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// Copyright (c) 2015 Couchbase, Inc.
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// Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file
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// except in compliance with the License. You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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// Unless required by applicable law or agreed to in writing, software distributed under the
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// License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND,
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// either express or implied. See the License for the specific language governing permissions
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// and limitations under the License.
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// +build BUILDTAGS
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package segment
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import (
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"fmt"
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"unicode/utf8"
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)
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var RagelFlags = "RAGELFLAGS"
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var ParseError = fmt.Errorf("unicode word segmentation parse error")
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// Word Types
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const (
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None = iota
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Number
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Letter
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Kana
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Ideo
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)
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%%{
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machine s;
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write data;
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}%%
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func segmentWords(data []byte, maxTokens int, atEOF bool, val [][]byte, types []int) ([][]byte, []int, int, error) {
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cs, p, pe := 0, 0, len(data)
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cap := maxTokens
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if cap < 0 {
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cap = 1000
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}
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if val == nil {
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val = make([][]byte, 0, cap)
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}
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if types == nil {
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types = make([]int, 0, cap)
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}
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// added for scanner
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ts := 0
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te := 0
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act := 0
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eof := pe
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_ = ts // compiler not happy
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_ = te
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_ = act
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// our state
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startPos := 0
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endPos := 0
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totalConsumed := 0
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%%{
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include SCRIPTS "ragel/uscript.rl";
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include WB "ragel/uwb.rl";
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action startToken {
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startPos = p
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}
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action endToken {
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endPos = p
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}
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action finishNumericToken {
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if !atEOF {
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return val, types, totalConsumed, nil
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}
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val = append(val, data[startPos:endPos+1])
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types = append(types, Number)
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totalConsumed = endPos+1
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if maxTokens > 0 && len(val) >= maxTokens {
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return val, types, totalConsumed, nil
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}
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}
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action finishHangulToken {
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if endPos+1 == pe && !atEOF {
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return val, types, totalConsumed, nil
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} else if dr, size := utf8.DecodeRune(data[endPos+1:]); dr == utf8.RuneError && size == 1 {
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return val, types, totalConsumed, nil
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}
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val = append(val, data[startPos:endPos+1])
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types = append(types, Letter)
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totalConsumed = endPos+1
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if maxTokens > 0 && len(val) >= maxTokens {
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return val, types, totalConsumed, nil
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}
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}
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action finishKatakanaToken {
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if endPos+1 == pe && !atEOF {
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return val, types, totalConsumed, nil
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} else if dr, size := utf8.DecodeRune(data[endPos+1:]); dr == utf8.RuneError && size == 1 {
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return val, types, totalConsumed, nil
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}
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val = append(val, data[startPos:endPos+1])
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types = append(types, Ideo)
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totalConsumed = endPos+1
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if maxTokens > 0 && len(val) >= maxTokens {
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return val, types, totalConsumed, nil
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}
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}
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action finishWordToken {
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if !atEOF {
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return val, types, totalConsumed, nil
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}
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val = append(val, data[startPos:endPos+1])
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types = append(types, Letter)
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totalConsumed = endPos+1
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if maxTokens > 0 && len(val) >= maxTokens {
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return val, types, totalConsumed, nil
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}
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}
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action finishHanToken {
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if endPos+1 == pe && !atEOF {
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return val, types, totalConsumed, nil
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} else if dr, size := utf8.DecodeRune(data[endPos+1:]); dr == utf8.RuneError && size == 1 {
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return val, types, totalConsumed, nil
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}
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val = append(val, data[startPos:endPos+1])
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types = append(types, Ideo)
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totalConsumed = endPos+1
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if maxTokens > 0 && len(val) >= maxTokens {
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return val, types, totalConsumed, nil
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}
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}
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action finishHiraganaToken {
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if endPos+1 == pe && !atEOF {
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return val, types, totalConsumed, nil
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} else if dr, size := utf8.DecodeRune(data[endPos+1:]); dr == utf8.RuneError && size == 1 {
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return val, types, totalConsumed, nil
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}
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val = append(val, data[startPos:endPos+1])
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types = append(types, Ideo)
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totalConsumed = endPos+1
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if maxTokens > 0 && len(val) >= maxTokens {
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return val, types, totalConsumed, nil
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}
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}
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action finishNoneToken {
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lastPos := startPos
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for lastPos <= endPos {
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_, size := utf8.DecodeRune(data[lastPos:])
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lastPos += size
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}
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endPos = lastPos -1
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p = endPos
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if endPos+1 == pe && !atEOF {
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return val, types, totalConsumed, nil
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} else if dr, size := utf8.DecodeRune(data[endPos+1:]); dr == utf8.RuneError && size == 1 {
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return val, types, totalConsumed, nil
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}
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// otherwise, consume this as well
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val = append(val, data[startPos:endPos+1])
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types = append(types, None)
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totalConsumed = endPos+1
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if maxTokens > 0 && len(val) >= maxTokens {
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return val, types, totalConsumed, nil
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}
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}
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HangulEx = Hangul ( Extend | Format )*;
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HebrewOrALetterEx = ( Hebrew_Letter | ALetter ) ( Extend | Format )*;
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NumericEx = Numeric ( Extend | Format )*;
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KatakanaEx = Katakana ( Extend | Format )*;
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MidLetterEx = ( MidLetter | MidNumLet | Single_Quote ) ( Extend | Format )*;
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MidNumericEx = ( MidNum | MidNumLet | Single_Quote ) ( Extend | Format )*;
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ExtendNumLetEx = ExtendNumLet ( Extend | Format )*;
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HanEx = Han ( Extend | Format )*;
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HiraganaEx = Hiragana ( Extend | Format )*;
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SingleQuoteEx = Single_Quote ( Extend | Format )*;
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DoubleQuoteEx = Double_Quote ( Extend | Format )*;
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HebrewLetterEx = Hebrew_Letter ( Extend | Format )*;
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RegionalIndicatorEx = Regional_Indicator ( Extend | Format )*;
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NLCRLF = Newline | CR | LF;
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OtherEx = ^(NLCRLF) ( Extend | Format )* ;
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# UAX#29 WB8. Numeric × Numeric
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# WB11. Numeric (MidNum | MidNumLet | Single_Quote) × Numeric
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# WB12. Numeric × (MidNum | MidNumLet | Single_Quote) Numeric
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# WB13a. (ALetter | Hebrew_Letter | Numeric | Katakana | ExtendNumLet) × ExtendNumLet
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# WB13b. ExtendNumLet × (ALetter | Hebrew_Letter | Numeric | Katakana)
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#
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WordNumeric = ( ( ExtendNumLetEx )* NumericEx ( ( ( ExtendNumLetEx )* | MidNumericEx ) NumericEx )* ( ExtendNumLetEx )* ) >startToken @endToken;
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# subset of the below for typing purposes only!
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WordHangul = ( HangulEx )+ >startToken @endToken;
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WordKatakana = ( KatakanaEx )+ >startToken @endToken;
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# UAX#29 WB5. (ALetter | Hebrew_Letter) × (ALetter | Hebrew_Letter)
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# WB6. (ALetter | Hebrew_Letter) × (MidLetter | MidNumLet | Single_Quote) (ALetter | Hebrew_Letter)
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# WB7. (ALetter | Hebrew_Letter) (MidLetter | MidNumLet | Single_Quote) × (ALetter | Hebrew_Letter)
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# WB7a. Hebrew_Letter × Single_Quote
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# WB7b. Hebrew_Letter × Double_Quote Hebrew_Letter
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# WB7c. Hebrew_Letter Double_Quote × Hebrew_Letter
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# WB9. (ALetter | Hebrew_Letter) × Numeric
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# WB10. Numeric × (ALetter | Hebrew_Letter)
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# WB13. Katakana × Katakana
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# WB13a. (ALetter | Hebrew_Letter | Numeric | Katakana | ExtendNumLet) × ExtendNumLet
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# WB13b. ExtendNumLet × (ALetter | Hebrew_Letter | Numeric | Katakana)
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#
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# Marty -deviated here to allow for (ExtendNumLetEx x ExtendNumLetEx) part of 13a
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#
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Word = ( ( ExtendNumLetEx )* ( KatakanaEx ( ( ExtendNumLetEx )* KatakanaEx )*
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| ( HebrewLetterEx ( SingleQuoteEx | DoubleQuoteEx HebrewLetterEx )
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| NumericEx ( ( ( ExtendNumLetEx )* | MidNumericEx ) NumericEx )*
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| HebrewOrALetterEx ( ( ( ExtendNumLetEx )* | MidLetterEx ) HebrewOrALetterEx )*
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|ExtendNumLetEx
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)+
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)
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(
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( ExtendNumLetEx )+ ( KatakanaEx ( ( ExtendNumLetEx )* KatakanaEx )*
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| ( HebrewLetterEx ( SingleQuoteEx | DoubleQuoteEx HebrewLetterEx )
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| NumericEx ( ( ( ExtendNumLetEx )* | MidNumericEx ) NumericEx )*
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| HebrewOrALetterEx ( ( ( ExtendNumLetEx )* | MidLetterEx ) HebrewOrALetterEx )*
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)+
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)
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)* ExtendNumLetEx*) >startToken @endToken;
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# UAX#29 WB14. Any ÷ Any
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WordHan = HanEx >startToken @endToken;
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WordHiragana = HiraganaEx >startToken @endToken;
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WordExt = ( ( Extend | Format )* ) >startToken @endToken; # maybe plus not star
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WordCRLF = (CR LF) >startToken @endToken;
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WordCR = CR >startToken @endToken;
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WordLF = LF >startToken @endToken;
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WordNL = Newline >startToken @endToken;
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WordRegional = (RegionalIndicatorEx+) >startToken @endToken;
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Other = OtherEx >startToken @endToken;
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main := |*
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WordNumeric => finishNumericToken;
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WordHangul => finishHangulToken;
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WordKatakana => finishKatakanaToken;
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Word => finishWordToken;
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WordHan => finishHanToken;
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WordHiragana => finishHiraganaToken;
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WordRegional =>finishNoneToken;
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WordCRLF => finishNoneToken;
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WordCR => finishNoneToken;
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WordLF => finishNoneToken;
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WordNL => finishNoneToken;
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WordExt => finishNoneToken;
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Other => finishNoneToken;
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*|;
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write init;
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write exec;
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}%%
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if cs < s_first_final {
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return val, types, totalConsumed, ParseError
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}
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return val, types, totalConsumed, nil
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}
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