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// Copyright 2011 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 norm
import (
"strings"
"testing"
)
func doIterNorm(f Form, s string) []byte {
acc := []byte{}
i := Iter{}
i.InitString(f, s)
for !i.Done() {
acc = append(acc, i.Next()...)
}
return acc
}
func TestIterNext(t *testing.T) {
runNormTests(t, "IterNext", func(f Form, out []byte, s string) []byte {
return doIterNorm(f, string(append(out, s...)))
})
}
type SegmentTest struct {
in string
out []string
}
var segmentTests = []SegmentTest{
{"\u1E0A\u0323a", []string{"\x44\u0323\u0307", "a", ""}},
{rep('a', segSize), append(strings.Split(rep('a', segSize), ""), "")},
{rep('a', segSize+2), append(strings.Split(rep('a', segSize+2), ""), "")},
{rep('a', segSize) + "\u0300aa",
append(strings.Split(rep('a', segSize-1), ""), "a\u0300", "a", "a", "")},
// U+0f73 is NOT treated as a starter as it is a modifier
{"a" + grave(29) + "\u0f73", []string{"a" + grave(29), cgj + "\u0f73"}},
{"a\u0f73", []string{"a\u0f73"}},
// U+ff9e is treated as a non-starter.
// TODO: should we? Note that this will only affect iteration, as whether
// or not we do so does not affect the normalization output and will either
// way result in consistent iteration output.
{"a" + grave(30) + "\uff9e", []string{"a" + grave(30), cgj + "\uff9e"}},
{"a\uff9e", []string{"a\uff9e"}},
}
var segmentTestsK = []SegmentTest{
{"\u3332", []string{"\u30D5", "\u30A1", "\u30E9", "\u30C3", "\u30C8\u3099", ""}},
// last segment of multi-segment decomposition needs normalization
{"\u3332\u093C", []string{"\u30D5", "\u30A1", "\u30E9", "\u30C3", "\u30C8\u093C\u3099", ""}},
{"\u320E", []string{"\x28", "\uAC00", "\x29"}},
// last segment should be copied to start of buffer.
{"\ufdfa", []string{"\u0635", "\u0644", "\u0649", " ", "\u0627", "\u0644", "\u0644", "\u0647", " ", "\u0639", "\u0644", "\u064a", "\u0647", " ", "\u0648", "\u0633", "\u0644", "\u0645", ""}},
{"\ufdfa" + grave(30), []string{"\u0635", "\u0644", "\u0649", " ", "\u0627", "\u0644", "\u0644", "\u0647", " ", "\u0639", "\u0644", "\u064a", "\u0647", " ", "\u0648", "\u0633", "\u0644", "\u0645" + grave(30), ""}},
{"\uFDFA" + grave(64), []string{"\u0635", "\u0644", "\u0649", " ", "\u0627", "\u0644", "\u0644", "\u0647", " ", "\u0639", "\u0644", "\u064a", "\u0647", " ", "\u0648", "\u0633", "\u0644", "\u0645" + grave(30), cgj + grave(30), cgj + grave(4), ""}},
// Hangul and Jamo are grouped together.
{"\uAC00", []string{"\u1100\u1161", ""}},
{"\uAC01", []string{"\u1100\u1161\u11A8", ""}},
{"\u1100\u1161", []string{"\u1100\u1161", ""}},
}
// Note that, by design, segmentation is equal for composing and decomposing forms.
func TestIterSegmentation(t *testing.T) {
segmentTest(t, "SegmentTestD", NFD, segmentTests)
segmentTest(t, "SegmentTestC", NFC, segmentTests)
segmentTest(t, "SegmentTestKD", NFKD, segmentTestsK)
segmentTest(t, "SegmentTestKC", NFKC, segmentTestsK)
}
func segmentTest(t *testing.T, name string, f Form, tests []SegmentTest) {
iter := Iter{}
for i, tt := range tests {
iter.InitString(f, tt.in)
for j, seg := range tt.out {
if seg == "" {
if !iter.Done() {
res := string(iter.Next())
t.Errorf(`%s:%d:%d: expected Done()==true, found segment %+q`, name, i, j, res)
}
continue
}
if iter.Done() {
t.Errorf("%s:%d:%d: Done()==true, want false", name, i, j)
}
seg = f.String(seg)
if res := string(iter.Next()); res != seg {
t.Errorf(`%s:%d:%d" segment was %+q (%d); want %+q (%d)`, name, i, j, pc(res), len(res), pc(seg), len(seg))
}
}
}
}