTag) String() string {
return fmt.Sprintf("%v:%d:%v:%v-%v|%v", t.tag, t.index, t.conf, t.maxRegion, t.maxScript, t.altScript)
}
func TestBestMatchAlloc(t *testing.T) {
m := NewMatcher(makeTagList("en sr nl"))
// Go allocates when creating a list of tags from a single tag!
list := []Tag{English}
avg := testtext.AllocsPerRun(1, func() {
m.Match(list...)
})
if avg > 0 {
t.Errorf("got %f; want 0", avg)
}
}
var benchHave = []Tag{
mk("en"),
mk("en-GB"),
mk("za"),
mk("zh-Hant"),
mk("zh-Hans-CN"),
mk("zh"),
mk("zh-HK"),
mk("ar-MK"),
mk("en-CA"),
mk("fr-CA"),
mk("fr-US"),
mk("fr-CH"),
mk("fr"),
mk("lt"),
mk("lv"),
mk("iw"),
mk("iw-NL"),
mk("he"),
mk("he-IT"),
mk("tlh"),
mk("ja"),
mk("ja-Jpan"),
mk("ja-Jpan-JP"),
mk("de"),
mk("de-CH"),
mk("de-AT"),
mk("de-DE"),
mk("sr"),
mk("sr-Latn"),
mk("sr-Cyrl"),
mk("sr-ME"),
}
var benchWant = [][]Tag{
[]Tag{
mk("en"),
},
[]Tag{
mk("en-AU"),
mk("de-HK"),
mk("nl"),
mk("fy"),
mk("lv"),
},
[]Tag{
mk("en-AU"),
mk("de-HK"),
mk("nl"),
mk("fy"),
},
[]Tag{
mk("ja-Hant"),
mk("da-HK"),
mk("nl"),
mk("zh-TW"),
},
[]Tag{
mk("ja-Hant"),
mk("da-HK"),
mk("nl"),
mk("hr"),
},
}
func BenchmarkMatch(b *testing.B) {
m := newMatcher(benchHave, nil)
for i := 0; i < b.N; i++ {
for _, want := range benchWant {
m.getBest(want...)
}
}
}
func BenchmarkMatchExact(b *testing.B) {
want := mk("en")
m := newMatcher(benchHave, nil)
for i := 0; i < b.N; i++ {
m.getBest(want)
}
}
func BenchmarkMatchAltLanguagePresent(b *testing.B) {
want := mk("hr")
m := newMatcher(benchHave, nil)
for i := 0; i < b.N; i++ {
m.getBest(want)
}
}
func BenchmarkMatchAltLanguageNotPresent(b *testing.B) {
want := mk("nn")
m := newMatcher(benchHave, nil)
for i := 0; i < b.N; i++ {
m.getBest(want)
}
}
func BenchmarkMatchAltScriptPresent(b *testing.B) {
want := mk("zh-Hant-CN")
m := newMatcher(benchHave, nil)
for i := 0; i < b.N; i++ {
m.getBest(want)
}
}
func BenchmarkMatchAltScriptNotPresent(b *testing.B) {
want := mk("fr-Cyrl")
m := newMatcher(benchHave, nil)
for i := 0; i < b.N; i++ {
m.getBest(want)
}
}
func BenchmarkMatchLimitedExact(b *testing.B) {
want := []Tag{mk("he-NL"), mk("iw-NL")}
m := newMatcher(benchHave, nil)
for i := 0; i < b.N; i++ {
m.getBest(want...)
}
}