268 lines
6.2 KiB
Go
268 lines
6.2 KiB
Go
package yomichan
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import (
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"fmt"
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"hash/fnv"
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"regexp"
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"strconv"
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"foosoft.net/projects/jmdict"
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"golang.org/x/exp/slices"
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)
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type headword struct {
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Expression string
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Reading string
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TermTags []string
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Index int
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IsPriority bool
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IsIrregular bool
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IsOutdated bool
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IsRareKanji bool
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IsSearchOnly bool
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IsAteji bool
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IsGikun bool
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}
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type hash uint64
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func (h *headword) Hash() hash {
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return hashText(h.Expression + "␞" + h.Reading)
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}
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func (h *headword) ExpHash() hash {
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return hashText(h.Expression + "␞" + h.Expression)
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}
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func (h *headword) ReadingHash() hash {
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return hashText(h.Reading + "␞" + h.Reading)
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}
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func hashText(s string) hash {
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h := fnv.New64a()
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h.Write([]byte(s))
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return hash(h.Sum64())
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}
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func (h *headword) IsKanaOnly() bool {
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if h.Expression != h.Reading {
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return false
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}
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for _, char := range h.Expression {
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if char >= 'ぁ' && char <= 'ヿ' {
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// hiragana and katakana range
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continue
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} else if char >= '・' && char <= '゚' {
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// halfwidth katakana range
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continue
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} else if char == '〜' {
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continue
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} else {
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return false
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}
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}
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return true
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}
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func (h *headword) Score() int {
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score := 0
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if h.IsPriority {
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score += 1
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}
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if h.IsIrregular {
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score -= 5
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}
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if h.IsOutdated {
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score -= 5
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}
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if h.IsRareKanji {
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score -= 5
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}
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if h.IsSearchOnly {
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score -= 5
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}
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return score
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}
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func (h *headword) ToInternalLink(includeReading bool) any {
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if !includeReading || h.Expression == h.Reading {
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return contentInternalLink(
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contentAttr{lang: ISOtoHTML["jpn"]},
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h.Expression,
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)
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} else {
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return contentSpan(
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contentAttr{lang: ISOtoHTML["jpn"]},
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contentInternalLink(contentAttr{}, h.Expression),
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"(",
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contentInternalLink(contentAttr{}, h.Reading),
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")",
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)
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}
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}
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func (h *headword) SetFlags(infoTags, freqTags []string) {
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priorityTags := []string{"ichi1", "news1", "gai1", "spec1", "spec2"}
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for _, priorityTag := range priorityTags {
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if slices.Contains(freqTags, priorityTag) {
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h.IsPriority = true
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break
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}
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}
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for _, infoTag := range infoTags {
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switch infoTag {
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case "iK", "ik", "io":
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h.IsIrregular = true
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case "oK", "ok":
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h.IsOutdated = true
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case "sK", "sk":
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h.IsSearchOnly = true
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case "rK":
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h.IsRareKanji = true
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case "ateji":
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h.IsAteji = true
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case "gikun":
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h.IsGikun = true
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}
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}
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if h.IsOutdated && h.IsRareKanji {
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h.IsRareKanji = false
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}
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}
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func (h *headword) SetTermTags(freqTags []string) {
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h.TermTags = []string{}
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if h.IsPriority {
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h.TermTags = append(h.TermTags, priorityTagName)
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}
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for _, tag := range freqTags {
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isNewsFreqTag, _ := regexp.MatchString(`nf\d\d`, tag)
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if isNewsFreqTag {
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// nf tags are divided into ranks of 500
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// (nf01 to nf48), but it will be easier
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// for the user to read 1k, 2k, etc.
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var i int
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if _, err := fmt.Sscanf(tag, "nf%2d", &i); err == nil {
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i = (i + (i % 2)) / 2
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newsTag := "news" + strconv.Itoa(i) + "k"
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h.TermTags = append(h.TermTags, newsTag)
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}
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} else if tag == "news1" || tag == "news2" {
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continue
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} else {
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tagWithoutTheNumber := tag[:len(tag)-1] // "ichi", "gai", or "spec"
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h.TermTags = append(h.TermTags, tagWithoutTheNumber)
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}
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}
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if h.IsIrregular {
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h.TermTags = append(h.TermTags, irregularTagName)
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}
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if h.IsOutdated {
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h.TermTags = append(h.TermTags, outdatedTagName)
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}
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if h.IsRareKanji {
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h.TermTags = append(h.TermTags, rareKanjiTagName)
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}
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if h.IsAteji {
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h.TermTags = append(h.TermTags, atejiTagName)
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}
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if h.IsGikun {
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h.TermTags = append(h.TermTags, gikunTagName)
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}
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}
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func newHeadword(kanji *jmdict.JmdictKanji, reading *jmdict.JmdictReading) headword {
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h := headword{}
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infoTags := []string{}
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freqTags := []string{}
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if kanji == nil {
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h.Expression = reading.Reading
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h.Reading = reading.Reading
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infoTags = reading.Information
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freqTags = reading.Priorities
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} else if reading == nil {
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// should only apply to search-only kanji terms
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h.Expression = kanji.Expression
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h.Reading = ""
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infoTags = kanji.Information
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freqTags = kanji.Priorities
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} else {
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h.Expression = kanji.Expression
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h.Reading = reading.Reading
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infoTags = union(kanji.Information, reading.Information)
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freqTags = intersection(kanji.Priorities, reading.Priorities)
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}
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h.SetFlags(infoTags, freqTags)
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h.SetTermTags(freqTags)
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return h
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}
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func areAllKanjiIrregular(allKanji []jmdict.JmdictKanji) bool {
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// If every kanji form is rare or irregular, then we'll make
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// kana-only headwords for each kana form.
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if len(allKanji) == 0 {
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return false
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}
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for _, kanji := range allKanji {
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h := newHeadword(&kanji, nil)
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kanjiIsIrregular := h.IsRareKanji || h.IsIrregular || h.IsOutdated || h.IsSearchOnly
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if !kanjiIsIrregular {
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return false
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}
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}
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return true
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}
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func extractHeadwords(entry jmdict.JmdictEntry) []headword {
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headwords := []headword{}
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allKanjiAreIrregular := areAllKanjiIrregular(entry.Kanji)
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if allKanjiAreIrregular {
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// Adding the reading-only terms before kanji+reading
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// terms here for the sake of the Index property,
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// which affects the yomichan term ranking.
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for _, reading := range entry.Readings {
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h := newHeadword(nil, &reading)
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h.Index = len(headwords)
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headwords = append(headwords, h)
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}
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}
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for _, kanji := range entry.Kanji {
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if slices.Contains(kanji.Information, "sK") {
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// Search-only kanji forms do not have associated readings.
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h := newHeadword(&kanji, nil)
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h.Index = len(headwords)
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headwords = append(headwords, h)
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continue
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}
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for _, reading := range entry.Readings {
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if reading.NoKanji != nil {
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continue
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} else if slices.Contains(reading.Information, "sk") {
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// Search-only kana forms do not have associated kanji forms.
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continue
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} else if reading.Restrictions != nil && !slices.Contains(reading.Restrictions, kanji.Expression) {
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continue
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} else {
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h := newHeadword(&kanji, &reading)
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h.Index = len(headwords)
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headwords = append(headwords, h)
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}
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}
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}
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if !allKanjiAreIrregular {
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noKanjiInEntry := (len(entry.Kanji) == 0)
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for _, reading := range entry.Readings {
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if reading.NoKanji != nil || noKanjiInEntry || slices.Contains(reading.Information, "sk") {
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h := newHeadword(nil, &reading)
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h.Index = len(headwords)
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headwords = append(headwords, h)
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}
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}
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}
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return headwords
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}
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