youtubebeat/vendor/golang.org/x/text/cases/context_test.go

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2018-11-18 15:32:28 +01:00
// 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.
package cases
import (
"strings"
"testing"
"unicode"
"golang.org/x/text/internal/testtext"
"golang.org/x/text/language"
"golang.org/x/text/transform"
"golang.org/x/text/unicode/norm"
"golang.org/x/text/unicode/rangetable"
)
// The following definitions are taken directly from Chapter 3 of The Unicode
// Standard.
func propCased(r rune) bool {
return propLower(r) || propUpper(r) || unicode.IsTitle(r)
}
func propLower(r rune) bool {
return unicode.IsLower(r) || unicode.Is(unicode.Other_Lowercase, r)
}
func propUpper(r rune) bool {
return unicode.IsUpper(r) || unicode.Is(unicode.Other_Uppercase, r)
}
func propIgnore(r rune) bool {
if unicode.In(r, unicode.Mn, unicode.Me, unicode.Cf, unicode.Lm, unicode.Sk) {
return true
}
return caseIgnorable[r]
}
func hasBreakProp(r rune) bool {
// binary search over ranges
lo := 0
hi := len(breakProp)
for lo < hi {
m := lo + (hi-lo)/2
bp := &breakProp[m]
if bp.lo <= r && r <= bp.hi {
return true
}
if r < bp.lo {
hi = m
} else {
lo = m + 1
}
}
return false
}
func contextFromRune(r rune) *context {
c := context{dst: make([]byte, 128), src: []byte(string(r)), atEOF: true}
c.next()
return &c
}
func TestCaseProperties(t *testing.T) {
if unicode.Version != UnicodeVersion {
// Properties of existing code points may change by Unicode version, so
// we need to skip.
t.Skipf("Skipping as core Unicode version %s different than %s", unicode.Version, UnicodeVersion)
}
assigned := rangetable.Assigned(UnicodeVersion)
coreVersion := rangetable.Assigned(unicode.Version)
for r := rune(0); r <= lastRuneForTesting; r++ {
if !unicode.In(r, assigned) || !unicode.In(r, coreVersion) {
continue
}
c := contextFromRune(r)
if got, want := c.info.isCaseIgnorable(), propIgnore(r); got != want {
t.Errorf("caseIgnorable(%U): got %v; want %v (%x)", r, got, want, c.info)
}
// New letters may change case types, but existing case pairings should
// not change. See Case Pair Stability in
// https://unicode.org/policies/stability_policy.html.
if rf := unicode.SimpleFold(r); rf != r && unicode.In(rf, assigned) {
if got, want := c.info.isCased(), propCased(r); got != want {
t.Errorf("cased(%U): got %v; want %v (%x)", r, got, want, c.info)
}
if got, want := c.caseType() == cUpper, propUpper(r); got != want {
t.Errorf("upper(%U): got %v; want %v (%x)", r, got, want, c.info)
}
if got, want := c.caseType() == cLower, propLower(r); got != want {
t.Errorf("lower(%U): got %v; want %v (%x)", r, got, want, c.info)
}
}
if got, want := c.info.isBreak(), hasBreakProp(r); got != want {
t.Errorf("isBreak(%U): got %v; want %v (%x)", r, got, want, c.info)
}
}
// TODO: get title case from unicode file.
}
func TestMapping(t *testing.T) {
assigned := rangetable.Assigned(UnicodeVersion)
coreVersion := rangetable.Assigned(unicode.Version)
if coreVersion == nil {
coreVersion = assigned
}
apply := func(r rune, f func(c *context) bool) string {
c := contextFromRune(r)
f(c)
return string(c.dst[:c.pDst])
}
for r, tt := range special {
if got, want := apply(r, lower), tt.toLower; got != want {
t.Errorf("lowerSpecial:(%U): got %+q; want %+q", r, got, want)
}
if got, want := apply(r, title), tt.toTitle; got != want {
t.Errorf("titleSpecial:(%U): got %+q; want %+q", r, got, want)
}
if got, want := apply(r, upper), tt.toUpper; got != want {
t.Errorf("upperSpecial:(%U): got %+q; want %+q", r, got, want)
}
}
for r := rune(0); r <= lastRuneForTesting; r++ {
if !unicode.In(r, assigned) || !unicode.In(r, coreVersion) {
continue
}
if rf := unicode.SimpleFold(r); rf == r || !unicode.In(rf, assigned) {
continue
}
if _, ok := special[r]; ok {
continue
}
want := string(unicode.ToLower(r))
if got := apply(r, lower); got != want {
t.Errorf("lower:%q (%U): got %q %U; want %q %U", r, r, got, []rune(got), want, []rune(want))
}
want = string(unicode.ToUpper(r))
if got := apply(r, upper); got != want {
t.Errorf("upper:%q (%U): got %q %U; want %q %U", r, r, got, []rune(got), want, []rune(want))
}
want = string(unicode.ToTitle(r))
if got := apply(r, title); got != want {
t.Errorf("title:%q (%U): got %q %U; want %q %U", r, r, got, []rune(got), want, []rune(want))
}
}
}
func runeFoldData(r rune) (x struct{ simple, full, special string }) {
x = foldMap[r]
if x.simple == "" {
x.simple = string(unicode.ToLower(r))
}
if x.full == "" {
x.full = string(unicode.ToLower(r))
}
if x.special == "" {
x.special = x.full
}
return
}
func TestFoldData(t *testing.T) {
assigned := rangetable.Assigned(UnicodeVersion)
coreVersion := rangetable.Assigned(unicode.Version)
if coreVersion == nil {
coreVersion = assigned
}
apply := func(r rune, f func(c *context) bool) (string, info) {
c := contextFromRune(r)
f(c)
return string(c.dst[:c.pDst]), c.info.cccType()
}
for r := rune(0); r <= lastRuneForTesting; r++ {
if !unicode.In(r, assigned) || !unicode.In(r, coreVersion) {
continue
}
x := runeFoldData(r)
if got, info := apply(r, foldFull); got != x.full {
t.Errorf("full:%q (%U): got %q %U; want %q %U (ccc=%x)", r, r, got, []rune(got), x.full, []rune(x.full), info)
}
// TODO: special and simple.
}
}
func TestCCC(t *testing.T) {
assigned := rangetable.Assigned(UnicodeVersion)
normVersion := rangetable.Assigned(norm.Version)
for r := rune(0); r <= lastRuneForTesting; r++ {
if !unicode.In(r, assigned) || !unicode.In(r, normVersion) {
continue
}
c := contextFromRune(r)
p := norm.NFC.PropertiesString(string(r))
want := cccOther
switch p.CCC() {
case 0:
want = cccZero
case above:
want = cccAbove
}
if got := c.info.cccType(); got != want {
t.Errorf("%U: got %x; want %x", r, got, want)
}
}
}
func TestWordBreaks(t *testing.T) {
for _, tt := range breakTest {
testtext.Run(t, tt, func(t *testing.T) {
parts := strings.Split(tt, "|")
want := ""
for _, s := range parts {
found := false
// This algorithm implements title casing given word breaks
// as defined in the Unicode standard 3.13 R3.
for _, r := range s {
title := unicode.ToTitle(r)
lower := unicode.ToLower(r)
if !found && title != lower {
found = true
want += string(title)
} else {
want += string(lower)
}
}
}
src := strings.Join(parts, "")
got := Title(language.Und).String(src)
if got != want {
t.Errorf("got %q; want %q", got, want)
}
})
}
}
func TestContext(t *testing.T) {
tests := []struct {
desc string
dstSize int
atEOF bool
src string
out string
nSrc int
err error
ops string
prefixArg string
prefixWant bool
}{{
desc: "next: past end, atEOF, no checkpoint",
dstSize: 10,
atEOF: true,
src: "12",
out: "",
nSrc: 2,
ops: "next;next;next",
// Test that calling prefix with a non-empty argument when the buffer
// is depleted returns false.
prefixArg: "x",
prefixWant: false,
}, {
desc: "next: not at end, atEOF, no checkpoint",
dstSize: 10,
atEOF: false,
src: "12",
out: "",
nSrc: 0,
err: transform.ErrShortSrc,
ops: "next;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "next: past end, !atEOF, no checkpoint",
dstSize: 10,
atEOF: false,
src: "12",
out: "",
nSrc: 0,
err: transform.ErrShortSrc,
ops: "next;next;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "next: past end, !atEOF, checkpoint",
dstSize: 10,
atEOF: false,
src: "12",
out: "",
nSrc: 2,
ops: "next;next;checkpoint;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "copy: exact count, atEOF, no checkpoint",
dstSize: 2,
atEOF: true,
src: "12",
out: "12",
nSrc: 2,
ops: "next;copy;next;copy;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "copy: past end, !atEOF, no checkpoint",
dstSize: 2,
atEOF: false,
src: "12",
out: "",
nSrc: 0,
err: transform.ErrShortSrc,
ops: "next;copy;next;copy;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "copy: past end, !atEOF, checkpoint",
dstSize: 2,
atEOF: false,
src: "12",
out: "12",
nSrc: 2,
ops: "next;copy;next;copy;checkpoint;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "copy: short dst",
dstSize: 1,
atEOF: false,
src: "12",
out: "",
nSrc: 0,
err: transform.ErrShortDst,
ops: "next;copy;next;copy;checkpoint;next",
prefixArg: "12",
prefixWant: false,
}, {
desc: "copy: short dst, checkpointed",
dstSize: 1,
atEOF: false,
src: "12",
out: "1",
nSrc: 1,
err: transform.ErrShortDst,
ops: "next;copy;checkpoint;next;copy;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "writeString: simple",
dstSize: 3,
atEOF: true,
src: "1",
out: "1ab",
nSrc: 1,
ops: "next;copy;writeab;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "writeString: short dst",
dstSize: 2,
atEOF: true,
src: "12",
out: "",
nSrc: 0,
err: transform.ErrShortDst,
ops: "next;copy;writeab;next",
prefixArg: "2",
prefixWant: true,
}, {
desc: "writeString: simple",
dstSize: 3,
atEOF: true,
src: "12",
out: "1ab",
nSrc: 2,
ops: "next;copy;next;writeab;next",
prefixArg: "",
prefixWant: true,
}, {
desc: "writeString: short dst",
dstSize: 2,
atEOF: true,
src: "12",
out: "",
nSrc: 0,
err: transform.ErrShortDst,
ops: "next;copy;next;writeab;next",
prefixArg: "1",
prefixWant: false,
}, {
desc: "prefix",
dstSize: 2,
atEOF: true,
src: "12",
out: "",
nSrc: 0,
// Context will assign an ErrShortSrc if the input wasn't exhausted.
err: transform.ErrShortSrc,
prefixArg: "12",
prefixWant: true,
}}
for _, tt := range tests {
c := context{dst: make([]byte, tt.dstSize), src: []byte(tt.src), atEOF: tt.atEOF}
for _, op := range strings.Split(tt.ops, ";") {
switch op {
case "next":
c.next()
case "checkpoint":
c.checkpoint()
case "writeab":
c.writeString("ab")
case "copy":
c.copy()
case "":
default:
t.Fatalf("unknown op %q", op)
}
}
if got := c.hasPrefix(tt.prefixArg); got != tt.prefixWant {
t.Errorf("%s:\nprefix was %v; want %v", tt.desc, got, tt.prefixWant)
}
nDst, nSrc, err := c.ret()
if err != tt.err {
t.Errorf("%s:\nerror was %v; want %v", tt.desc, err, tt.err)
}
if out := string(c.dst[:nDst]); out != tt.out {
t.Errorf("%s:\nout was %q; want %q", tt.desc, out, tt.out)
}
if nSrc != tt.nSrc {
t.Errorf("%s:\nnSrc was %d; want %d", tt.desc, nSrc, tt.nSrc)
}
}
}