Index: modules/analysis/CHANGES.txt =================================================================== --- modules/analysis/CHANGES.txt (revision 1022158) +++ modules/analysis/CHANGES.txt (working copy) @@ -15,6 +15,9 @@ RFCs. ClassicTokenizer/Analyzer retains the old StandardTokenizer/Analyzer behavior. (Steven Rowe, Robert Muir, Uwe Schindler) + * LUCENE-2699: Update StandardTokenizer and UAX29Tokenizer to Unicode 6.0.0. + (Steven Rowe) + * LUCENE-1370: Added ShingleFilter option to output unigrams if no shingles can be generated. (Chris Harris via Steven Rowe) Index: modules/analysis/common/src/test/org/apache/lucene/analysis/core/TestUAX29Tokenizer.java =================================================================== --- modules/analysis/common/src/test/org/apache/lucene/analysis/core/TestUAX29Tokenizer.java (revision 1022158) +++ modules/analysis/common/src/test/org/apache/lucene/analysis/core/TestUAX29Tokenizer.java (working copy) @@ -198,7 +198,7 @@ } public void testUnicodeWordBreaks() throws Exception { - WordBreakTestUnicode_5_2_0 wordBreakTest = new WordBreakTestUnicode_5_2_0(); + WordBreakTestUnicode_6_0_0 wordBreakTest = new WordBreakTestUnicode_6_0_0(); wordBreakTest.test(a); } } Index: modules/analysis/common/src/test/org/apache/lucene/analysis/core/TestStandardAnalyzer.java =================================================================== --- modules/analysis/common/src/test/org/apache/lucene/analysis/core/TestStandardAnalyzer.java (revision 1022158) +++ modules/analysis/common/src/test/org/apache/lucene/analysis/core/TestStandardAnalyzer.java (working copy) @@ -394,7 +394,7 @@ } public void testUnicodeWordBreaks() throws Exception { - WordBreakTestUnicode_5_2_0 wordBreakTest = new WordBreakTestUnicode_5_2_0(); + WordBreakTestUnicode_6_0_0 wordBreakTest = new WordBreakTestUnicode_6_0_0(); wordBreakTest.test(a); } } Index: modules/analysis/common/src/test/org/apache/lucene/analysis/core/WordBreakTestUnicode_6_0_0.java =================================================================== --- modules/analysis/common/src/test/org/apache/lucene/analysis/core/WordBreakTestUnicode_6_0_0.java (revision 0) +++ modules/analysis/common/src/test/org/apache/lucene/analysis/core/WordBreakTestUnicode_6_0_0.java (revision 0) @@ -0,0 +1,3960 @@ +package org.apache.lucene.analysis.core; + +/** + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed with + * this work for additional information regarding copyright ownership. + * The ASF licenses this file to You under the Apache License, Version 2.0 + * (the "License"); you may not use this file except in compliance with + * the License. You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +import org.apache.lucene.analysis.Analyzer; +import org.apache.lucene.analysis.BaseTokenStreamTestCase; +import org.junit.Ignore; + +/** + * This class was automatically generated by generateJavaUnicodeWordBreakTest.pl + * from: http://www.unicode.org/Public/6.0.0/ucd/auxiliary/WordBreakTest.txt + * + * WordBreakTest.txt indicates the points in the provided character sequences + * at which conforming implementations must and must not break words. This + * class tests for expected token extraction from each of the test sequences + * in WordBreakTest.txt, where the expected tokens are those character + * sequences bounded by word breaks and containing at least one character + * from one of the following character sets: + * + * \p{Script = Han} (From http://www.unicode.org/Public/6.0.0/ucd/Scripts.txt) + * \p{Script = Hiragana} + * \p{LineBreak = Complex_Context} (From http://www.unicode.org/Public/6.0.0/ucd/LineBreak.txt) + * \p{WordBreak = ALetter} (From http://www.unicode.org/Public/6.0.0/ucd/auxiliary/WordBreakProperty.txt) + * \p{WordBreak = Katakana} + * \p{WordBreak = Numeric} (Excludes full-width Arabic digits) + * [\uFF10-\uFF19] (Full-width Arabic digits) + */ +@Ignore +public class WordBreakTestUnicode_6_0_0 extends BaseTokenStreamTestCase { + + public void test(Analyzer analyzer) throws Exception { + // ÷ 0001 ÷ 0001 ÷ # ÷ [0.2] (Other) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0001", + new String[] { }); + + // ÷ 0001 × 0308 ÷ 0001 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0001", + new String[] { }); + + // ÷ 0001 ÷ 000D ÷ # ÷ [0.2] (Other) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\r", + new String[] { }); + + // ÷ 0001 × 0308 ÷ 000D ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\r", + new String[] { }); + + // ÷ 0001 ÷ 000A ÷ # ÷ [0.2] (Other) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\n", + new String[] { }); + + // ÷ 0001 × 0308 ÷ 000A ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\n", + new String[] { }); + + // ÷ 0001 ÷ 000B ÷ # ÷ [0.2] (Other) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u000B", + new String[] { }); + + // ÷ 0001 × 0308 ÷ 000B ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u000B", + new String[] { }); + + // ÷ 0001 ÷ 3031 ÷ # ÷ [0.2] (Other) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u3031", + new String[] { "\u3031" }); + + // ÷ 0001 × 0308 ÷ 3031 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 0001 ÷ 0041 ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0041", + new String[] { "\u0041" }); + + // ÷ 0001 × 0308 ÷ 0041 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 0001 ÷ 003A ÷ # ÷ [0.2] (Other) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u003A", + new String[] { }); + + // ÷ 0001 × 0308 ÷ 003A ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u003A", + new String[] { }); + + // ÷ 0001 ÷ 002C ÷ # ÷ [0.2] (Other) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u002C", + new String[] { }); + + // ÷ 0001 × 0308 ÷ 002C ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u002C", + new String[] { }); + + // ÷ 0001 ÷ 0027 ÷ # ÷ [0.2] (Other) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0027", + new String[] { }); + + // ÷ 0001 × 0308 ÷ 0027 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0027", + new String[] { }); + + // ÷ 0001 ÷ 0030 ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0030", + new String[] { "\u0030" }); + + // ÷ 0001 × 0308 ÷ 0030 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 0001 ÷ 005F ÷ # ÷ [0.2] (Other) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u005F", + new String[] { }); + + // ÷ 0001 × 0308 ÷ 005F ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u005F", + new String[] { }); + + // ÷ 0001 × 00AD ÷ # ÷ [0.2] (Other) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u00AD", + new String[] { }); + + // ÷ 0001 × 0308 × 00AD ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u00AD", + new String[] { }); + + // ÷ 0001 × 0300 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0300", + new String[] { }); + + // ÷ 0001 × 0308 × 0300 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0300", + new String[] { }); + + // ÷ 0001 ÷ 0061 × 2060 ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 0001 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 0001 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 0001 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 0001 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 0001 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 0001 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 0001 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 0001 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 0001 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 0001 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 0001 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 0001 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 0001 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 0001 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 0001 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 0001 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 0001 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0001\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 000D ÷ 0001 ÷ # ÷ [0.2] (CR) ÷ [3.1] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0001", + new String[] { }); + + // ÷ 000D ÷ 0308 ÷ 0001 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0001", + new String[] { }); + + // ÷ 000D ÷ 000D ÷ # ÷ [0.2] (CR) ÷ [3.1] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\r", + new String[] { }); + + // ÷ 000D ÷ 0308 ÷ 000D ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\r", + new String[] { }); + + // ÷ 000D × 000A ÷ # ÷ [0.2] (CR) × [3.0] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\n", + new String[] { }); + + // ÷ 000D ÷ 0308 ÷ 000A ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\n", + new String[] { }); + + // ÷ 000D ÷ 000B ÷ # ÷ [0.2] (CR) ÷ [3.1] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u000B", + new String[] { }); + + // ÷ 000D ÷ 0308 ÷ 000B ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u000B", + new String[] { }); + + // ÷ 000D ÷ 3031 ÷ # ÷ [0.2] (CR) ÷ [3.1] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u3031", + new String[] { "\u3031" }); + + // ÷ 000D ÷ 0308 ÷ 3031 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 000D ÷ 0041 ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0041", + new String[] { "\u0041" }); + + // ÷ 000D ÷ 0308 ÷ 0041 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 000D ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u003A", + new String[] { }); + + // ÷ 000D ÷ 0308 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u003A", + new String[] { }); + + // ÷ 000D ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u002C", + new String[] { }); + + // ÷ 000D ÷ 0308 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u002C", + new String[] { }); + + // ÷ 000D ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0027", + new String[] { }); + + // ÷ 000D ÷ 0308 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0027", + new String[] { }); + + // ÷ 000D ÷ 0030 ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0030", + new String[] { "\u0030" }); + + // ÷ 000D ÷ 0308 ÷ 0030 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 000D ÷ 005F ÷ # ÷ [0.2] (CR) ÷ [3.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u005F", + new String[] { }); + + // ÷ 000D ÷ 0308 ÷ 005F ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u005F", + new String[] { }); + + // ÷ 000D ÷ 00AD ÷ # ÷ [0.2] (CR) ÷ [3.1] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u00AD", + new String[] { }); + + // ÷ 000D ÷ 0308 × 00AD ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u00AD", + new String[] { }); + + // ÷ 000D ÷ 0300 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0300", + new String[] { }); + + // ÷ 000D ÷ 0308 × 0300 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0300", + new String[] { }); + + // ÷ 000D ÷ 0061 × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 000D ÷ 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 000D ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 000D ÷ 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 000D ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 000D ÷ 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 000D ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 000D ÷ 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 000D ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 000D ÷ 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 000D ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 000D ÷ 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 000D ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 000D ÷ 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 000D ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 000D ÷ 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 000D ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 000D ÷ 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\r\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 000A ÷ 0001 ÷ # ÷ [0.2] (LF) ÷ [3.1] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0001", + new String[] { }); + + // ÷ 000A ÷ 0308 ÷ 0001 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0001", + new String[] { }); + + // ÷ 000A ÷ 000D ÷ # ÷ [0.2] (LF) ÷ [3.1] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\r", + new String[] { }); + + // ÷ 000A ÷ 0308 ÷ 000D ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\r", + new String[] { }); + + // ÷ 000A ÷ 000A ÷ # ÷ [0.2] (LF) ÷ [3.1] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\n", + new String[] { }); + + // ÷ 000A ÷ 0308 ÷ 000A ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\n", + new String[] { }); + + // ÷ 000A ÷ 000B ÷ # ÷ [0.2] (LF) ÷ [3.1] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u000B", + new String[] { }); + + // ÷ 000A ÷ 0308 ÷ 000B ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u000B", + new String[] { }); + + // ÷ 000A ÷ 3031 ÷ # ÷ [0.2] (LF) ÷ [3.1] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u3031", + new String[] { "\u3031" }); + + // ÷ 000A ÷ 0308 ÷ 3031 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 000A ÷ 0041 ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0041", + new String[] { "\u0041" }); + + // ÷ 000A ÷ 0308 ÷ 0041 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 000A ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u003A", + new String[] { }); + + // ÷ 000A ÷ 0308 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u003A", + new String[] { }); + + // ÷ 000A ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u002C", + new String[] { }); + + // ÷ 000A ÷ 0308 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u002C", + new String[] { }); + + // ÷ 000A ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0027", + new String[] { }); + + // ÷ 000A ÷ 0308 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0027", + new String[] { }); + + // ÷ 000A ÷ 0030 ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0030", + new String[] { "\u0030" }); + + // ÷ 000A ÷ 0308 ÷ 0030 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 000A ÷ 005F ÷ # ÷ [0.2] (LF) ÷ [3.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u005F", + new String[] { }); + + // ÷ 000A ÷ 0308 ÷ 005F ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u005F", + new String[] { }); + + // ÷ 000A ÷ 00AD ÷ # ÷ [0.2] (LF) ÷ [3.1] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u00AD", + new String[] { }); + + // ÷ 000A ÷ 0308 × 00AD ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u00AD", + new String[] { }); + + // ÷ 000A ÷ 0300 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0300", + new String[] { }); + + // ÷ 000A ÷ 0308 × 0300 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0300", + new String[] { }); + + // ÷ 000A ÷ 0061 × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 000A ÷ 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 000A ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 000A ÷ 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 000A ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 000A ÷ 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 000A ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 000A ÷ 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 000A ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 000A ÷ 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 000A ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 000A ÷ 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 000A ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 000A ÷ 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 000A ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 000A ÷ 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 000A ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 000A ÷ 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\n\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 000B ÷ 0001 ÷ # ÷ [0.2] (Newline) ÷ [3.1] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0001", + new String[] { }); + + // ÷ 000B ÷ 0308 ÷ 0001 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0001", + new String[] { }); + + // ÷ 000B ÷ 000D ÷ # ÷ [0.2] (Newline) ÷ [3.1] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\r", + new String[] { }); + + // ÷ 000B ÷ 0308 ÷ 000D ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\r", + new String[] { }); + + // ÷ 000B ÷ 000A ÷ # ÷ [0.2] (Newline) ÷ [3.1] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\n", + new String[] { }); + + // ÷ 000B ÷ 0308 ÷ 000A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\n", + new String[] { }); + + // ÷ 000B ÷ 000B ÷ # ÷ [0.2] (Newline) ÷ [3.1] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u000B", + new String[] { }); + + // ÷ 000B ÷ 0308 ÷ 000B ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u000B", + new String[] { }); + + // ÷ 000B ÷ 3031 ÷ # ÷ [0.2] (Newline) ÷ [3.1] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u3031", + new String[] { "\u3031" }); + + // ÷ 000B ÷ 0308 ÷ 3031 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 000B ÷ 0041 ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0041", + new String[] { "\u0041" }); + + // ÷ 000B ÷ 0308 ÷ 0041 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 000B ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u003A", + new String[] { }); + + // ÷ 000B ÷ 0308 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u003A", + new String[] { }); + + // ÷ 000B ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u002C", + new String[] { }); + + // ÷ 000B ÷ 0308 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u002C", + new String[] { }); + + // ÷ 000B ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0027", + new String[] { }); + + // ÷ 000B ÷ 0308 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0027", + new String[] { }); + + // ÷ 000B ÷ 0030 ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0030", + new String[] { "\u0030" }); + + // ÷ 000B ÷ 0308 ÷ 0030 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 000B ÷ 005F ÷ # ÷ [0.2] (Newline) ÷ [3.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u005F", + new String[] { }); + + // ÷ 000B ÷ 0308 ÷ 005F ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u005F", + new String[] { }); + + // ÷ 000B ÷ 00AD ÷ # ÷ [0.2] (Newline) ÷ [3.1] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u00AD", + new String[] { }); + + // ÷ 000B ÷ 0308 × 00AD ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u00AD", + new String[] { }); + + // ÷ 000B ÷ 0300 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0300", + new String[] { }); + + // ÷ 000B ÷ 0308 × 0300 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0300", + new String[] { }); + + // ÷ 000B ÷ 0061 × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 000B ÷ 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 000B ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 000B ÷ 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 000B ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 000B ÷ 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 000B ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 000B ÷ 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 000B ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 000B ÷ 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 000B ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 000B ÷ 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 000B ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 000B ÷ 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 000B ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 000B ÷ 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 000B ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 000B ÷ 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u000B\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 3031 ÷ 0001 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0001", + new String[] { "\u3031" }); + + // ÷ 3031 × 0308 ÷ 0001 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0001", + new String[] { "\u3031\u0308" }); + + // ÷ 3031 ÷ 000D ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\r", + new String[] { "\u3031" }); + + // ÷ 3031 × 0308 ÷ 000D ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\r", + new String[] { "\u3031\u0308" }); + + // ÷ 3031 ÷ 000A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\n", + new String[] { "\u3031" }); + + // ÷ 3031 × 0308 ÷ 000A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\n", + new String[] { "\u3031\u0308" }); + + // ÷ 3031 ÷ 000B ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u000B", + new String[] { "\u3031" }); + + // ÷ 3031 × 0308 ÷ 000B ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u000B", + new String[] { "\u3031\u0308" }); + + // ÷ 3031 × 3031 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [13.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u3031", + new String[] { "\u3031\u3031" }); + + // ÷ 3031 × 0308 × 3031 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u3031", + new String[] { "\u3031\u0308\u3031" }); + + // ÷ 3031 ÷ 0041 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0041", + new String[] { "\u3031", "\u0041" }); + + // ÷ 3031 × 0308 ÷ 0041 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0041", + new String[] { "\u3031\u0308", "\u0041" }); + + // ÷ 3031 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u003A", + new String[] { "\u3031" }); + + // ÷ 3031 × 0308 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u003A", + new String[] { "\u3031\u0308" }); + + // ÷ 3031 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u002C", + new String[] { "\u3031" }); + + // ÷ 3031 × 0308 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u002C", + new String[] { "\u3031\u0308" }); + + // ÷ 3031 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0027", + new String[] { "\u3031" }); + + // ÷ 3031 × 0308 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0027", + new String[] { "\u3031\u0308" }); + + // ÷ 3031 ÷ 0030 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0030", + new String[] { "\u3031", "\u0030" }); + + // ÷ 3031 × 0308 ÷ 0030 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0030", + new String[] { "\u3031\u0308", "\u0030" }); + + // ÷ 3031 × 005F ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u005F", + new String[] { "\u3031\u005F" }); + + // ÷ 3031 × 0308 × 005F ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u005F", + new String[] { "\u3031\u0308\u005F" }); + + // ÷ 3031 × 00AD ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u00AD", + new String[] { "\u3031\u00AD" }); + + // ÷ 3031 × 0308 × 00AD ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u00AD", + new String[] { "\u3031\u0308\u00AD" }); + + // ÷ 3031 × 0300 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0300", + new String[] { "\u3031\u0300" }); + + // ÷ 3031 × 0308 × 0300 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0300", + new String[] { "\u3031\u0308\u0300" }); + + // ÷ 3031 ÷ 0061 × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0061\u2060", + new String[] { "\u3031", "\u0061\u2060" }); + + // ÷ 3031 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u2060", + new String[] { "\u3031\u0308", "\u0061\u2060" }); + + // ÷ 3031 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0061\u003A", + new String[] { "\u3031", "\u0061" }); + + // ÷ 3031 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u003A", + new String[] { "\u3031\u0308", "\u0061" }); + + // ÷ 3031 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0061\u0027", + new String[] { "\u3031", "\u0061" }); + + // ÷ 3031 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u0027", + new String[] { "\u3031\u0308", "\u0061" }); + + // ÷ 3031 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0061\u0027\u2060", + new String[] { "\u3031", "\u0061" }); + + // ÷ 3031 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u0027\u2060", + new String[] { "\u3031\u0308", "\u0061" }); + + // ÷ 3031 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0061\u002C", + new String[] { "\u3031", "\u0061" }); + + // ÷ 3031 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u002C", + new String[] { "\u3031\u0308", "\u0061" }); + + // ÷ 3031 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0031\u003A", + new String[] { "\u3031", "\u0031" }); + + // ÷ 3031 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0031\u003A", + new String[] { "\u3031\u0308", "\u0031" }); + + // ÷ 3031 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0031\u0027", + new String[] { "\u3031", "\u0031" }); + + // ÷ 3031 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0031\u0027", + new String[] { "\u3031\u0308", "\u0031" }); + + // ÷ 3031 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0031\u002C", + new String[] { "\u3031", "\u0031" }); + + // ÷ 3031 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0031\u002C", + new String[] { "\u3031\u0308", "\u0031" }); + + // ÷ 3031 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0031\u002E\u2060", + new String[] { "\u3031", "\u0031" }); + + // ÷ 3031 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u3031\u0308\u0031\u002E\u2060", + new String[] { "\u3031\u0308", "\u0031" }); + + // ÷ 0041 ÷ 0001 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0001", + new String[] { "\u0041" }); + + // ÷ 0041 × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0001", + new String[] { "\u0041\u0308" }); + + // ÷ 0041 ÷ 000D ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\r", + new String[] { "\u0041" }); + + // ÷ 0041 × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\r", + new String[] { "\u0041\u0308" }); + + // ÷ 0041 ÷ 000A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\n", + new String[] { "\u0041" }); + + // ÷ 0041 × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\n", + new String[] { "\u0041\u0308" }); + + // ÷ 0041 ÷ 000B ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u000B", + new String[] { "\u0041" }); + + // ÷ 0041 × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u000B", + new String[] { "\u0041\u0308" }); + + // ÷ 0041 ÷ 3031 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u3031", + new String[] { "\u0041", "\u3031" }); + + // ÷ 0041 × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u3031", + new String[] { "\u0041\u0308", "\u3031" }); + + // ÷ 0041 × 0041 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0041", + new String[] { "\u0041\u0041" }); + + // ÷ 0041 × 0308 × 0041 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0041", + new String[] { "\u0041\u0308\u0041" }); + + // ÷ 0041 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u003A", + new String[] { "\u0041" }); + + // ÷ 0041 × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u003A", + new String[] { "\u0041\u0308" }); + + // ÷ 0041 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u002C", + new String[] { "\u0041" }); + + // ÷ 0041 × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u002C", + new String[] { "\u0041\u0308" }); + + // ÷ 0041 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0027", + new String[] { "\u0041" }); + + // ÷ 0041 × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0027", + new String[] { "\u0041\u0308" }); + + // ÷ 0041 × 0030 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0030", + new String[] { "\u0041\u0030" }); + + // ÷ 0041 × 0308 × 0030 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0030", + new String[] { "\u0041\u0308\u0030" }); + + // ÷ 0041 × 005F ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u005F", + new String[] { "\u0041\u005F" }); + + // ÷ 0041 × 0308 × 005F ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u005F", + new String[] { "\u0041\u0308\u005F" }); + + // ÷ 0041 × 00AD ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u00AD", + new String[] { "\u0041\u00AD" }); + + // ÷ 0041 × 0308 × 00AD ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u00AD", + new String[] { "\u0041\u0308\u00AD" }); + + // ÷ 0041 × 0300 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0300", + new String[] { "\u0041\u0300" }); + + // ÷ 0041 × 0308 × 0300 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0300", + new String[] { "\u0041\u0308\u0300" }); + + // ÷ 0041 × 0061 × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0061\u2060", + new String[] { "\u0041\u0061\u2060" }); + + // ÷ 0041 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u2060", + new String[] { "\u0041\u0308\u0061\u2060" }); + + // ÷ 0041 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0061\u003A", + new String[] { "\u0041\u0061" }); + + // ÷ 0041 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u003A", + new String[] { "\u0041\u0308\u0061" }); + + // ÷ 0041 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0061\u0027", + new String[] { "\u0041\u0061" }); + + // ÷ 0041 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u0027", + new String[] { "\u0041\u0308\u0061" }); + + // ÷ 0041 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0061\u0027\u2060", + new String[] { "\u0041\u0061" }); + + // ÷ 0041 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u0027\u2060", + new String[] { "\u0041\u0308\u0061" }); + + // ÷ 0041 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0061\u002C", + new String[] { "\u0041\u0061" }); + + // ÷ 0041 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u002C", + new String[] { "\u0041\u0308\u0061" }); + + // ÷ 0041 × 0031 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0031\u003A", + new String[] { "\u0041\u0031" }); + + // ÷ 0041 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0031\u003A", + new String[] { "\u0041\u0308\u0031" }); + + // ÷ 0041 × 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0031\u0027", + new String[] { "\u0041\u0031" }); + + // ÷ 0041 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0031\u0027", + new String[] { "\u0041\u0308\u0031" }); + + // ÷ 0041 × 0031 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0031\u002C", + new String[] { "\u0041\u0031" }); + + // ÷ 0041 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0031\u002C", + new String[] { "\u0041\u0308\u0031" }); + + // ÷ 0041 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0031\u002E\u2060", + new String[] { "\u0041\u0031" }); + + // ÷ 0041 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0041\u0308\u0031\u002E\u2060", + new String[] { "\u0041\u0308\u0031" }); + + // ÷ 003A ÷ 0001 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0001", + new String[] { }); + + // ÷ 003A × 0308 ÷ 0001 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0001", + new String[] { }); + + // ÷ 003A ÷ 000D ÷ # ÷ [0.2] COLON (MidLetter) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\r", + new String[] { }); + + // ÷ 003A × 0308 ÷ 000D ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\r", + new String[] { }); + + // ÷ 003A ÷ 000A ÷ # ÷ [0.2] COLON (MidLetter) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\n", + new String[] { }); + + // ÷ 003A × 0308 ÷ 000A ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\n", + new String[] { }); + + // ÷ 003A ÷ 000B ÷ # ÷ [0.2] COLON (MidLetter) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u000B", + new String[] { }); + + // ÷ 003A × 0308 ÷ 000B ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u000B", + new String[] { }); + + // ÷ 003A ÷ 3031 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u3031", + new String[] { "\u3031" }); + + // ÷ 003A × 0308 ÷ 3031 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 003A ÷ 0041 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0041", + new String[] { "\u0041" }); + + // ÷ 003A × 0308 ÷ 0041 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 003A ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u003A", + new String[] { }); + + // ÷ 003A × 0308 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u003A", + new String[] { }); + + // ÷ 003A ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u002C", + new String[] { }); + + // ÷ 003A × 0308 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u002C", + new String[] { }); + + // ÷ 003A ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0027", + new String[] { }); + + // ÷ 003A × 0308 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0027", + new String[] { }); + + // ÷ 003A ÷ 0030 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0030", + new String[] { "\u0030" }); + + // ÷ 003A × 0308 ÷ 0030 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 003A ÷ 005F ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u005F", + new String[] { }); + + // ÷ 003A × 0308 ÷ 005F ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u005F", + new String[] { }); + + // ÷ 003A × 00AD ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u00AD", + new String[] { }); + + // ÷ 003A × 0308 × 00AD ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u00AD", + new String[] { }); + + // ÷ 003A × 0300 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0300", + new String[] { }); + + // ÷ 003A × 0308 × 0300 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0300", + new String[] { }); + + // ÷ 003A ÷ 0061 × 2060 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 003A × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 003A ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 003A × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 003A ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 003A × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 003A ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 003A × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 003A ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 003A × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 003A ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 003A × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 003A ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 003A × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 003A ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 003A × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 003A ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 003A × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u003A\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 002C ÷ 0001 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0001", + new String[] { }); + + // ÷ 002C × 0308 ÷ 0001 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0001", + new String[] { }); + + // ÷ 002C ÷ 000D ÷ # ÷ [0.2] COMMA (MidNum) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\r", + new String[] { }); + + // ÷ 002C × 0308 ÷ 000D ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\r", + new String[] { }); + + // ÷ 002C ÷ 000A ÷ # ÷ [0.2] COMMA (MidNum) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\n", + new String[] { }); + + // ÷ 002C × 0308 ÷ 000A ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\n", + new String[] { }); + + // ÷ 002C ÷ 000B ÷ # ÷ [0.2] COMMA (MidNum) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u000B", + new String[] { }); + + // ÷ 002C × 0308 ÷ 000B ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u000B", + new String[] { }); + + // ÷ 002C ÷ 3031 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u3031", + new String[] { "\u3031" }); + + // ÷ 002C × 0308 ÷ 3031 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 002C ÷ 0041 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0041", + new String[] { "\u0041" }); + + // ÷ 002C × 0308 ÷ 0041 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 002C ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u003A", + new String[] { }); + + // ÷ 002C × 0308 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u003A", + new String[] { }); + + // ÷ 002C ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u002C", + new String[] { }); + + // ÷ 002C × 0308 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u002C", + new String[] { }); + + // ÷ 002C ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0027", + new String[] { }); + + // ÷ 002C × 0308 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0027", + new String[] { }); + + // ÷ 002C ÷ 0030 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0030", + new String[] { "\u0030" }); + + // ÷ 002C × 0308 ÷ 0030 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 002C ÷ 005F ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u005F", + new String[] { }); + + // ÷ 002C × 0308 ÷ 005F ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u005F", + new String[] { }); + + // ÷ 002C × 00AD ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u00AD", + new String[] { }); + + // ÷ 002C × 0308 × 00AD ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u00AD", + new String[] { }); + + // ÷ 002C × 0300 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0300", + new String[] { }); + + // ÷ 002C × 0308 × 0300 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0300", + new String[] { }); + + // ÷ 002C ÷ 0061 × 2060 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 002C × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 002C ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 002C × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 002C ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 002C × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 002C ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 002C × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 002C ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 002C × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 002C ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 002C × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 002C ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 002C × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 002C ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 002C × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 002C ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 002C × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u002C\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 0027 ÷ 0001 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0001", + new String[] { }); + + // ÷ 0027 × 0308 ÷ 0001 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0001", + new String[] { }); + + // ÷ 0027 ÷ 000D ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\r", + new String[] { }); + + // ÷ 0027 × 0308 ÷ 000D ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\r", + new String[] { }); + + // ÷ 0027 ÷ 000A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\n", + new String[] { }); + + // ÷ 0027 × 0308 ÷ 000A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\n", + new String[] { }); + + // ÷ 0027 ÷ 000B ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u000B", + new String[] { }); + + // ÷ 0027 × 0308 ÷ 000B ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u000B", + new String[] { }); + + // ÷ 0027 ÷ 3031 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u3031", + new String[] { "\u3031" }); + + // ÷ 0027 × 0308 ÷ 3031 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 0027 ÷ 0041 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0041", + new String[] { "\u0041" }); + + // ÷ 0027 × 0308 ÷ 0041 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 0027 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u003A", + new String[] { }); + + // ÷ 0027 × 0308 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u003A", + new String[] { }); + + // ÷ 0027 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u002C", + new String[] { }); + + // ÷ 0027 × 0308 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u002C", + new String[] { }); + + // ÷ 0027 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0027", + new String[] { }); + + // ÷ 0027 × 0308 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0027", + new String[] { }); + + // ÷ 0027 ÷ 0030 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0030", + new String[] { "\u0030" }); + + // ÷ 0027 × 0308 ÷ 0030 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 0027 ÷ 005F ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u005F", + new String[] { }); + + // ÷ 0027 × 0308 ÷ 005F ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u005F", + new String[] { }); + + // ÷ 0027 × 00AD ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u00AD", + new String[] { }); + + // ÷ 0027 × 0308 × 00AD ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u00AD", + new String[] { }); + + // ÷ 0027 × 0300 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0300", + new String[] { }); + + // ÷ 0027 × 0308 × 0300 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0300", + new String[] { }); + + // ÷ 0027 ÷ 0061 × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 0027 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 0027 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 0027 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 0027 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 0027 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 0027 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 0027 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 0027 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 0027 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 0027 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 0027 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 0027 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 0027 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 0027 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 0027 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 0027 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 0027 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0027\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 0030 ÷ 0001 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0001", + new String[] { "\u0030" }); + + // ÷ 0030 × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0001", + new String[] { "\u0030\u0308" }); + + // ÷ 0030 ÷ 000D ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\r", + new String[] { "\u0030" }); + + // ÷ 0030 × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\r", + new String[] { "\u0030\u0308" }); + + // ÷ 0030 ÷ 000A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\n", + new String[] { "\u0030" }); + + // ÷ 0030 × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\n", + new String[] { "\u0030\u0308" }); + + // ÷ 0030 ÷ 000B ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u000B", + new String[] { "\u0030" }); + + // ÷ 0030 × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u000B", + new String[] { "\u0030\u0308" }); + + // ÷ 0030 ÷ 3031 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u3031", + new String[] { "\u0030", "\u3031" }); + + // ÷ 0030 × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u3031", + new String[] { "\u0030\u0308", "\u3031" }); + + // ÷ 0030 × 0041 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0041", + new String[] { "\u0030\u0041" }); + + // ÷ 0030 × 0308 × 0041 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0041", + new String[] { "\u0030\u0308\u0041" }); + + // ÷ 0030 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u003A", + new String[] { "\u0030" }); + + // ÷ 0030 × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u003A", + new String[] { "\u0030\u0308" }); + + // ÷ 0030 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u002C", + new String[] { "\u0030" }); + + // ÷ 0030 × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u002C", + new String[] { "\u0030\u0308" }); + + // ÷ 0030 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0027", + new String[] { "\u0030" }); + + // ÷ 0030 × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0027", + new String[] { "\u0030\u0308" }); + + // ÷ 0030 × 0030 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0030", + new String[] { "\u0030\u0030" }); + + // ÷ 0030 × 0308 × 0030 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0030", + new String[] { "\u0030\u0308\u0030" }); + + // ÷ 0030 × 005F ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u005F", + new String[] { "\u0030\u005F" }); + + // ÷ 0030 × 0308 × 005F ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u005F", + new String[] { "\u0030\u0308\u005F" }); + + // ÷ 0030 × 00AD ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u00AD", + new String[] { "\u0030\u00AD" }); + + // ÷ 0030 × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u00AD", + new String[] { "\u0030\u0308\u00AD" }); + + // ÷ 0030 × 0300 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0300", + new String[] { "\u0030\u0300" }); + + // ÷ 0030 × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0300", + new String[] { "\u0030\u0308\u0300" }); + + // ÷ 0030 × 0061 × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0061\u2060", + new String[] { "\u0030\u0061\u2060" }); + + // ÷ 0030 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u2060", + new String[] { "\u0030\u0308\u0061\u2060" }); + + // ÷ 0030 × 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0061\u003A", + new String[] { "\u0030\u0061" }); + + // ÷ 0030 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u003A", + new String[] { "\u0030\u0308\u0061" }); + + // ÷ 0030 × 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0061\u0027", + new String[] { "\u0030\u0061" }); + + // ÷ 0030 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u0027", + new String[] { "\u0030\u0308\u0061" }); + + // ÷ 0030 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0061\u0027\u2060", + new String[] { "\u0030\u0061" }); + + // ÷ 0030 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u0027\u2060", + new String[] { "\u0030\u0308\u0061" }); + + // ÷ 0030 × 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0061\u002C", + new String[] { "\u0030\u0061" }); + + // ÷ 0030 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u002C", + new String[] { "\u0030\u0308\u0061" }); + + // ÷ 0030 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0031\u003A", + new String[] { "\u0030\u0031" }); + + // ÷ 0030 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0031\u003A", + new String[] { "\u0030\u0308\u0031" }); + + // ÷ 0030 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0031\u0027", + new String[] { "\u0030\u0031" }); + + // ÷ 0030 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0031\u0027", + new String[] { "\u0030\u0308\u0031" }); + + // ÷ 0030 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0031\u002C", + new String[] { "\u0030\u0031" }); + + // ÷ 0030 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0031\u002C", + new String[] { "\u0030\u0308\u0031" }); + + // ÷ 0030 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0031\u002E\u2060", + new String[] { "\u0030\u0031" }); + + // ÷ 0030 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0030\u0308\u0031\u002E\u2060", + new String[] { "\u0030\u0308\u0031" }); + + // ÷ 005F ÷ 0001 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0001", + new String[] { }); + + // ÷ 005F × 0308 ÷ 0001 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0001", + new String[] { }); + + // ÷ 005F ÷ 000D ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\r", + new String[] { }); + + // ÷ 005F × 0308 ÷ 000D ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\r", + new String[] { }); + + // ÷ 005F ÷ 000A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\n", + new String[] { }); + + // ÷ 005F × 0308 ÷ 000A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\n", + new String[] { }); + + // ÷ 005F ÷ 000B ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u000B", + new String[] { }); + + // ÷ 005F × 0308 ÷ 000B ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u000B", + new String[] { }); + + // ÷ 005F × 3031 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u3031", + new String[] { "\u005F\u3031" }); + + // ÷ 005F × 0308 × 3031 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u3031", + new String[] { "\u005F\u0308\u3031" }); + + // ÷ 005F × 0041 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0041", + new String[] { "\u005F\u0041" }); + + // ÷ 005F × 0308 × 0041 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0041", + new String[] { "\u005F\u0308\u0041" }); + + // ÷ 005F ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u003A", + new String[] { }); + + // ÷ 005F × 0308 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u003A", + new String[] { }); + + // ÷ 005F ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u002C", + new String[] { }); + + // ÷ 005F × 0308 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u002C", + new String[] { }); + + // ÷ 005F ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0027", + new String[] { }); + + // ÷ 005F × 0308 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0027", + new String[] { }); + + // ÷ 005F × 0030 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0030", + new String[] { "\u005F\u0030" }); + + // ÷ 005F × 0308 × 0030 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0030", + new String[] { "\u005F\u0308\u0030" }); + + // ÷ 005F × 005F ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u005F", + new String[] { }); + + // ÷ 005F × 0308 × 005F ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u005F", + new String[] { }); + + // ÷ 005F × 00AD ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u00AD", + new String[] { }); + + // ÷ 005F × 0308 × 00AD ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u00AD", + new String[] { }); + + // ÷ 005F × 0300 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0300", + new String[] { }); + + // ÷ 005F × 0308 × 0300 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0300", + new String[] { }); + + // ÷ 005F × 0061 × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0061\u2060", + new String[] { "\u005F\u0061\u2060" }); + + // ÷ 005F × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u2060", + new String[] { "\u005F\u0308\u0061\u2060" }); + + // ÷ 005F × 0061 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0061\u003A", + new String[] { "\u005F\u0061" }); + + // ÷ 005F × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u003A", + new String[] { "\u005F\u0308\u0061" }); + + // ÷ 005F × 0061 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0061\u0027", + new String[] { "\u005F\u0061" }); + + // ÷ 005F × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u0027", + new String[] { "\u005F\u0308\u0061" }); + + // ÷ 005F × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0061\u0027\u2060", + new String[] { "\u005F\u0061" }); + + // ÷ 005F × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u0027\u2060", + new String[] { "\u005F\u0308\u0061" }); + + // ÷ 005F × 0061 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0061\u002C", + new String[] { "\u005F\u0061" }); + + // ÷ 005F × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u002C", + new String[] { "\u005F\u0308\u0061" }); + + // ÷ 005F × 0031 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0031\u003A", + new String[] { "\u005F\u0031" }); + + // ÷ 005F × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0031\u003A", + new String[] { "\u005F\u0308\u0031" }); + + // ÷ 005F × 0031 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0031\u0027", + new String[] { "\u005F\u0031" }); + + // ÷ 005F × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0031\u0027", + new String[] { "\u005F\u0308\u0031" }); + + // ÷ 005F × 0031 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0031\u002C", + new String[] { "\u005F\u0031" }); + + // ÷ 005F × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0031\u002C", + new String[] { "\u005F\u0308\u0031" }); + + // ÷ 005F × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0031\u002E\u2060", + new String[] { "\u005F\u0031" }); + + // ÷ 005F × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u005F\u0308\u0031\u002E\u2060", + new String[] { "\u005F\u0308\u0031" }); + + // ÷ 00AD ÷ 0001 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0001", + new String[] { }); + + // ÷ 00AD × 0308 ÷ 0001 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0001", + new String[] { }); + + // ÷ 00AD ÷ 000D ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\r", + new String[] { }); + + // ÷ 00AD × 0308 ÷ 000D ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\r", + new String[] { }); + + // ÷ 00AD ÷ 000A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\n", + new String[] { }); + + // ÷ 00AD × 0308 ÷ 000A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\n", + new String[] { }); + + // ÷ 00AD ÷ 000B ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u000B", + new String[] { }); + + // ÷ 00AD × 0308 ÷ 000B ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u000B", + new String[] { }); + + // ÷ 00AD ÷ 3031 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u3031", + new String[] { "\u3031" }); + + // ÷ 00AD × 0308 ÷ 3031 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 00AD ÷ 0041 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0041", + new String[] { "\u0041" }); + + // ÷ 00AD × 0308 ÷ 0041 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 00AD ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u003A", + new String[] { }); + + // ÷ 00AD × 0308 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u003A", + new String[] { }); + + // ÷ 00AD ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u002C", + new String[] { }); + + // ÷ 00AD × 0308 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u002C", + new String[] { }); + + // ÷ 00AD ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0027", + new String[] { }); + + // ÷ 00AD × 0308 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0027", + new String[] { }); + + // ÷ 00AD ÷ 0030 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0030", + new String[] { "\u0030" }); + + // ÷ 00AD × 0308 ÷ 0030 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 00AD ÷ 005F ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u005F", + new String[] { }); + + // ÷ 00AD × 0308 ÷ 005F ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u005F", + new String[] { }); + + // ÷ 00AD × 00AD ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u00AD", + new String[] { }); + + // ÷ 00AD × 0308 × 00AD ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u00AD", + new String[] { }); + + // ÷ 00AD × 0300 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0300", + new String[] { }); + + // ÷ 00AD × 0308 × 0300 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0300", + new String[] { }); + + // ÷ 00AD ÷ 0061 × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 00AD × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 00AD ÷ 0061 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 00AD × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 00AD ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 00AD × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 00AD ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 00AD × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 00AD ÷ 0061 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 00AD × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 00AD ÷ 0031 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 00AD × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 00AD ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 00AD × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 00AD ÷ 0031 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 00AD × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 00AD ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 00AD × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u00AD\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 0300 ÷ 0001 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0001", + new String[] { }); + + // ÷ 0300 × 0308 ÷ 0001 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0001", + new String[] { }); + + // ÷ 0300 ÷ 000D ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\r", + new String[] { }); + + // ÷ 0300 × 0308 ÷ 000D ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\r", + new String[] { }); + + // ÷ 0300 ÷ 000A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\n", + new String[] { }); + + // ÷ 0300 × 0308 ÷ 000A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\n", + new String[] { }); + + // ÷ 0300 ÷ 000B ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u000B", + new String[] { }); + + // ÷ 0300 × 0308 ÷ 000B ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u000B", + new String[] { }); + + // ÷ 0300 ÷ 3031 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u3031", + new String[] { "\u3031" }); + + // ÷ 0300 × 0308 ÷ 3031 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u3031", + new String[] { "\u3031" }); + + // ÷ 0300 ÷ 0041 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0041", + new String[] { "\u0041" }); + + // ÷ 0300 × 0308 ÷ 0041 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0041", + new String[] { "\u0041" }); + + // ÷ 0300 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u003A", + new String[] { }); + + // ÷ 0300 × 0308 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u003A", + new String[] { }); + + // ÷ 0300 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u002C", + new String[] { }); + + // ÷ 0300 × 0308 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u002C", + new String[] { }); + + // ÷ 0300 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0027", + new String[] { }); + + // ÷ 0300 × 0308 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0027", + new String[] { }); + + // ÷ 0300 ÷ 0030 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0030", + new String[] { "\u0030" }); + + // ÷ 0300 × 0308 ÷ 0030 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0030", + new String[] { "\u0030" }); + + // ÷ 0300 ÷ 005F ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u005F", + new String[] { }); + + // ÷ 0300 × 0308 ÷ 005F ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u005F", + new String[] { }); + + // ÷ 0300 × 00AD ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u00AD", + new String[] { }); + + // ÷ 0300 × 0308 × 00AD ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u00AD", + new String[] { }); + + // ÷ 0300 × 0300 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0300", + new String[] { }); + + // ÷ 0300 × 0308 × 0300 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0300", + new String[] { }); + + // ÷ 0300 ÷ 0061 × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 0300 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u2060", + new String[] { "\u0061\u2060" }); + + // ÷ 0300 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 0300 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u003A", + new String[] { "\u0061" }); + + // ÷ 0300 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 0300 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u0027", + new String[] { "\u0061" }); + + // ÷ 0300 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 0300 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u0027\u2060", + new String[] { "\u0061" }); + + // ÷ 0300 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 0300 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u002C", + new String[] { "\u0061" }); + + // ÷ 0300 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 0300 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0031\u003A", + new String[] { "\u0031" }); + + // ÷ 0300 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 0300 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0031\u0027", + new String[] { "\u0031" }); + + // ÷ 0300 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 0300 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0031\u002C", + new String[] { "\u0031" }); + + // ÷ 0300 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 0300 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0300\u0308\u0031\u002E\u2060", + new String[] { "\u0031" }); + + // ÷ 0061 × 2060 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0001", + new String[] { "\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0001", + new String[] { "\u0061\u2060\u0308" }); + + // ÷ 0061 × 2060 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\r", + new String[] { "\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\r", + new String[] { "\u0061\u2060\u0308" }); + + // ÷ 0061 × 2060 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\n", + new String[] { "\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\n", + new String[] { "\u0061\u2060\u0308" }); + + // ÷ 0061 × 2060 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u000B", + new String[] { "\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u000B", + new String[] { "\u0061\u2060\u0308" }); + + // ÷ 0061 × 2060 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u3031", + new String[] { "\u0061\u2060", "\u3031" }); + + // ÷ 0061 × 2060 × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u3031", + new String[] { "\u0061\u2060\u0308", "\u3031" }); + + // ÷ 0061 × 2060 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0041", + new String[] { "\u0061\u2060\u0041" }); + + // ÷ 0061 × 2060 × 0308 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0041", + new String[] { "\u0061\u2060\u0308\u0041" }); + + // ÷ 0061 × 2060 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u003A", + new String[] { "\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u003A", + new String[] { "\u0061\u2060\u0308" }); + + // ÷ 0061 × 2060 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u002C", + new String[] { "\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u002C", + new String[] { "\u0061\u2060\u0308" }); + + // ÷ 0061 × 2060 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0027", + new String[] { "\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0027", + new String[] { "\u0061\u2060\u0308" }); + + // ÷ 0061 × 2060 × 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0030", + new String[] { "\u0061\u2060\u0030" }); + + // ÷ 0061 × 2060 × 0308 × 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0030", + new String[] { "\u0061\u2060\u0308\u0030" }); + + // ÷ 0061 × 2060 × 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u005F", + new String[] { "\u0061\u2060\u005F" }); + + // ÷ 0061 × 2060 × 0308 × 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u005F", + new String[] { "\u0061\u2060\u0308\u005F" }); + + // ÷ 0061 × 2060 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u00AD", + new String[] { "\u0061\u2060\u00AD" }); + + // ÷ 0061 × 2060 × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u00AD", + new String[] { "\u0061\u2060\u0308\u00AD" }); + + // ÷ 0061 × 2060 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0300", + new String[] { "\u0061\u2060\u0300" }); + + // ÷ 0061 × 2060 × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0300", + new String[] { "\u0061\u2060\u0308\u0300" }); + + // ÷ 0061 × 2060 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u2060", + new String[] { "\u0061\u2060\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u2060", + new String[] { "\u0061\u2060\u0308\u0061\u2060" }); + + // ÷ 0061 × 2060 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u003A", + new String[] { "\u0061\u2060\u0061" }); + + // ÷ 0061 × 2060 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u003A", + new String[] { "\u0061\u2060\u0308\u0061" }); + + // ÷ 0061 × 2060 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u0027", + new String[] { "\u0061\u2060\u0061" }); + + // ÷ 0061 × 2060 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u0027", + new String[] { "\u0061\u2060\u0308\u0061" }); + + // ÷ 0061 × 2060 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u0027\u2060", + new String[] { "\u0061\u2060\u0061" }); + + // ÷ 0061 × 2060 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u0027\u2060", + new String[] { "\u0061\u2060\u0308\u0061" }); + + // ÷ 0061 × 2060 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u002C", + new String[] { "\u0061\u2060\u0061" }); + + // ÷ 0061 × 2060 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u002C", + new String[] { "\u0061\u2060\u0308\u0061" }); + + // ÷ 0061 × 2060 × 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0031\u003A", + new String[] { "\u0061\u2060\u0031" }); + + // ÷ 0061 × 2060 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0031\u003A", + new String[] { "\u0061\u2060\u0308\u0031" }); + + // ÷ 0061 × 2060 × 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0031\u0027", + new String[] { "\u0061\u2060\u0031" }); + + // ÷ 0061 × 2060 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0031\u0027", + new String[] { "\u0061\u2060\u0308\u0031" }); + + // ÷ 0061 × 2060 × 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0031\u002C", + new String[] { "\u0061\u2060\u0031" }); + + // ÷ 0061 × 2060 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0031\u002C", + new String[] { "\u0061\u2060\u0308\u0031" }); + + // ÷ 0061 × 2060 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0031\u002E\u2060", + new String[] { "\u0061\u2060\u0031" }); + + // ÷ 0061 × 2060 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0031\u002E\u2060", + new String[] { "\u0061\u2060\u0308\u0031" }); + + // ÷ 0061 ÷ 003A ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0001", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0001", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\r", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\r", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\n", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\n", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u000B", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u000B", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u3031", + new String[] { "\u0061", "\u3031" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u3031", + new String[] { "\u0061", "\u3031" }); + + // ÷ 0061 × 003A × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0041", + new String[] { "\u0061\u003A\u0041" }); + + // ÷ 0061 × 003A × 0308 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0041", + new String[] { "\u0061\u003A\u0308\u0041" }); + + // ÷ 0061 ÷ 003A ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u003A", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u003A", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u002C", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u002C", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0027", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0027", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0030", + new String[] { "\u0061", "\u0030" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0030", + new String[] { "\u0061", "\u0030" }); + + // ÷ 0061 ÷ 003A ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u005F", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u005F", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u00AD", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u00AD", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0300", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 003A × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0300", + new String[] { "\u0061" }); + + // ÷ 0061 × 003A × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u2060", + new String[] { "\u0061\u003A\u0061\u2060" }); + + // ÷ 0061 × 003A × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u2060", + new String[] { "\u0061\u003A\u0308\u0061\u2060" }); + + // ÷ 0061 × 003A × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u003A", + new String[] { "\u0061\u003A\u0061" }); + + // ÷ 0061 × 003A × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u003A", + new String[] { "\u0061\u003A\u0308\u0061" }); + + // ÷ 0061 × 003A × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u0027", + new String[] { "\u0061\u003A\u0061" }); + + // ÷ 0061 × 003A × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u0027", + new String[] { "\u0061\u003A\u0308\u0061" }); + + // ÷ 0061 × 003A × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u0027\u2060", + new String[] { "\u0061\u003A\u0061" }); + + // ÷ 0061 × 003A × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u0027\u2060", + new String[] { "\u0061\u003A\u0308\u0061" }); + + // ÷ 0061 × 003A × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u002C", + new String[] { "\u0061\u003A\u0061" }); + + // ÷ 0061 × 003A × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u002C", + new String[] { "\u0061\u003A\u0308\u0061" }); + + // ÷ 0061 ÷ 003A ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0031\u003A", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0031\u003A", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 003A ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0031\u0027", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0031\u0027", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 003A ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0031\u002C", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0031\u002C", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 003A ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0031\u002E\u2060", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 003A × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0031\u002E\u2060", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0001", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0001", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\r", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\r", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\n", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\n", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u000B", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u000B", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u3031", + new String[] { "\u0061", "\u3031" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u3031", + new String[] { "\u0061", "\u3031" }); + + // ÷ 0061 × 0027 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0041", + new String[] { "\u0061\u0027\u0041" }); + + // ÷ 0061 × 0027 × 0308 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0041", + new String[] { "\u0061\u0027\u0308\u0041" }); + + // ÷ 0061 ÷ 0027 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u003A", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u003A", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u002C", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u002C", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0027", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0027", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0030", + new String[] { "\u0061", "\u0030" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0030", + new String[] { "\u0061", "\u0030" }); + + // ÷ 0061 ÷ 0027 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u005F", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u005F", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u00AD", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u00AD", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0300", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0300", + new String[] { "\u0061" }); + + // ÷ 0061 × 0027 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u2060", + new String[] { "\u0061\u0027\u0061\u2060" }); + + // ÷ 0061 × 0027 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u2060", + new String[] { "\u0061\u0027\u0308\u0061\u2060" }); + + // ÷ 0061 × 0027 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u003A", + new String[] { "\u0061\u0027\u0061" }); + + // ÷ 0061 × 0027 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u003A", + new String[] { "\u0061\u0027\u0308\u0061" }); + + // ÷ 0061 × 0027 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u0027", + new String[] { "\u0061\u0027\u0061" }); + + // ÷ 0061 × 0027 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u0027", + new String[] { "\u0061\u0027\u0308\u0061" }); + + // ÷ 0061 × 0027 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u0027\u2060", + new String[] { "\u0061\u0027\u0061" }); + + // ÷ 0061 × 0027 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u0027\u2060", + new String[] { "\u0061\u0027\u0308\u0061" }); + + // ÷ 0061 × 0027 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u002C", + new String[] { "\u0061\u0027\u0061" }); + + // ÷ 0061 × 0027 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u002C", + new String[] { "\u0061\u0027\u0308\u0061" }); + + // ÷ 0061 ÷ 0027 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0031\u003A", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0031\u003A", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0031\u0027", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0031\u0027", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0031\u002C", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0031\u002C", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0031\u002E\u2060", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0031\u002E\u2060", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0001", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0001", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\r", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\r", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\n", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\n", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u000B", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u000B", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u3031", + new String[] { "\u0061", "\u3031" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u3031", + new String[] { "\u0061", "\u3031" }); + + // ÷ 0061 × 0027 × 2060 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0041", + new String[] { "\u0061\u0027\u2060\u0041" }); + + // ÷ 0061 × 0027 × 2060 × 0308 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0041", + new String[] { "\u0061\u0027\u2060\u0308\u0041" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u003A", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u003A", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u002C", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u002C", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0027", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0027", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0030", + new String[] { "\u0061", "\u0030" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0030", + new String[] { "\u0061", "\u0030" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u005F", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u005F", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u00AD", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u00AD", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0300", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0300", + new String[] { "\u0061" }); + + // ÷ 0061 × 0027 × 2060 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u2060", + new String[] { "\u0061\u0027\u2060\u0061\u2060" }); + + // ÷ 0061 × 0027 × 2060 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u2060", + new String[] { "\u0061\u0027\u2060\u0308\u0061\u2060" }); + + // ÷ 0061 × 0027 × 2060 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u003A", + new String[] { "\u0061\u0027\u2060\u0061" }); + + // ÷ 0061 × 0027 × 2060 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u003A", + new String[] { "\u0061\u0027\u2060\u0308\u0061" }); + + // ÷ 0061 × 0027 × 2060 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u0027", + new String[] { "\u0061\u0027\u2060\u0061" }); + + // ÷ 0061 × 0027 × 2060 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u0027", + new String[] { "\u0061\u0027\u2060\u0308\u0061" }); + + // ÷ 0061 × 0027 × 2060 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u0027\u2060", + new String[] { "\u0061\u0027\u2060\u0061" }); + + // ÷ 0061 × 0027 × 2060 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u0027\u2060", + new String[] { "\u0061\u0027\u2060\u0308\u0061" }); + + // ÷ 0061 × 0027 × 2060 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u002C", + new String[] { "\u0061\u0027\u2060\u0061" }); + + // ÷ 0061 × 0027 × 2060 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u002C", + new String[] { "\u0061\u0027\u2060\u0308\u0061" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0031\u003A", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0031\u003A", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0031\u0027", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0031\u0027", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0031\u002C", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0031\u002C", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 2060 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0031\u002E\u2060", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0031\u002E\u2060", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 002C ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0001", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0001", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\r", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\r", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\n", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\n", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u000B", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u000B", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u3031", + new String[] { "\u0061", "\u3031" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u3031", + new String[] { "\u0061", "\u3031" }); + + // ÷ 0061 ÷ 002C ÷ 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0041", + new String[] { "\u0061", "\u0041" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0041", + new String[] { "\u0061", "\u0041" }); + + // ÷ 0061 ÷ 002C ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u003A", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u003A", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u002C", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u002C", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0027", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0027", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0030", + new String[] { "\u0061", "\u0030" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0030", + new String[] { "\u0061", "\u0030" }); + + // ÷ 0061 ÷ 002C ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u005F", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u005F", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u00AD", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u00AD", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0300", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0300", + new String[] { "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u2060", + new String[] { "\u0061", "\u0061\u2060" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u2060", + new String[] { "\u0061", "\u0061\u2060" }); + + // ÷ 0061 ÷ 002C ÷ 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u003A", + new String[] { "\u0061", "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u003A", + new String[] { "\u0061", "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u0027", + new String[] { "\u0061", "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u0027", + new String[] { "\u0061", "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u0027\u2060", + new String[] { "\u0061", "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u0027\u2060", + new String[] { "\u0061", "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u002C", + new String[] { "\u0061", "\u0061" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u002C", + new String[] { "\u0061", "\u0061" }); + + // ÷ 0061 ÷ 002C ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0031\u003A", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0031\u003A", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 002C ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0031\u0027", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0031\u0027", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 002C ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0031\u002C", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0031\u002C", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 002C ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0031\u002E\u2060", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0061 ÷ 002C × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0031\u002E\u2060", + new String[] { "\u0061", "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0001", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0001", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\r", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\r", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\n", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\n", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u000B", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u000B", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u3031", + new String[] { "\u0031", "\u3031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u3031", + new String[] { "\u0031", "\u3031" }); + + // ÷ 0031 ÷ 003A ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0041", + new String[] { "\u0031", "\u0041" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0041", + new String[] { "\u0031", "\u0041" }); + + // ÷ 0031 ÷ 003A ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u003A", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u003A", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u002C", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u002C", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0027", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0027", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0030", + new String[] { "\u0031", "\u0030" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0030", + new String[] { "\u0031", "\u0030" }); + + // ÷ 0031 ÷ 003A ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u005F", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u005F", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u00AD", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u00AD", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0300", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0300", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u2060", + new String[] { "\u0031", "\u0061\u2060" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u2060", + new String[] { "\u0031", "\u0061\u2060" }); + + // ÷ 0031 ÷ 003A ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u003A", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u003A", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 003A ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u0027", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u0027", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 003A ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u0027\u2060", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u0027\u2060", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 003A ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u002C", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u002C", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 003A ÷ 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0031\u003A", + new String[] { "\u0031", "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0031\u003A", + new String[] { "\u0031", "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0031\u0027", + new String[] { "\u0031", "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0031\u0027", + new String[] { "\u0031", "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0031\u002C", + new String[] { "\u0031", "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0031\u002C", + new String[] { "\u0031", "\u0031" }); + + // ÷ 0031 ÷ 003A ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0031\u002E\u2060", + new String[] { "\u0031", "\u0031" }); + + // ÷ 0031 ÷ 003A × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0031\u002E\u2060", + new String[] { "\u0031", "\u0031" }); + + // ÷ 0031 ÷ 0027 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0001", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0001", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\r", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\r", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\n", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\n", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u000B", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u000B", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u3031", + new String[] { "\u0031", "\u3031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u3031", + new String[] { "\u0031", "\u3031" }); + + // ÷ 0031 ÷ 0027 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0041", + new String[] { "\u0031", "\u0041" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0041", + new String[] { "\u0031", "\u0041" }); + + // ÷ 0031 ÷ 0027 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u003A", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u003A", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u002C", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u002C", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0027", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0027", + new String[] { "\u0031" }); + + // ÷ 0031 × 0027 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0030", + new String[] { "\u0031\u0027\u0030" }); + + // ÷ 0031 × 0027 × 0308 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0030", + new String[] { "\u0031\u0027\u0308\u0030" }); + + // ÷ 0031 ÷ 0027 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u005F", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u005F", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u00AD", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u00AD", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0300", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0300", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 0027 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u2060", + new String[] { "\u0031", "\u0061\u2060" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u2060", + new String[] { "\u0031", "\u0061\u2060" }); + + // ÷ 0031 ÷ 0027 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u003A", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u003A", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 0027 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u0027", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u0027", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 0027 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u0027\u2060", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u0027\u2060", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 0027 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u002C", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u002C", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 × 0027 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0031\u003A", + new String[] { "\u0031\u0027\u0031" }); + + // ÷ 0031 × 0027 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0031\u003A", + new String[] { "\u0031\u0027\u0308\u0031" }); + + // ÷ 0031 × 0027 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0031\u0027", + new String[] { "\u0031\u0027\u0031" }); + + // ÷ 0031 × 0027 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0031\u0027", + new String[] { "\u0031\u0027\u0308\u0031" }); + + // ÷ 0031 × 0027 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0031\u002C", + new String[] { "\u0031\u0027\u0031" }); + + // ÷ 0031 × 0027 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0031\u002C", + new String[] { "\u0031\u0027\u0308\u0031" }); + + // ÷ 0031 × 0027 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0031\u002E\u2060", + new String[] { "\u0031\u0027\u0031" }); + + // ÷ 0031 × 0027 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0031\u002E\u2060", + new String[] { "\u0031\u0027\u0308\u0031" }); + + // ÷ 0031 ÷ 002C ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0001", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0001", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\r", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\r", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\n", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\n", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u000B", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u000B", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u3031", + new String[] { "\u0031", "\u3031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u3031", + new String[] { "\u0031", "\u3031" }); + + // ÷ 0031 ÷ 002C ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0041", + new String[] { "\u0031", "\u0041" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0041", + new String[] { "\u0031", "\u0041" }); + + // ÷ 0031 ÷ 002C ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u003A", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u003A", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u002C", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u002C", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0027", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0027", + new String[] { "\u0031" }); + + // ÷ 0031 × 002C × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0030", + new String[] { "\u0031\u002C\u0030" }); + + // ÷ 0031 × 002C × 0308 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0030", + new String[] { "\u0031\u002C\u0308\u0030" }); + + // ÷ 0031 ÷ 002C ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u005F", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u005F", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u00AD", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u00AD", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0300", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0300", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002C ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u2060", + new String[] { "\u0031", "\u0061\u2060" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u2060", + new String[] { "\u0031", "\u0061\u2060" }); + + // ÷ 0031 ÷ 002C ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u003A", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u003A", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002C ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u0027", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u0027", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002C ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u0027\u2060", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u0027\u2060", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002C ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u002C", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002C × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u002C", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 × 002C × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0031\u003A", + new String[] { "\u0031\u002C\u0031" }); + + // ÷ 0031 × 002C × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0031\u003A", + new String[] { "\u0031\u002C\u0308\u0031" }); + + // ÷ 0031 × 002C × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0031\u0027", + new String[] { "\u0031\u002C\u0031" }); + + // ÷ 0031 × 002C × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0031\u0027", + new String[] { "\u0031\u002C\u0308\u0031" }); + + // ÷ 0031 × 002C × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0031\u002C", + new String[] { "\u0031\u002C\u0031" }); + + // ÷ 0031 × 002C × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0031\u002C", + new String[] { "\u0031\u002C\u0308\u0031" }); + + // ÷ 0031 × 002C × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0031\u002E\u2060", + new String[] { "\u0031\u002C\u0031" }); + + // ÷ 0031 × 002C × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0031\u002E\u2060", + new String[] { "\u0031\u002C\u0308\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0001", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0001", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\r", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\r", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\n", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\n", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u000B", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u000B", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u3031", + new String[] { "\u0031", "\u3031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u3031", + new String[] { "\u0031", "\u3031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0041", + new String[] { "\u0031", "\u0041" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0041", + new String[] { "\u0031", "\u0041" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u003A", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u003A", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u002C", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u002C", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0027", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0027", + new String[] { "\u0031" }); + + // ÷ 0031 × 002E × 2060 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0030", + new String[] { "\u0031\u002E\u2060\u0030" }); + + // ÷ 0031 × 002E × 2060 × 0308 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0030", + new String[] { "\u0031\u002E\u2060\u0308\u0030" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u005F", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u005F", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u00AD", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u00AD", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0300", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0300", + new String[] { "\u0031" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u2060", + new String[] { "\u0031", "\u0061\u2060" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u2060", + new String[] { "\u0031", "\u0061\u2060" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u003A", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u003A", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u0027", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u0027", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u0027\u2060", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u0027\u2060", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002E × 2060 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u002C", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u002C", + new String[] { "\u0031", "\u0061" }); + + // ÷ 0031 × 002E × 2060 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0031\u003A", + new String[] { "\u0031\u002E\u2060\u0031" }); + + // ÷ 0031 × 002E × 2060 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0031\u003A", + new String[] { "\u0031\u002E\u2060\u0308\u0031" }); + + // ÷ 0031 × 002E × 2060 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0031\u0027", + new String[] { "\u0031\u002E\u2060\u0031" }); + + // ÷ 0031 × 002E × 2060 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0031\u0027", + new String[] { "\u0031\u002E\u2060\u0308\u0031" }); + + // ÷ 0031 × 002E × 2060 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0031\u002C", + new String[] { "\u0031\u002E\u2060\u0031" }); + + // ÷ 0031 × 002E × 2060 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0031\u002C", + new String[] { "\u0031\u002E\u2060\u0308\u0031" }); + + // ÷ 0031 × 002E × 2060 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0031\u002E\u2060", + new String[] { "\u0031\u002E\u2060\u0031" }); + + // ÷ 0031 × 002E × 2060 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0031\u002E\u2060", + new String[] { "\u0031\u002E\u2060\u0308\u0031" }); + + // ÷ 0063 × 0061 × 006E × 0027 × 0074 ÷ # ÷ [0.2] LATIN SMALL LETTER C (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER N (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER T (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0063\u0061\u006E\u0027\u0074", + new String[] { "\u0063\u0061\u006E\u0027\u0074" }); + + // ÷ 0063 × 0061 × 006E × 2019 × 0074 ÷ # ÷ [0.2] LATIN SMALL LETTER C (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER N (ALetter) × [6.0] RIGHT SINGLE QUOTATION MARK (MidNumLet) × [7.0] LATIN SMALL LETTER T (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0063\u0061\u006E\u2019\u0074", + new String[] { "\u0063\u0061\u006E\u2019\u0074" }); + + // ÷ 0061 × 0062 × 00AD × 0062 × 0079 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER B (ALetter) × [4.0] SOFT HYPHEN (Format_FE) × [5.0] LATIN SMALL LETTER B (ALetter) × [5.0] LATIN SMALL LETTER Y (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0062\u00AD\u0062\u0079", + new String[] { "\u0061\u0062\u00AD\u0062\u0079" }); + + // ÷ 0061 ÷ 0024 ÷ 002D ÷ 0033 × 0034 × 002C × 0035 × 0036 × 0037 × 002E × 0031 × 0034 ÷ 0025 ÷ 0062 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] DOLLAR SIGN (Other) ÷ [999.0] HYPHEN-MINUS (Other) ÷ [999.0] DIGIT THREE (Numeric) × [8.0] DIGIT FOUR (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT FIVE (Numeric) × [8.0] DIGIT SIX (Numeric) × [8.0] DIGIT SEVEN (Numeric) × [12.0] FULL STOP (MidNumLet) × [11.0] DIGIT ONE (Numeric) × [8.0] DIGIT FOUR (Numeric) ÷ [999.0] PERCENT SIGN (Other) ÷ [999.0] LATIN SMALL LETTER B (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0061\u0024\u002D\u0033\u0034\u002C\u0035\u0036\u0037\u002E\u0031\u0034\u0025\u0062", + new String[] { "\u0061", "\u0033\u0034\u002C\u0035\u0036\u0037\u002E\u0031\u0034", "\u0062" }); + + // ÷ 0033 × 0061 ÷ # ÷ [0.2] DIGIT THREE (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u0033\u0061", + new String[] { "\u0033\u0061" }); + + // ÷ 2060 ÷ 0063 × 2060 × 0061 × 2060 × 006E × 2060 × 0027 × 2060 × 0074 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER C (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER N (ALetter) × [4.0] WORD JOINER (Format_FE) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER T (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u2060\u0063\u2060\u0061\u2060\u006E\u2060\u0027\u2060\u0074\u2060\u2060", + new String[] { "\u0063\u2060\u0061\u2060\u006E\u2060\u0027\u2060\u0074\u2060\u2060" }); + + // ÷ 2060 ÷ 0063 × 2060 × 0061 × 2060 × 006E × 2060 × 2019 × 2060 × 0074 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER C (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER N (ALetter) × [4.0] WORD JOINER (Format_FE) × [6.0] RIGHT SINGLE QUOTATION MARK (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER T (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u2060\u0063\u2060\u0061\u2060\u006E\u2060\u2019\u2060\u0074\u2060\u2060", + new String[] { "\u0063\u2060\u0061\u2060\u006E\u2060\u2019\u2060\u0074\u2060\u2060" }); + + // ÷ 2060 ÷ 0061 × 2060 × 0062 × 2060 × 00AD × 2060 × 0062 × 2060 × 0079 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER B (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER B (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER Y (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u2060\u0061\u2060\u0062\u2060\u00AD\u2060\u0062\u2060\u0079\u2060\u2060", + new String[] { "\u0061\u2060\u0062\u2060\u00AD\u2060\u0062\u2060\u0079\u2060\u2060" }); + + // ÷ 2060 ÷ 0061 × 2060 ÷ 0024 × 2060 ÷ 002D × 2060 ÷ 0033 × 2060 × 0034 × 2060 × 002C × 2060 × 0035 × 2060 × 0036 × 2060 × 0037 × 2060 × 002E × 2060 × 0031 × 2060 × 0034 × 2060 ÷ 0025 × 2060 ÷ 0062 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DOLLAR SIGN (Other) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] HYPHEN-MINUS (Other) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT THREE (Numeric) × [4.0] WORD JOINER (Format_FE) × [8.0] DIGIT FOUR (Numeric) × [4.0] WORD JOINER (Format_FE) × [12.0] COMMA (MidNum) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT FIVE (Numeric) × [4.0] WORD JOINER (Format_FE) × [8.0] DIGIT SIX (Numeric) × [4.0] WORD JOINER (Format_FE) × [8.0] DIGIT SEVEN (Numeric) × [4.0] WORD JOINER (Format_FE) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) × [4.0] WORD JOINER (Format_FE) × [8.0] DIGIT FOUR (Numeric) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] PERCENT SIGN (Other) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER B (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u2060\u0061\u2060\u0024\u2060\u002D\u2060\u0033\u2060\u0034\u2060\u002C\u2060\u0035\u2060\u0036\u2060\u0037\u2060\u002E\u2060\u0031\u2060\u0034\u2060\u0025\u2060\u0062\u2060\u2060", + new String[] { "\u0061\u2060", "\u0033\u2060\u0034\u2060\u002C\u2060\u0035\u2060\u0036\u2060\u0037\u2060\u002E\u2060\u0031\u2060\u0034\u2060", "\u0062\u2060\u2060" }); + + // ÷ 2060 ÷ 0033 × 2060 × 0061 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] DIGIT THREE (Numeric) × [4.0] WORD JOINER (Format_FE) × [10.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] + assertAnalyzesTo(analyzer, "\u2060\u0033\u2060\u0061\u2060\u2060", + new String[] { "\u0033\u2060\u0061\u2060\u2060" }); + + } +} Property changes on: modules\analysis\common\src\test\org\apache\lucene\analysis\core\WordBreakTestUnicode_6_0_0.java ___________________________________________________________________ Added: svn:eol-style + native Index: modules/analysis/common/src/test/org/apache/lucene/analysis/core/WordBreakTestUnicode_5_2_0.java =================================================================== --- modules/analysis/common/src/test/org/apache/lucene/analysis/core/WordBreakTestUnicode_5_2_0.java (revision 1022158) +++ modules/analysis/common/src/test/org/apache/lucene/analysis/core/WordBreakTestUnicode_5_2_0.java (working copy) @@ -1,3960 +0,0 @@ -package org.apache.lucene.analysis.core; - -/** - * Licensed to the Apache Software Foundation (ASF) under one or more - * contributor license agreements. See the NOTICE file distributed with - * this work for additional information regarding copyright ownership. - * The ASF licenses this file to You under the Apache License, Version 2.0 - * (the "License"); you may not use this file except in compliance with - * the License. You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -import org.apache.lucene.analysis.Analyzer; -import org.apache.lucene.analysis.BaseTokenStreamTestCase; -import org.junit.Ignore; - -/** - * This class was automatically generated by generateJavaUnicodeWordBreakTest.pl - * from: http://www.unicode.org/Public/5.2.0/ucd/auxiliary/WordBreakTest.txt - * - * WordBreakTest.txt indicates the points in the provided character sequences - * at which conforming implementations must and must not break words. This - * class tests for expected token extraction from each of the test sequences - * in WordBreakTest.txt, where the expected tokens are those character - * sequences bounded by word breaks and containing at least one character - * from one of the following character sets: - * - * \p{Script = Han} (From http://www.unicode.org/Public/5.2.0/ucd/Scripts.txt) - * \p{Script = Hiragana} - * \p{LineBreak = Complex_Context} (From http://www.unicode.org/Public/5.2.0/ucd/LineBreak.txt) - * \p{WordBreak = ALetter} (From http://www.unicode.org/Public/5.2.0/ucd/auxiliary/WordBreakProperty.txt) - * \p{WordBreak = Katakana} - * \p{WordBreak = Numeric} (Excludes full-width Arabic digits) - * [\uFF10-\uFF19] (Full-width Arabic digits) - */ -@Ignore -public class WordBreakTestUnicode_5_2_0 extends BaseTokenStreamTestCase { - - public void test(Analyzer analyzer) throws Exception { - // ÷ 0001 ÷ 0001 ÷ # ÷ [0.2] (Other) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0001", - new String[] { }); - - // ÷ 0001 × 0308 ÷ 0001 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0001", - new String[] { }); - - // ÷ 0001 ÷ 000D ÷ # ÷ [0.2] (Other) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\r", - new String[] { }); - - // ÷ 0001 × 0308 ÷ 000D ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\r", - new String[] { }); - - // ÷ 0001 ÷ 000A ÷ # ÷ [0.2] (Other) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\n", - new String[] { }); - - // ÷ 0001 × 0308 ÷ 000A ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\n", - new String[] { }); - - // ÷ 0001 ÷ 000B ÷ # ÷ [0.2] (Other) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u000B", - new String[] { }); - - // ÷ 0001 × 0308 ÷ 000B ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u000B", - new String[] { }); - - // ÷ 0001 ÷ 3031 ÷ # ÷ [0.2] (Other) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u3031", - new String[] { "\u3031" }); - - // ÷ 0001 × 0308 ÷ 3031 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 0001 ÷ 0041 ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0041", - new String[] { "\u0041" }); - - // ÷ 0001 × 0308 ÷ 0041 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 0001 ÷ 003A ÷ # ÷ [0.2] (Other) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u003A", - new String[] { }); - - // ÷ 0001 × 0308 ÷ 003A ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u003A", - new String[] { }); - - // ÷ 0001 ÷ 002C ÷ # ÷ [0.2] (Other) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u002C", - new String[] { }); - - // ÷ 0001 × 0308 ÷ 002C ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u002C", - new String[] { }); - - // ÷ 0001 ÷ 0027 ÷ # ÷ [0.2] (Other) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0027", - new String[] { }); - - // ÷ 0001 × 0308 ÷ 0027 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0027", - new String[] { }); - - // ÷ 0001 ÷ 0030 ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0030", - new String[] { "\u0030" }); - - // ÷ 0001 × 0308 ÷ 0030 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 0001 ÷ 005F ÷ # ÷ [0.2] (Other) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u005F", - new String[] { }); - - // ÷ 0001 × 0308 ÷ 005F ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u005F", - new String[] { }); - - // ÷ 0001 × 00AD ÷ # ÷ [0.2] (Other) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u00AD", - new String[] { }); - - // ÷ 0001 × 0308 × 00AD ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u00AD", - new String[] { }); - - // ÷ 0001 × 0300 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0300", - new String[] { }); - - // ÷ 0001 × 0308 × 0300 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0300", - new String[] { }); - - // ÷ 0001 ÷ 0061 × 2060 ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 0001 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 0001 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 0001 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 0001 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 0001 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 0001 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 0001 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 0001 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (Other) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 0001 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 0001 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 0001 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 0001 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 0001 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 0001 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 0001 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 0001 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (Other) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 0001 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (Other) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0001\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 000D ÷ 0001 ÷ # ÷ [0.2] (CR) ÷ [3.1] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0001", - new String[] { }); - - // ÷ 000D ÷ 0308 ÷ 0001 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0001", - new String[] { }); - - // ÷ 000D ÷ 000D ÷ # ÷ [0.2] (CR) ÷ [3.1] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\r", - new String[] { }); - - // ÷ 000D ÷ 0308 ÷ 000D ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\r", - new String[] { }); - - // ÷ 000D × 000A ÷ # ÷ [0.2] (CR) × [3.0] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\n", - new String[] { }); - - // ÷ 000D ÷ 0308 ÷ 000A ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\n", - new String[] { }); - - // ÷ 000D ÷ 000B ÷ # ÷ [0.2] (CR) ÷ [3.1] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u000B", - new String[] { }); - - // ÷ 000D ÷ 0308 ÷ 000B ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u000B", - new String[] { }); - - // ÷ 000D ÷ 3031 ÷ # ÷ [0.2] (CR) ÷ [3.1] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u3031", - new String[] { "\u3031" }); - - // ÷ 000D ÷ 0308 ÷ 3031 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 000D ÷ 0041 ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0041", - new String[] { "\u0041" }); - - // ÷ 000D ÷ 0308 ÷ 0041 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 000D ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u003A", - new String[] { }); - - // ÷ 000D ÷ 0308 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u003A", - new String[] { }); - - // ÷ 000D ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u002C", - new String[] { }); - - // ÷ 000D ÷ 0308 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u002C", - new String[] { }); - - // ÷ 000D ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0027", - new String[] { }); - - // ÷ 000D ÷ 0308 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0027", - new String[] { }); - - // ÷ 000D ÷ 0030 ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0030", - new String[] { "\u0030" }); - - // ÷ 000D ÷ 0308 ÷ 0030 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 000D ÷ 005F ÷ # ÷ [0.2] (CR) ÷ [3.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u005F", - new String[] { }); - - // ÷ 000D ÷ 0308 ÷ 005F ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u005F", - new String[] { }); - - // ÷ 000D ÷ 00AD ÷ # ÷ [0.2] (CR) ÷ [3.1] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u00AD", - new String[] { }); - - // ÷ 000D ÷ 0308 × 00AD ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u00AD", - new String[] { }); - - // ÷ 000D ÷ 0300 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0300", - new String[] { }); - - // ÷ 000D ÷ 0308 × 0300 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0300", - new String[] { }); - - // ÷ 000D ÷ 0061 × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 000D ÷ 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 000D ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 000D ÷ 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 000D ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 000D ÷ 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 000D ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 000D ÷ 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 000D ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 000D ÷ 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 000D ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 000D ÷ 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 000D ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 000D ÷ 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 000D ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 000D ÷ 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 000D ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 000D ÷ 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (CR) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\r\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 000A ÷ 0001 ÷ # ÷ [0.2] (LF) ÷ [3.1] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0001", - new String[] { }); - - // ÷ 000A ÷ 0308 ÷ 0001 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0001", - new String[] { }); - - // ÷ 000A ÷ 000D ÷ # ÷ [0.2] (LF) ÷ [3.1] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\r", - new String[] { }); - - // ÷ 000A ÷ 0308 ÷ 000D ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\r", - new String[] { }); - - // ÷ 000A ÷ 000A ÷ # ÷ [0.2] (LF) ÷ [3.1] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\n", - new String[] { }); - - // ÷ 000A ÷ 0308 ÷ 000A ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\n", - new String[] { }); - - // ÷ 000A ÷ 000B ÷ # ÷ [0.2] (LF) ÷ [3.1] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u000B", - new String[] { }); - - // ÷ 000A ÷ 0308 ÷ 000B ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u000B", - new String[] { }); - - // ÷ 000A ÷ 3031 ÷ # ÷ [0.2] (LF) ÷ [3.1] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u3031", - new String[] { "\u3031" }); - - // ÷ 000A ÷ 0308 ÷ 3031 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 000A ÷ 0041 ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0041", - new String[] { "\u0041" }); - - // ÷ 000A ÷ 0308 ÷ 0041 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 000A ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u003A", - new String[] { }); - - // ÷ 000A ÷ 0308 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u003A", - new String[] { }); - - // ÷ 000A ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u002C", - new String[] { }); - - // ÷ 000A ÷ 0308 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u002C", - new String[] { }); - - // ÷ 000A ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0027", - new String[] { }); - - // ÷ 000A ÷ 0308 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0027", - new String[] { }); - - // ÷ 000A ÷ 0030 ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0030", - new String[] { "\u0030" }); - - // ÷ 000A ÷ 0308 ÷ 0030 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 000A ÷ 005F ÷ # ÷ [0.2] (LF) ÷ [3.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u005F", - new String[] { }); - - // ÷ 000A ÷ 0308 ÷ 005F ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u005F", - new String[] { }); - - // ÷ 000A ÷ 00AD ÷ # ÷ [0.2] (LF) ÷ [3.1] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u00AD", - new String[] { }); - - // ÷ 000A ÷ 0308 × 00AD ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u00AD", - new String[] { }); - - // ÷ 000A ÷ 0300 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0300", - new String[] { }); - - // ÷ 000A ÷ 0308 × 0300 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0300", - new String[] { }); - - // ÷ 000A ÷ 0061 × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 000A ÷ 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 000A ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 000A ÷ 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 000A ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 000A ÷ 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 000A ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 000A ÷ 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 000A ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 000A ÷ 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 000A ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 000A ÷ 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 000A ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 000A ÷ 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 000A ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 000A ÷ 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 000A ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 000A ÷ 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (LF) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\n\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 000B ÷ 0001 ÷ # ÷ [0.2] (Newline) ÷ [3.1] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0001", - new String[] { }); - - // ÷ 000B ÷ 0308 ÷ 0001 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0001", - new String[] { }); - - // ÷ 000B ÷ 000D ÷ # ÷ [0.2] (Newline) ÷ [3.1] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\r", - new String[] { }); - - // ÷ 000B ÷ 0308 ÷ 000D ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\r", - new String[] { }); - - // ÷ 000B ÷ 000A ÷ # ÷ [0.2] (Newline) ÷ [3.1] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\n", - new String[] { }); - - // ÷ 000B ÷ 0308 ÷ 000A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\n", - new String[] { }); - - // ÷ 000B ÷ 000B ÷ # ÷ [0.2] (Newline) ÷ [3.1] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u000B", - new String[] { }); - - // ÷ 000B ÷ 0308 ÷ 000B ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u000B", - new String[] { }); - - // ÷ 000B ÷ 3031 ÷ # ÷ [0.2] (Newline) ÷ [3.1] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u3031", - new String[] { "\u3031" }); - - // ÷ 000B ÷ 0308 ÷ 3031 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 000B ÷ 0041 ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0041", - new String[] { "\u0041" }); - - // ÷ 000B ÷ 0308 ÷ 0041 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 000B ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u003A", - new String[] { }); - - // ÷ 000B ÷ 0308 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u003A", - new String[] { }); - - // ÷ 000B ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u002C", - new String[] { }); - - // ÷ 000B ÷ 0308 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u002C", - new String[] { }); - - // ÷ 000B ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0027", - new String[] { }); - - // ÷ 000B ÷ 0308 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0027", - new String[] { }); - - // ÷ 000B ÷ 0030 ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0030", - new String[] { "\u0030" }); - - // ÷ 000B ÷ 0308 ÷ 0030 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 000B ÷ 005F ÷ # ÷ [0.2] (Newline) ÷ [3.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u005F", - new String[] { }); - - // ÷ 000B ÷ 0308 ÷ 005F ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u005F", - new String[] { }); - - // ÷ 000B ÷ 00AD ÷ # ÷ [0.2] (Newline) ÷ [3.1] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u00AD", - new String[] { }); - - // ÷ 000B ÷ 0308 × 00AD ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u00AD", - new String[] { }); - - // ÷ 000B ÷ 0300 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0300", - new String[] { }); - - // ÷ 000B ÷ 0308 × 0300 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0300", - new String[] { }); - - // ÷ 000B ÷ 0061 × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 000B ÷ 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 000B ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 000B ÷ 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 000B ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 000B ÷ 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 000B ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 000B ÷ 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 000B ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 000B ÷ 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 000B ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 000B ÷ 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 000B ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 000B ÷ 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 000B ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 000B ÷ 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 000B ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 000B ÷ 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] (Newline) ÷ [3.1] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u000B\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 3031 ÷ 0001 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0001", - new String[] { "\u3031" }); - - // ÷ 3031 × 0308 ÷ 0001 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0001", - new String[] { "\u3031\u0308" }); - - // ÷ 3031 ÷ 000D ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\r", - new String[] { "\u3031" }); - - // ÷ 3031 × 0308 ÷ 000D ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\r", - new String[] { "\u3031\u0308" }); - - // ÷ 3031 ÷ 000A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\n", - new String[] { "\u3031" }); - - // ÷ 3031 × 0308 ÷ 000A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\n", - new String[] { "\u3031\u0308" }); - - // ÷ 3031 ÷ 000B ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u000B", - new String[] { "\u3031" }); - - // ÷ 3031 × 0308 ÷ 000B ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u000B", - new String[] { "\u3031\u0308" }); - - // ÷ 3031 × 3031 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [13.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u3031", - new String[] { "\u3031\u3031" }); - - // ÷ 3031 × 0308 × 3031 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u3031", - new String[] { "\u3031\u0308\u3031" }); - - // ÷ 3031 ÷ 0041 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0041", - new String[] { "\u3031", "\u0041" }); - - // ÷ 3031 × 0308 ÷ 0041 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0041", - new String[] { "\u3031\u0308", "\u0041" }); - - // ÷ 3031 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u003A", - new String[] { "\u3031" }); - - // ÷ 3031 × 0308 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u003A", - new String[] { "\u3031\u0308" }); - - // ÷ 3031 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u002C", - new String[] { "\u3031" }); - - // ÷ 3031 × 0308 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u002C", - new String[] { "\u3031\u0308" }); - - // ÷ 3031 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0027", - new String[] { "\u3031" }); - - // ÷ 3031 × 0308 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0027", - new String[] { "\u3031\u0308" }); - - // ÷ 3031 ÷ 0030 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0030", - new String[] { "\u3031", "\u0030" }); - - // ÷ 3031 × 0308 ÷ 0030 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0030", - new String[] { "\u3031\u0308", "\u0030" }); - - // ÷ 3031 × 005F ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u005F", - new String[] { "\u3031\u005F" }); - - // ÷ 3031 × 0308 × 005F ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u005F", - new String[] { "\u3031\u0308\u005F" }); - - // ÷ 3031 × 00AD ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u00AD", - new String[] { "\u3031\u00AD" }); - - // ÷ 3031 × 0308 × 00AD ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u00AD", - new String[] { "\u3031\u0308\u00AD" }); - - // ÷ 3031 × 0300 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0300", - new String[] { "\u3031\u0300" }); - - // ÷ 3031 × 0308 × 0300 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0300", - new String[] { "\u3031\u0308\u0300" }); - - // ÷ 3031 ÷ 0061 × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0061\u2060", - new String[] { "\u3031", "\u0061\u2060" }); - - // ÷ 3031 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u2060", - new String[] { "\u3031\u0308", "\u0061\u2060" }); - - // ÷ 3031 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0061\u003A", - new String[] { "\u3031", "\u0061" }); - - // ÷ 3031 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u003A", - new String[] { "\u3031\u0308", "\u0061" }); - - // ÷ 3031 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0061\u0027", - new String[] { "\u3031", "\u0061" }); - - // ÷ 3031 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u0027", - new String[] { "\u3031\u0308", "\u0061" }); - - // ÷ 3031 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0061\u0027\u2060", - new String[] { "\u3031", "\u0061" }); - - // ÷ 3031 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u0027\u2060", - new String[] { "\u3031\u0308", "\u0061" }); - - // ÷ 3031 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0061\u002C", - new String[] { "\u3031", "\u0061" }); - - // ÷ 3031 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0061\u002C", - new String[] { "\u3031\u0308", "\u0061" }); - - // ÷ 3031 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0031\u003A", - new String[] { "\u3031", "\u0031" }); - - // ÷ 3031 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0031\u003A", - new String[] { "\u3031\u0308", "\u0031" }); - - // ÷ 3031 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0031\u0027", - new String[] { "\u3031", "\u0031" }); - - // ÷ 3031 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0031\u0027", - new String[] { "\u3031\u0308", "\u0031" }); - - // ÷ 3031 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0031\u002C", - new String[] { "\u3031", "\u0031" }); - - // ÷ 3031 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0031\u002C", - new String[] { "\u3031\u0308", "\u0031" }); - - // ÷ 3031 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0031\u002E\u2060", - new String[] { "\u3031", "\u0031" }); - - // ÷ 3031 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] VERTICAL KANA REPEAT MARK (Katakana) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u3031\u0308\u0031\u002E\u2060", - new String[] { "\u3031\u0308", "\u0031" }); - - // ÷ 0041 ÷ 0001 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0001", - new String[] { "\u0041" }); - - // ÷ 0041 × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0001", - new String[] { "\u0041\u0308" }); - - // ÷ 0041 ÷ 000D ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\r", - new String[] { "\u0041" }); - - // ÷ 0041 × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\r", - new String[] { "\u0041\u0308" }); - - // ÷ 0041 ÷ 000A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\n", - new String[] { "\u0041" }); - - // ÷ 0041 × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\n", - new String[] { "\u0041\u0308" }); - - // ÷ 0041 ÷ 000B ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u000B", - new String[] { "\u0041" }); - - // ÷ 0041 × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u000B", - new String[] { "\u0041\u0308" }); - - // ÷ 0041 ÷ 3031 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u3031", - new String[] { "\u0041", "\u3031" }); - - // ÷ 0041 × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u3031", - new String[] { "\u0041\u0308", "\u3031" }); - - // ÷ 0041 × 0041 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0041", - new String[] { "\u0041\u0041" }); - - // ÷ 0041 × 0308 × 0041 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0041", - new String[] { "\u0041\u0308\u0041" }); - - // ÷ 0041 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u003A", - new String[] { "\u0041" }); - - // ÷ 0041 × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u003A", - new String[] { "\u0041\u0308" }); - - // ÷ 0041 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u002C", - new String[] { "\u0041" }); - - // ÷ 0041 × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u002C", - new String[] { "\u0041\u0308" }); - - // ÷ 0041 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0027", - new String[] { "\u0041" }); - - // ÷ 0041 × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0027", - new String[] { "\u0041\u0308" }); - - // ÷ 0041 × 0030 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0030", - new String[] { "\u0041\u0030" }); - - // ÷ 0041 × 0308 × 0030 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0030", - new String[] { "\u0041\u0308\u0030" }); - - // ÷ 0041 × 005F ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u005F", - new String[] { "\u0041\u005F" }); - - // ÷ 0041 × 0308 × 005F ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u005F", - new String[] { "\u0041\u0308\u005F" }); - - // ÷ 0041 × 00AD ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u00AD", - new String[] { "\u0041\u00AD" }); - - // ÷ 0041 × 0308 × 00AD ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u00AD", - new String[] { "\u0041\u0308\u00AD" }); - - // ÷ 0041 × 0300 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0300", - new String[] { "\u0041\u0300" }); - - // ÷ 0041 × 0308 × 0300 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0300", - new String[] { "\u0041\u0308\u0300" }); - - // ÷ 0041 × 0061 × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0061\u2060", - new String[] { "\u0041\u0061\u2060" }); - - // ÷ 0041 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u2060", - new String[] { "\u0041\u0308\u0061\u2060" }); - - // ÷ 0041 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0061\u003A", - new String[] { "\u0041\u0061" }); - - // ÷ 0041 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u003A", - new String[] { "\u0041\u0308\u0061" }); - - // ÷ 0041 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0061\u0027", - new String[] { "\u0041\u0061" }); - - // ÷ 0041 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u0027", - new String[] { "\u0041\u0308\u0061" }); - - // ÷ 0041 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0061\u0027\u2060", - new String[] { "\u0041\u0061" }); - - // ÷ 0041 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u0027\u2060", - new String[] { "\u0041\u0308\u0061" }); - - // ÷ 0041 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0061\u002C", - new String[] { "\u0041\u0061" }); - - // ÷ 0041 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0061\u002C", - new String[] { "\u0041\u0308\u0061" }); - - // ÷ 0041 × 0031 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0031\u003A", - new String[] { "\u0041\u0031" }); - - // ÷ 0041 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0031\u003A", - new String[] { "\u0041\u0308\u0031" }); - - // ÷ 0041 × 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0031\u0027", - new String[] { "\u0041\u0031" }); - - // ÷ 0041 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0031\u0027", - new String[] { "\u0041\u0308\u0031" }); - - // ÷ 0041 × 0031 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0031\u002C", - new String[] { "\u0041\u0031" }); - - // ÷ 0041 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0031\u002C", - new String[] { "\u0041\u0308\u0031" }); - - // ÷ 0041 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0031\u002E\u2060", - new String[] { "\u0041\u0031" }); - - // ÷ 0041 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN CAPITAL LETTER A (ALetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0041\u0308\u0031\u002E\u2060", - new String[] { "\u0041\u0308\u0031" }); - - // ÷ 003A ÷ 0001 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0001", - new String[] { }); - - // ÷ 003A × 0308 ÷ 0001 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0001", - new String[] { }); - - // ÷ 003A ÷ 000D ÷ # ÷ [0.2] COLON (MidLetter) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\r", - new String[] { }); - - // ÷ 003A × 0308 ÷ 000D ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\r", - new String[] { }); - - // ÷ 003A ÷ 000A ÷ # ÷ [0.2] COLON (MidLetter) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\n", - new String[] { }); - - // ÷ 003A × 0308 ÷ 000A ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\n", - new String[] { }); - - // ÷ 003A ÷ 000B ÷ # ÷ [0.2] COLON (MidLetter) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u000B", - new String[] { }); - - // ÷ 003A × 0308 ÷ 000B ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u000B", - new String[] { }); - - // ÷ 003A ÷ 3031 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u3031", - new String[] { "\u3031" }); - - // ÷ 003A × 0308 ÷ 3031 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 003A ÷ 0041 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0041", - new String[] { "\u0041" }); - - // ÷ 003A × 0308 ÷ 0041 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 003A ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u003A", - new String[] { }); - - // ÷ 003A × 0308 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u003A", - new String[] { }); - - // ÷ 003A ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u002C", - new String[] { }); - - // ÷ 003A × 0308 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u002C", - new String[] { }); - - // ÷ 003A ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0027", - new String[] { }); - - // ÷ 003A × 0308 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0027", - new String[] { }); - - // ÷ 003A ÷ 0030 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0030", - new String[] { "\u0030" }); - - // ÷ 003A × 0308 ÷ 0030 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 003A ÷ 005F ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u005F", - new String[] { }); - - // ÷ 003A × 0308 ÷ 005F ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u005F", - new String[] { }); - - // ÷ 003A × 00AD ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u00AD", - new String[] { }); - - // ÷ 003A × 0308 × 00AD ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u00AD", - new String[] { }); - - // ÷ 003A × 0300 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0300", - new String[] { }); - - // ÷ 003A × 0308 × 0300 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0300", - new String[] { }); - - // ÷ 003A ÷ 0061 × 2060 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 003A × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 003A ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 003A × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 003A ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 003A × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 003A ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 003A × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 003A ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 003A × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 003A ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 003A × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 003A ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 003A × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 003A ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 003A × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 003A ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 003A × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u003A\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 002C ÷ 0001 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0001", - new String[] { }); - - // ÷ 002C × 0308 ÷ 0001 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0001", - new String[] { }); - - // ÷ 002C ÷ 000D ÷ # ÷ [0.2] COMMA (MidNum) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\r", - new String[] { }); - - // ÷ 002C × 0308 ÷ 000D ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\r", - new String[] { }); - - // ÷ 002C ÷ 000A ÷ # ÷ [0.2] COMMA (MidNum) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\n", - new String[] { }); - - // ÷ 002C × 0308 ÷ 000A ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\n", - new String[] { }); - - // ÷ 002C ÷ 000B ÷ # ÷ [0.2] COMMA (MidNum) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u000B", - new String[] { }); - - // ÷ 002C × 0308 ÷ 000B ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u000B", - new String[] { }); - - // ÷ 002C ÷ 3031 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u3031", - new String[] { "\u3031" }); - - // ÷ 002C × 0308 ÷ 3031 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 002C ÷ 0041 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0041", - new String[] { "\u0041" }); - - // ÷ 002C × 0308 ÷ 0041 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 002C ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u003A", - new String[] { }); - - // ÷ 002C × 0308 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u003A", - new String[] { }); - - // ÷ 002C ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u002C", - new String[] { }); - - // ÷ 002C × 0308 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u002C", - new String[] { }); - - // ÷ 002C ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0027", - new String[] { }); - - // ÷ 002C × 0308 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0027", - new String[] { }); - - // ÷ 002C ÷ 0030 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0030", - new String[] { "\u0030" }); - - // ÷ 002C × 0308 ÷ 0030 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 002C ÷ 005F ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u005F", - new String[] { }); - - // ÷ 002C × 0308 ÷ 005F ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u005F", - new String[] { }); - - // ÷ 002C × 00AD ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u00AD", - new String[] { }); - - // ÷ 002C × 0308 × 00AD ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u00AD", - new String[] { }); - - // ÷ 002C × 0300 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0300", - new String[] { }); - - // ÷ 002C × 0308 × 0300 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0300", - new String[] { }); - - // ÷ 002C ÷ 0061 × 2060 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 002C × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 002C ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 002C × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 002C ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 002C × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 002C ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 002C × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 002C ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 002C × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 002C ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 002C × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 002C ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 002C × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 002C ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 002C × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 002C ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 002C × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u002C\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 0027 ÷ 0001 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0001", - new String[] { }); - - // ÷ 0027 × 0308 ÷ 0001 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0001", - new String[] { }); - - // ÷ 0027 ÷ 000D ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\r", - new String[] { }); - - // ÷ 0027 × 0308 ÷ 000D ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\r", - new String[] { }); - - // ÷ 0027 ÷ 000A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\n", - new String[] { }); - - // ÷ 0027 × 0308 ÷ 000A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\n", - new String[] { }); - - // ÷ 0027 ÷ 000B ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u000B", - new String[] { }); - - // ÷ 0027 × 0308 ÷ 000B ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u000B", - new String[] { }); - - // ÷ 0027 ÷ 3031 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u3031", - new String[] { "\u3031" }); - - // ÷ 0027 × 0308 ÷ 3031 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 0027 ÷ 0041 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0041", - new String[] { "\u0041" }); - - // ÷ 0027 × 0308 ÷ 0041 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 0027 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u003A", - new String[] { }); - - // ÷ 0027 × 0308 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u003A", - new String[] { }); - - // ÷ 0027 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u002C", - new String[] { }); - - // ÷ 0027 × 0308 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u002C", - new String[] { }); - - // ÷ 0027 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0027", - new String[] { }); - - // ÷ 0027 × 0308 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0027", - new String[] { }); - - // ÷ 0027 ÷ 0030 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0030", - new String[] { "\u0030" }); - - // ÷ 0027 × 0308 ÷ 0030 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 0027 ÷ 005F ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u005F", - new String[] { }); - - // ÷ 0027 × 0308 ÷ 005F ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u005F", - new String[] { }); - - // ÷ 0027 × 00AD ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u00AD", - new String[] { }); - - // ÷ 0027 × 0308 × 00AD ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u00AD", - new String[] { }); - - // ÷ 0027 × 0300 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0300", - new String[] { }); - - // ÷ 0027 × 0308 × 0300 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0300", - new String[] { }); - - // ÷ 0027 ÷ 0061 × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 0027 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 0027 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 0027 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 0027 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 0027 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 0027 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 0027 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 0027 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 0027 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 0027 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 0027 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 0027 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 0027 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 0027 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 0027 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 0027 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 0027 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0027\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 0030 ÷ 0001 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0001", - new String[] { "\u0030" }); - - // ÷ 0030 × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0001", - new String[] { "\u0030\u0308" }); - - // ÷ 0030 ÷ 000D ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\r", - new String[] { "\u0030" }); - - // ÷ 0030 × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\r", - new String[] { "\u0030\u0308" }); - - // ÷ 0030 ÷ 000A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\n", - new String[] { "\u0030" }); - - // ÷ 0030 × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\n", - new String[] { "\u0030\u0308" }); - - // ÷ 0030 ÷ 000B ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u000B", - new String[] { "\u0030" }); - - // ÷ 0030 × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u000B", - new String[] { "\u0030\u0308" }); - - // ÷ 0030 ÷ 3031 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u3031", - new String[] { "\u0030", "\u3031" }); - - // ÷ 0030 × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u3031", - new String[] { "\u0030\u0308", "\u3031" }); - - // ÷ 0030 × 0041 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0041", - new String[] { "\u0030\u0041" }); - - // ÷ 0030 × 0308 × 0041 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0041", - new String[] { "\u0030\u0308\u0041" }); - - // ÷ 0030 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u003A", - new String[] { "\u0030" }); - - // ÷ 0030 × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u003A", - new String[] { "\u0030\u0308" }); - - // ÷ 0030 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u002C", - new String[] { "\u0030" }); - - // ÷ 0030 × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u002C", - new String[] { "\u0030\u0308" }); - - // ÷ 0030 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0027", - new String[] { "\u0030" }); - - // ÷ 0030 × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0027", - new String[] { "\u0030\u0308" }); - - // ÷ 0030 × 0030 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0030", - new String[] { "\u0030\u0030" }); - - // ÷ 0030 × 0308 × 0030 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0030", - new String[] { "\u0030\u0308\u0030" }); - - // ÷ 0030 × 005F ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u005F", - new String[] { "\u0030\u005F" }); - - // ÷ 0030 × 0308 × 005F ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u005F", - new String[] { "\u0030\u0308\u005F" }); - - // ÷ 0030 × 00AD ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u00AD", - new String[] { "\u0030\u00AD" }); - - // ÷ 0030 × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u00AD", - new String[] { "\u0030\u0308\u00AD" }); - - // ÷ 0030 × 0300 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0300", - new String[] { "\u0030\u0300" }); - - // ÷ 0030 × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0300", - new String[] { "\u0030\u0308\u0300" }); - - // ÷ 0030 × 0061 × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0061\u2060", - new String[] { "\u0030\u0061\u2060" }); - - // ÷ 0030 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u2060", - new String[] { "\u0030\u0308\u0061\u2060" }); - - // ÷ 0030 × 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0061\u003A", - new String[] { "\u0030\u0061" }); - - // ÷ 0030 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u003A", - new String[] { "\u0030\u0308\u0061" }); - - // ÷ 0030 × 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0061\u0027", - new String[] { "\u0030\u0061" }); - - // ÷ 0030 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u0027", - new String[] { "\u0030\u0308\u0061" }); - - // ÷ 0030 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0061\u0027\u2060", - new String[] { "\u0030\u0061" }); - - // ÷ 0030 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u0027\u2060", - new String[] { "\u0030\u0308\u0061" }); - - // ÷ 0030 × 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0061\u002C", - new String[] { "\u0030\u0061" }); - - // ÷ 0030 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0061\u002C", - new String[] { "\u0030\u0308\u0061" }); - - // ÷ 0030 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0031\u003A", - new String[] { "\u0030\u0031" }); - - // ÷ 0030 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0031\u003A", - new String[] { "\u0030\u0308\u0031" }); - - // ÷ 0030 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0031\u0027", - new String[] { "\u0030\u0031" }); - - // ÷ 0030 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0031\u0027", - new String[] { "\u0030\u0308\u0031" }); - - // ÷ 0030 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0031\u002C", - new String[] { "\u0030\u0031" }); - - // ÷ 0030 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0031\u002C", - new String[] { "\u0030\u0308\u0031" }); - - // ÷ 0030 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0031\u002E\u2060", - new String[] { "\u0030\u0031" }); - - // ÷ 0030 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ZERO (Numeric) × [4.0] COMBINING DIAERESIS (Extend_FE) × [8.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0030\u0308\u0031\u002E\u2060", - new String[] { "\u0030\u0308\u0031" }); - - // ÷ 005F ÷ 0001 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0001", - new String[] { }); - - // ÷ 005F × 0308 ÷ 0001 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0001", - new String[] { }); - - // ÷ 005F ÷ 000D ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\r", - new String[] { }); - - // ÷ 005F × 0308 ÷ 000D ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\r", - new String[] { }); - - // ÷ 005F ÷ 000A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\n", - new String[] { }); - - // ÷ 005F × 0308 ÷ 000A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\n", - new String[] { }); - - // ÷ 005F ÷ 000B ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u000B", - new String[] { }); - - // ÷ 005F × 0308 ÷ 000B ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u000B", - new String[] { }); - - // ÷ 005F × 3031 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u3031", - new String[] { "\u005F\u3031" }); - - // ÷ 005F × 0308 × 3031 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u3031", - new String[] { "\u005F\u0308\u3031" }); - - // ÷ 005F × 0041 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0041", - new String[] { "\u005F\u0041" }); - - // ÷ 005F × 0308 × 0041 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0041", - new String[] { "\u005F\u0308\u0041" }); - - // ÷ 005F ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u003A", - new String[] { }); - - // ÷ 005F × 0308 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u003A", - new String[] { }); - - // ÷ 005F ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u002C", - new String[] { }); - - // ÷ 005F × 0308 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u002C", - new String[] { }); - - // ÷ 005F ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0027", - new String[] { }); - - // ÷ 005F × 0308 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0027", - new String[] { }); - - // ÷ 005F × 0030 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0030", - new String[] { "\u005F\u0030" }); - - // ÷ 005F × 0308 × 0030 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0030", - new String[] { "\u005F\u0308\u0030" }); - - // ÷ 005F × 005F ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u005F", - new String[] { }); - - // ÷ 005F × 0308 × 005F ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u005F", - new String[] { }); - - // ÷ 005F × 00AD ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u00AD", - new String[] { }); - - // ÷ 005F × 0308 × 00AD ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u00AD", - new String[] { }); - - // ÷ 005F × 0300 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0300", - new String[] { }); - - // ÷ 005F × 0308 × 0300 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0300", - new String[] { }); - - // ÷ 005F × 0061 × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0061\u2060", - new String[] { "\u005F\u0061\u2060" }); - - // ÷ 005F × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u2060", - new String[] { "\u005F\u0308\u0061\u2060" }); - - // ÷ 005F × 0061 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0061\u003A", - new String[] { "\u005F\u0061" }); - - // ÷ 005F × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u003A", - new String[] { "\u005F\u0308\u0061" }); - - // ÷ 005F × 0061 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0061\u0027", - new String[] { "\u005F\u0061" }); - - // ÷ 005F × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u0027", - new String[] { "\u005F\u0308\u0061" }); - - // ÷ 005F × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0061\u0027\u2060", - new String[] { "\u005F\u0061" }); - - // ÷ 005F × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u0027\u2060", - new String[] { "\u005F\u0308\u0061" }); - - // ÷ 005F × 0061 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0061\u002C", - new String[] { "\u005F\u0061" }); - - // ÷ 005F × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0061\u002C", - new String[] { "\u005F\u0308\u0061" }); - - // ÷ 005F × 0031 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0031\u003A", - new String[] { "\u005F\u0031" }); - - // ÷ 005F × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0031\u003A", - new String[] { "\u005F\u0308\u0031" }); - - // ÷ 005F × 0031 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0031\u0027", - new String[] { "\u005F\u0031" }); - - // ÷ 005F × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0031\u0027", - new String[] { "\u005F\u0308\u0031" }); - - // ÷ 005F × 0031 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0031\u002C", - new String[] { "\u005F\u0031" }); - - // ÷ 005F × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0031\u002C", - new String[] { "\u005F\u0308\u0031" }); - - // ÷ 005F × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0031\u002E\u2060", - new String[] { "\u005F\u0031" }); - - // ÷ 005F × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LOW LINE (ExtendNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u005F\u0308\u0031\u002E\u2060", - new String[] { "\u005F\u0308\u0031" }); - - // ÷ 00AD ÷ 0001 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0001", - new String[] { }); - - // ÷ 00AD × 0308 ÷ 0001 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0001", - new String[] { }); - - // ÷ 00AD ÷ 000D ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\r", - new String[] { }); - - // ÷ 00AD × 0308 ÷ 000D ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\r", - new String[] { }); - - // ÷ 00AD ÷ 000A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\n", - new String[] { }); - - // ÷ 00AD × 0308 ÷ 000A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\n", - new String[] { }); - - // ÷ 00AD ÷ 000B ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u000B", - new String[] { }); - - // ÷ 00AD × 0308 ÷ 000B ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u000B", - new String[] { }); - - // ÷ 00AD ÷ 3031 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u3031", - new String[] { "\u3031" }); - - // ÷ 00AD × 0308 ÷ 3031 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 00AD ÷ 0041 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0041", - new String[] { "\u0041" }); - - // ÷ 00AD × 0308 ÷ 0041 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 00AD ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u003A", - new String[] { }); - - // ÷ 00AD × 0308 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u003A", - new String[] { }); - - // ÷ 00AD ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u002C", - new String[] { }); - - // ÷ 00AD × 0308 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u002C", - new String[] { }); - - // ÷ 00AD ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0027", - new String[] { }); - - // ÷ 00AD × 0308 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0027", - new String[] { }); - - // ÷ 00AD ÷ 0030 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0030", - new String[] { "\u0030" }); - - // ÷ 00AD × 0308 ÷ 0030 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 00AD ÷ 005F ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u005F", - new String[] { }); - - // ÷ 00AD × 0308 ÷ 005F ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u005F", - new String[] { }); - - // ÷ 00AD × 00AD ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u00AD", - new String[] { }); - - // ÷ 00AD × 0308 × 00AD ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u00AD", - new String[] { }); - - // ÷ 00AD × 0300 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0300", - new String[] { }); - - // ÷ 00AD × 0308 × 0300 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0300", - new String[] { }); - - // ÷ 00AD ÷ 0061 × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 00AD × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 00AD ÷ 0061 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 00AD × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 00AD ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 00AD × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 00AD ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 00AD × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 00AD ÷ 0061 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 00AD × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 00AD ÷ 0031 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 00AD × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 00AD ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 00AD × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 00AD ÷ 0031 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 00AD × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 00AD ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 00AD × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] SOFT HYPHEN (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u00AD\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 0300 ÷ 0001 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0001", - new String[] { }); - - // ÷ 0300 × 0308 ÷ 0001 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0001", - new String[] { }); - - // ÷ 0300 ÷ 000D ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\r", - new String[] { }); - - // ÷ 0300 × 0308 ÷ 000D ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\r", - new String[] { }); - - // ÷ 0300 ÷ 000A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\n", - new String[] { }); - - // ÷ 0300 × 0308 ÷ 000A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\n", - new String[] { }); - - // ÷ 0300 ÷ 000B ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u000B", - new String[] { }); - - // ÷ 0300 × 0308 ÷ 000B ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u000B", - new String[] { }); - - // ÷ 0300 ÷ 3031 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u3031", - new String[] { "\u3031" }); - - // ÷ 0300 × 0308 ÷ 3031 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u3031", - new String[] { "\u3031" }); - - // ÷ 0300 ÷ 0041 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0041", - new String[] { "\u0041" }); - - // ÷ 0300 × 0308 ÷ 0041 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0041", - new String[] { "\u0041" }); - - // ÷ 0300 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u003A", - new String[] { }); - - // ÷ 0300 × 0308 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u003A", - new String[] { }); - - // ÷ 0300 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u002C", - new String[] { }); - - // ÷ 0300 × 0308 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u002C", - new String[] { }); - - // ÷ 0300 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0027", - new String[] { }); - - // ÷ 0300 × 0308 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0027", - new String[] { }); - - // ÷ 0300 ÷ 0030 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0030", - new String[] { "\u0030" }); - - // ÷ 0300 × 0308 ÷ 0030 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0030", - new String[] { "\u0030" }); - - // ÷ 0300 ÷ 005F ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u005F", - new String[] { }); - - // ÷ 0300 × 0308 ÷ 005F ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u005F", - new String[] { }); - - // ÷ 0300 × 00AD ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u00AD", - new String[] { }); - - // ÷ 0300 × 0308 × 00AD ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u00AD", - new String[] { }); - - // ÷ 0300 × 0300 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0300", - new String[] { }); - - // ÷ 0300 × 0308 × 0300 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0300", - new String[] { }); - - // ÷ 0300 ÷ 0061 × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 0300 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u2060", - new String[] { "\u0061\u2060" }); - - // ÷ 0300 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 0300 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u003A", - new String[] { "\u0061" }); - - // ÷ 0300 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 0300 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u0027", - new String[] { "\u0061" }); - - // ÷ 0300 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 0300 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u0027\u2060", - new String[] { "\u0061" }); - - // ÷ 0300 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 0300 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0061\u002C", - new String[] { "\u0061" }); - - // ÷ 0300 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 0300 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0031\u003A", - new String[] { "\u0031" }); - - // ÷ 0300 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 0300 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0031\u0027", - new String[] { "\u0031" }); - - // ÷ 0300 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 0300 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0031\u002C", - new String[] { "\u0031" }); - - // ÷ 0300 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 0300 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (Extend_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0300\u0308\u0031\u002E\u2060", - new String[] { "\u0031" }); - - // ÷ 0061 × 2060 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0001", - new String[] { "\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0001", - new String[] { "\u0061\u2060\u0308" }); - - // ÷ 0061 × 2060 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\r", - new String[] { "\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\r", - new String[] { "\u0061\u2060\u0308" }); - - // ÷ 0061 × 2060 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\n", - new String[] { "\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\n", - new String[] { "\u0061\u2060\u0308" }); - - // ÷ 0061 × 2060 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u000B", - new String[] { "\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u000B", - new String[] { "\u0061\u2060\u0308" }); - - // ÷ 0061 × 2060 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u3031", - new String[] { "\u0061\u2060", "\u3031" }); - - // ÷ 0061 × 2060 × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u3031", - new String[] { "\u0061\u2060\u0308", "\u3031" }); - - // ÷ 0061 × 2060 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0041", - new String[] { "\u0061\u2060\u0041" }); - - // ÷ 0061 × 2060 × 0308 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0041", - new String[] { "\u0061\u2060\u0308\u0041" }); - - // ÷ 0061 × 2060 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u003A", - new String[] { "\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u003A", - new String[] { "\u0061\u2060\u0308" }); - - // ÷ 0061 × 2060 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u002C", - new String[] { "\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u002C", - new String[] { "\u0061\u2060\u0308" }); - - // ÷ 0061 × 2060 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0027", - new String[] { "\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0027", - new String[] { "\u0061\u2060\u0308" }); - - // ÷ 0061 × 2060 × 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0030", - new String[] { "\u0061\u2060\u0030" }); - - // ÷ 0061 × 2060 × 0308 × 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0030", - new String[] { "\u0061\u2060\u0308\u0030" }); - - // ÷ 0061 × 2060 × 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u005F", - new String[] { "\u0061\u2060\u005F" }); - - // ÷ 0061 × 2060 × 0308 × 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [13.1] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u005F", - new String[] { "\u0061\u2060\u0308\u005F" }); - - // ÷ 0061 × 2060 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u00AD", - new String[] { "\u0061\u2060\u00AD" }); - - // ÷ 0061 × 2060 × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u00AD", - new String[] { "\u0061\u2060\u0308\u00AD" }); - - // ÷ 0061 × 2060 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0300", - new String[] { "\u0061\u2060\u0300" }); - - // ÷ 0061 × 2060 × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0300", - new String[] { "\u0061\u2060\u0308\u0300" }); - - // ÷ 0061 × 2060 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u2060", - new String[] { "\u0061\u2060\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u2060", - new String[] { "\u0061\u2060\u0308\u0061\u2060" }); - - // ÷ 0061 × 2060 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u003A", - new String[] { "\u0061\u2060\u0061" }); - - // ÷ 0061 × 2060 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u003A", - new String[] { "\u0061\u2060\u0308\u0061" }); - - // ÷ 0061 × 2060 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u0027", - new String[] { "\u0061\u2060\u0061" }); - - // ÷ 0061 × 2060 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u0027", - new String[] { "\u0061\u2060\u0308\u0061" }); - - // ÷ 0061 × 2060 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u0027\u2060", - new String[] { "\u0061\u2060\u0061" }); - - // ÷ 0061 × 2060 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u0027\u2060", - new String[] { "\u0061\u2060\u0308\u0061" }); - - // ÷ 0061 × 2060 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0061\u002C", - new String[] { "\u0061\u2060\u0061" }); - - // ÷ 0061 × 2060 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [5.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0061\u002C", - new String[] { "\u0061\u2060\u0308\u0061" }); - - // ÷ 0061 × 2060 × 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0031\u003A", - new String[] { "\u0061\u2060\u0031" }); - - // ÷ 0061 × 2060 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0031\u003A", - new String[] { "\u0061\u2060\u0308\u0031" }); - - // ÷ 0061 × 2060 × 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0031\u0027", - new String[] { "\u0061\u2060\u0031" }); - - // ÷ 0061 × 2060 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0031\u0027", - new String[] { "\u0061\u2060\u0308\u0031" }); - - // ÷ 0061 × 2060 × 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0031\u002C", - new String[] { "\u0061\u2060\u0031" }); - - // ÷ 0061 × 2060 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0031\u002C", - new String[] { "\u0061\u2060\u0308\u0031" }); - - // ÷ 0061 × 2060 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0031\u002E\u2060", - new String[] { "\u0061\u2060\u0031" }); - - // ÷ 0061 × 2060 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [9.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u2060\u0308\u0031\u002E\u2060", - new String[] { "\u0061\u2060\u0308\u0031" }); - - // ÷ 0061 ÷ 003A ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0001", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0001", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\r", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\r", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\n", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\n", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u000B", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u000B", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u3031", - new String[] { "\u0061", "\u3031" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u3031", - new String[] { "\u0061", "\u3031" }); - - // ÷ 0061 × 003A × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0041", - new String[] { "\u0061\u003A\u0041" }); - - // ÷ 0061 × 003A × 0308 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0041", - new String[] { "\u0061\u003A\u0308\u0041" }); - - // ÷ 0061 ÷ 003A ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u003A", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u003A", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u002C", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u002C", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0027", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0027", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0030", - new String[] { "\u0061", "\u0030" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0030", - new String[] { "\u0061", "\u0030" }); - - // ÷ 0061 ÷ 003A ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u005F", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u005F", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u00AD", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u00AD", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0300", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 003A × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0300", - new String[] { "\u0061" }); - - // ÷ 0061 × 003A × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u2060", - new String[] { "\u0061\u003A\u0061\u2060" }); - - // ÷ 0061 × 003A × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u2060", - new String[] { "\u0061\u003A\u0308\u0061\u2060" }); - - // ÷ 0061 × 003A × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u003A", - new String[] { "\u0061\u003A\u0061" }); - - // ÷ 0061 × 003A × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u003A", - new String[] { "\u0061\u003A\u0308\u0061" }); - - // ÷ 0061 × 003A × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u0027", - new String[] { "\u0061\u003A\u0061" }); - - // ÷ 0061 × 003A × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u0027", - new String[] { "\u0061\u003A\u0308\u0061" }); - - // ÷ 0061 × 003A × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u0027\u2060", - new String[] { "\u0061\u003A\u0061" }); - - // ÷ 0061 × 003A × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u0027\u2060", - new String[] { "\u0061\u003A\u0308\u0061" }); - - // ÷ 0061 × 003A × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0061\u002C", - new String[] { "\u0061\u003A\u0061" }); - - // ÷ 0061 × 003A × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0061\u002C", - new String[] { "\u0061\u003A\u0308\u0061" }); - - // ÷ 0061 ÷ 003A ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0031\u003A", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0031\u003A", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 003A ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0031\u0027", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0031\u0027", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 003A ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0031\u002C", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0031\u002C", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 003A ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0031\u002E\u2060", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 003A × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u003A\u0308\u0031\u002E\u2060", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0001", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0001", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\r", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\r", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\n", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\n", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u000B", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u000B", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u3031", - new String[] { "\u0061", "\u3031" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u3031", - new String[] { "\u0061", "\u3031" }); - - // ÷ 0061 × 0027 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0041", - new String[] { "\u0061\u0027\u0041" }); - - // ÷ 0061 × 0027 × 0308 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0041", - new String[] { "\u0061\u0027\u0308\u0041" }); - - // ÷ 0061 ÷ 0027 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u003A", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u003A", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u002C", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u002C", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0027", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0027", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0030", - new String[] { "\u0061", "\u0030" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0030", - new String[] { "\u0061", "\u0030" }); - - // ÷ 0061 ÷ 0027 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u005F", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u005F", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u00AD", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u00AD", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0300", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0300", - new String[] { "\u0061" }); - - // ÷ 0061 × 0027 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u2060", - new String[] { "\u0061\u0027\u0061\u2060" }); - - // ÷ 0061 × 0027 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u2060", - new String[] { "\u0061\u0027\u0308\u0061\u2060" }); - - // ÷ 0061 × 0027 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u003A", - new String[] { "\u0061\u0027\u0061" }); - - // ÷ 0061 × 0027 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u003A", - new String[] { "\u0061\u0027\u0308\u0061" }); - - // ÷ 0061 × 0027 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u0027", - new String[] { "\u0061\u0027\u0061" }); - - // ÷ 0061 × 0027 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u0027", - new String[] { "\u0061\u0027\u0308\u0061" }); - - // ÷ 0061 × 0027 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u0027\u2060", - new String[] { "\u0061\u0027\u0061" }); - - // ÷ 0061 × 0027 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u0027\u2060", - new String[] { "\u0061\u0027\u0308\u0061" }); - - // ÷ 0061 × 0027 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0061\u002C", - new String[] { "\u0061\u0027\u0061" }); - - // ÷ 0061 × 0027 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0061\u002C", - new String[] { "\u0061\u0027\u0308\u0061" }); - - // ÷ 0061 ÷ 0027 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0031\u003A", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0031\u003A", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0031\u0027", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0031\u0027", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0031\u002C", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0031\u002C", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0031\u002E\u2060", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u0308\u0031\u002E\u2060", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0001", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0001", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\r", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\r", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\n", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\n", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u000B", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u000B", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u3031", - new String[] { "\u0061", "\u3031" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u3031", - new String[] { "\u0061", "\u3031" }); - - // ÷ 0061 × 0027 × 2060 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0041", - new String[] { "\u0061\u0027\u2060\u0041" }); - - // ÷ 0061 × 0027 × 2060 × 0308 × 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0041", - new String[] { "\u0061\u0027\u2060\u0308\u0041" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u003A", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u003A", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u002C", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u002C", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0027", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0027", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0030", - new String[] { "\u0061", "\u0030" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0030", - new String[] { "\u0061", "\u0030" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u005F", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u005F", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u00AD", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u00AD", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0300", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0300", - new String[] { "\u0061" }); - - // ÷ 0061 × 0027 × 2060 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u2060", - new String[] { "\u0061\u0027\u2060\u0061\u2060" }); - - // ÷ 0061 × 0027 × 2060 × 0308 × 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u2060", - new String[] { "\u0061\u0027\u2060\u0308\u0061\u2060" }); - - // ÷ 0061 × 0027 × 2060 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u003A", - new String[] { "\u0061\u0027\u2060\u0061" }); - - // ÷ 0061 × 0027 × 2060 × 0308 × 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u003A", - new String[] { "\u0061\u0027\u2060\u0308\u0061" }); - - // ÷ 0061 × 0027 × 2060 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u0027", - new String[] { "\u0061\u0027\u2060\u0061" }); - - // ÷ 0061 × 0027 × 2060 × 0308 × 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u0027", - new String[] { "\u0061\u0027\u2060\u0308\u0061" }); - - // ÷ 0061 × 0027 × 2060 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u0027\u2060", - new String[] { "\u0061\u0027\u2060\u0061" }); - - // ÷ 0061 × 0027 × 2060 × 0308 × 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u0027\u2060", - new String[] { "\u0061\u0027\u2060\u0308\u0061" }); - - // ÷ 0061 × 0027 × 2060 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0061\u002C", - new String[] { "\u0061\u0027\u2060\u0061" }); - - // ÷ 0061 × 0027 × 2060 × 0308 × 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [7.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0061\u002C", - new String[] { "\u0061\u0027\u2060\u0308\u0061" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0031\u003A", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0031\u003A", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0031\u0027", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0031\u0027", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0031\u002C", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0031\u002C", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 2060 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0031\u002E\u2060", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 0027 × 2060 × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0027\u2060\u0308\u0031\u002E\u2060", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 002C ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0001", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0001 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0001", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\r", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 000D ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\r", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\n", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 000A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\n", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u000B", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 000B ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u000B", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u3031", - new String[] { "\u0061", "\u3031" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 3031 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u3031", - new String[] { "\u0061", "\u3031" }); - - // ÷ 0061 ÷ 002C ÷ 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0041", - new String[] { "\u0061", "\u0041" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0041 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0041", - new String[] { "\u0061", "\u0041" }); - - // ÷ 0061 ÷ 002C ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u003A", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u003A", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u002C", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u002C", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0027", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0027", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0030", - new String[] { "\u0061", "\u0030" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0030 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0030", - new String[] { "\u0061", "\u0030" }); - - // ÷ 0061 ÷ 002C ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u005F", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 005F ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u005F", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u00AD", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 × 00AD ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u00AD", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0300", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 × 0300 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0300", - new String[] { "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u2060", - new String[] { "\u0061", "\u0061\u2060" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u2060", - new String[] { "\u0061", "\u0061\u2060" }); - - // ÷ 0061 ÷ 002C ÷ 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u003A", - new String[] { "\u0061", "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u003A", - new String[] { "\u0061", "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u0027", - new String[] { "\u0061", "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u0027", - new String[] { "\u0061", "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u0027\u2060", - new String[] { "\u0061", "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u0027\u2060", - new String[] { "\u0061", "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0061\u002C", - new String[] { "\u0061", "\u0061" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0061\u002C", - new String[] { "\u0061", "\u0061" }); - - // ÷ 0061 ÷ 002C ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0031\u003A", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0031\u003A", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 002C ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0031\u0027", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0031\u0027", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 002C ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0031\u002C", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0031\u002C", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 002C ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0031\u002E\u2060", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0061 ÷ 002C × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u002C\u0308\u0031\u002E\u2060", - new String[] { "\u0061", "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0001", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0001", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\r", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\r", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\n", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\n", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u000B", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u000B", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u3031", - new String[] { "\u0031", "\u3031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u3031", - new String[] { "\u0031", "\u3031" }); - - // ÷ 0031 ÷ 003A ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0041", - new String[] { "\u0031", "\u0041" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0041", - new String[] { "\u0031", "\u0041" }); - - // ÷ 0031 ÷ 003A ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u003A", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u003A", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u002C", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u002C", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0027", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0027", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0030", - new String[] { "\u0031", "\u0030" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0030", - new String[] { "\u0031", "\u0030" }); - - // ÷ 0031 ÷ 003A ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u005F", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u005F", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u00AD", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u00AD", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0300", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0300", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u2060", - new String[] { "\u0031", "\u0061\u2060" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u2060", - new String[] { "\u0031", "\u0061\u2060" }); - - // ÷ 0031 ÷ 003A ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u003A", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u003A", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 003A ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u0027", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u0027", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 003A ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u0027\u2060", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u0027\u2060", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 003A ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0061\u002C", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0061\u002C", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 003A ÷ 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0031\u003A", - new String[] { "\u0031", "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0031\u003A", - new String[] { "\u0031", "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0031\u0027", - new String[] { "\u0031", "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0031\u0027", - new String[] { "\u0031", "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0031\u002C", - new String[] { "\u0031", "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0031\u002C", - new String[] { "\u0031", "\u0031" }); - - // ÷ 0031 ÷ 003A ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0031\u002E\u2060", - new String[] { "\u0031", "\u0031" }); - - // ÷ 0031 ÷ 003A × 0308 ÷ 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u003A\u0308\u0031\u002E\u2060", - new String[] { "\u0031", "\u0031" }); - - // ÷ 0031 ÷ 0027 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0001", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0001", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\r", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\r", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\n", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\n", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u000B", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u000B", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u3031", - new String[] { "\u0031", "\u3031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u3031", - new String[] { "\u0031", "\u3031" }); - - // ÷ 0031 ÷ 0027 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0041", - new String[] { "\u0031", "\u0041" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0041", - new String[] { "\u0031", "\u0041" }); - - // ÷ 0031 ÷ 0027 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u003A", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u003A", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u002C", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u002C", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0027", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0027", - new String[] { "\u0031" }); - - // ÷ 0031 × 0027 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0030", - new String[] { "\u0031\u0027\u0030" }); - - // ÷ 0031 × 0027 × 0308 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0030", - new String[] { "\u0031\u0027\u0308\u0030" }); - - // ÷ 0031 ÷ 0027 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u005F", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u005F", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u00AD", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u00AD", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0300", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0300", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 0027 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u2060", - new String[] { "\u0031", "\u0061\u2060" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u2060", - new String[] { "\u0031", "\u0061\u2060" }); - - // ÷ 0031 ÷ 0027 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u003A", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u003A", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 0027 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u0027", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u0027", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 0027 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u0027\u2060", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u0027\u2060", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 0027 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0061\u002C", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 0027 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0061\u002C", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 × 0027 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0031\u003A", - new String[] { "\u0031\u0027\u0031" }); - - // ÷ 0031 × 0027 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0031\u003A", - new String[] { "\u0031\u0027\u0308\u0031" }); - - // ÷ 0031 × 0027 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0031\u0027", - new String[] { "\u0031\u0027\u0031" }); - - // ÷ 0031 × 0027 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0031\u0027", - new String[] { "\u0031\u0027\u0308\u0031" }); - - // ÷ 0031 × 0027 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0031\u002C", - new String[] { "\u0031\u0027\u0031" }); - - // ÷ 0031 × 0027 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0031\u002C", - new String[] { "\u0031\u0027\u0308\u0031" }); - - // ÷ 0031 × 0027 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0031\u002E\u2060", - new String[] { "\u0031\u0027\u0031" }); - - // ÷ 0031 × 0027 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] APOSTROPHE (MidNumLet) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u0027\u0308\u0031\u002E\u2060", - new String[] { "\u0031\u0027\u0308\u0031" }); - - // ÷ 0031 ÷ 002C ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0001", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0001", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\r", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\r", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\n", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\n", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u000B", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u000B", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u3031", - new String[] { "\u0031", "\u3031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u3031", - new String[] { "\u0031", "\u3031" }); - - // ÷ 0031 ÷ 002C ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0041", - new String[] { "\u0031", "\u0041" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0041", - new String[] { "\u0031", "\u0041" }); - - // ÷ 0031 ÷ 002C ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u003A", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u003A", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u002C", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u002C", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0027", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0027", - new String[] { "\u0031" }); - - // ÷ 0031 × 002C × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0030", - new String[] { "\u0031\u002C\u0030" }); - - // ÷ 0031 × 002C × 0308 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0030", - new String[] { "\u0031\u002C\u0308\u0030" }); - - // ÷ 0031 ÷ 002C ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u005F", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u005F", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u00AD", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u00AD", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0300", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0300", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002C ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u2060", - new String[] { "\u0031", "\u0061\u2060" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u2060", - new String[] { "\u0031", "\u0061\u2060" }); - - // ÷ 0031 ÷ 002C ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u003A", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u003A", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002C ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u0027", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u0027", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002C ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u0027\u2060", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u0027\u2060", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002C ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0061\u002C", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002C × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0061\u002C", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 × 002C × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0031\u003A", - new String[] { "\u0031\u002C\u0031" }); - - // ÷ 0031 × 002C × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0031\u003A", - new String[] { "\u0031\u002C\u0308\u0031" }); - - // ÷ 0031 × 002C × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0031\u0027", - new String[] { "\u0031\u002C\u0031" }); - - // ÷ 0031 × 002C × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0031\u0027", - new String[] { "\u0031\u002C\u0308\u0031" }); - - // ÷ 0031 × 002C × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0031\u002C", - new String[] { "\u0031\u002C\u0031" }); - - // ÷ 0031 × 002C × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0031\u002C", - new String[] { "\u0031\u002C\u0308\u0031" }); - - // ÷ 0031 × 002C × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0031\u002E\u2060", - new String[] { "\u0031\u002C\u0031" }); - - // ÷ 0031 × 002C × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] COMMA (MidNum) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002C\u0308\u0031\u002E\u2060", - new String[] { "\u0031\u002C\u0308\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0001", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0001 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] (Other) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0001", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\r", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 000D ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (CR) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\r", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\n", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 000A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (LF) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\n", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u000B", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 000B ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [3.11] (Newline) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u000B", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u3031", - new String[] { "\u0031", "\u3031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 3031 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] VERTICAL KANA REPEAT MARK (Katakana) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u3031", - new String[] { "\u0031", "\u3031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0041", - new String[] { "\u0031", "\u0041" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0041 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN CAPITAL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0041", - new String[] { "\u0031", "\u0041" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u003A", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u003A", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u002C", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u002C", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0027", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0027", - new String[] { "\u0031" }); - - // ÷ 0031 × 002E × 2060 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0030", - new String[] { "\u0031\u002E\u2060\u0030" }); - - // ÷ 0031 × 002E × 2060 × 0308 × 0030 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ZERO (Numeric) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0030", - new String[] { "\u0031\u002E\u2060\u0308\u0030" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u005F", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 005F ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LOW LINE (ExtendNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u005F", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u00AD", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 × 00AD ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] SOFT HYPHEN (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u00AD", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0300", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 × 0300 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [4.0] COMBINING GRAVE ACCENT (Extend_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0300", - new String[] { "\u0031" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u2060", - new String[] { "\u0031", "\u0061\u2060" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u2060", - new String[] { "\u0031", "\u0061\u2060" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u003A", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u003A", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u0027", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u0027", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u0027\u2060", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 ÷ 0027 × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u0027\u2060", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002E × 2060 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0061\u002C", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 ÷ 002E × 2060 × 0308 ÷ 0061 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0061\u002C", - new String[] { "\u0031", "\u0061" }); - - // ÷ 0031 × 002E × 2060 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0031\u003A", - new String[] { "\u0031\u002E\u2060\u0031" }); - - // ÷ 0031 × 002E × 2060 × 0308 × 0031 ÷ 003A ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COLON (MidLetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0031\u003A", - new String[] { "\u0031\u002E\u2060\u0308\u0031" }); - - // ÷ 0031 × 002E × 2060 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0031\u0027", - new String[] { "\u0031\u002E\u2060\u0031" }); - - // ÷ 0031 × 002E × 2060 × 0308 × 0031 ÷ 0027 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] APOSTROPHE (MidNumLet) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0031\u0027", - new String[] { "\u0031\u002E\u2060\u0308\u0031" }); - - // ÷ 0031 × 002E × 2060 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0031\u002C", - new String[] { "\u0031\u002E\u2060\u0031" }); - - // ÷ 0031 × 002E × 2060 × 0308 × 0031 ÷ 002C ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] COMMA (MidNum) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0031\u002C", - new String[] { "\u0031\u002E\u2060\u0308\u0031" }); - - // ÷ 0031 × 002E × 2060 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0031\u002E\u2060", - new String[] { "\u0031\u002E\u2060\u0031" }); - - // ÷ 0031 × 002E × 2060 × 0308 × 0031 ÷ 002E × 2060 ÷ # ÷ [0.2] DIGIT ONE (Numeric) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [4.0] COMBINING DIAERESIS (Extend_FE) × [11.0] DIGIT ONE (Numeric) ÷ [999.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0031\u002E\u2060\u0308\u0031\u002E\u2060", - new String[] { "\u0031\u002E\u2060\u0308\u0031" }); - - // ÷ 0063 × 0061 × 006E × 0027 × 0074 ÷ # ÷ [0.2] LATIN SMALL LETTER C (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER N (ALetter) × [6.0] APOSTROPHE (MidNumLet) × [7.0] LATIN SMALL LETTER T (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0063\u0061\u006E\u0027\u0074", - new String[] { "\u0063\u0061\u006E\u0027\u0074" }); - - // ÷ 0063 × 0061 × 006E × 2019 × 0074 ÷ # ÷ [0.2] LATIN SMALL LETTER C (ALetter) × [5.0] LATIN SMALL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER N (ALetter) × [6.0] RIGHT SINGLE QUOTATION MARK (MidNumLet) × [7.0] LATIN SMALL LETTER T (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0063\u0061\u006E\u2019\u0074", - new String[] { "\u0063\u0061\u006E\u2019\u0074" }); - - // ÷ 0061 × 0062 × 00AD × 0062 × 0079 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) × [5.0] LATIN SMALL LETTER B (ALetter) × [4.0] SOFT HYPHEN (Format_FE) × [5.0] LATIN SMALL LETTER B (ALetter) × [5.0] LATIN SMALL LETTER Y (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0062\u00AD\u0062\u0079", - new String[] { "\u0061\u0062\u00AD\u0062\u0079" }); - - // ÷ 0061 ÷ 0024 ÷ 002D ÷ 0033 × 0034 × 002C × 0035 × 0036 × 0037 × 002E × 0031 × 0034 ÷ 0025 ÷ 0062 ÷ # ÷ [0.2] LATIN SMALL LETTER A (ALetter) ÷ [999.0] DOLLAR SIGN (Other) ÷ [999.0] HYPHEN-MINUS (Other) ÷ [999.0] DIGIT THREE (Numeric) × [8.0] DIGIT FOUR (Numeric) × [12.0] COMMA (MidNum) × [11.0] DIGIT FIVE (Numeric) × [8.0] DIGIT SIX (Numeric) × [8.0] DIGIT SEVEN (Numeric) × [12.0] FULL STOP (MidNumLet) × [11.0] DIGIT ONE (Numeric) × [8.0] DIGIT FOUR (Numeric) ÷ [999.0] PERCENT SIGN (Other) ÷ [999.0] LATIN SMALL LETTER B (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0061\u0024\u002D\u0033\u0034\u002C\u0035\u0036\u0037\u002E\u0031\u0034\u0025\u0062", - new String[] { "\u0061", "\u0033\u0034\u002C\u0035\u0036\u0037\u002E\u0031\u0034", "\u0062" }); - - // ÷ 0033 × 0061 ÷ # ÷ [0.2] DIGIT THREE (Numeric) × [10.0] LATIN SMALL LETTER A (ALetter) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u0033\u0061", - new String[] { "\u0033\u0061" }); - - // ÷ 2060 ÷ 0063 × 2060 × 0061 × 2060 × 006E × 2060 × 0027 × 2060 × 0074 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER C (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER N (ALetter) × [4.0] WORD JOINER (Format_FE) × [6.0] APOSTROPHE (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER T (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u2060\u0063\u2060\u0061\u2060\u006E\u2060\u0027\u2060\u0074\u2060\u2060", - new String[] { "\u0063\u2060\u0061\u2060\u006E\u2060\u0027\u2060\u0074\u2060\u2060" }); - - // ÷ 2060 ÷ 0063 × 2060 × 0061 × 2060 × 006E × 2060 × 2019 × 2060 × 0074 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER C (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER N (ALetter) × [4.0] WORD JOINER (Format_FE) × [6.0] RIGHT SINGLE QUOTATION MARK (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [7.0] LATIN SMALL LETTER T (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u2060\u0063\u2060\u0061\u2060\u006E\u2060\u2019\u2060\u0074\u2060\u2060", - new String[] { "\u0063\u2060\u0061\u2060\u006E\u2060\u2019\u2060\u0074\u2060\u2060" }); - - // ÷ 2060 ÷ 0061 × 2060 × 0062 × 2060 × 00AD × 2060 × 0062 × 2060 × 0079 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER B (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] SOFT HYPHEN (Format_FE) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER B (ALetter) × [4.0] WORD JOINER (Format_FE) × [5.0] LATIN SMALL LETTER Y (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u2060\u0061\u2060\u0062\u2060\u00AD\u2060\u0062\u2060\u0079\u2060\u2060", - new String[] { "\u0061\u2060\u0062\u2060\u00AD\u2060\u0062\u2060\u0079\u2060\u2060" }); - - // ÷ 2060 ÷ 0061 × 2060 ÷ 0024 × 2060 ÷ 002D × 2060 ÷ 0033 × 2060 × 0034 × 2060 × 002C × 2060 × 0035 × 2060 × 0036 × 2060 × 0037 × 2060 × 002E × 2060 × 0031 × 2060 × 0034 × 2060 ÷ 0025 × 2060 ÷ 0062 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DOLLAR SIGN (Other) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] HYPHEN-MINUS (Other) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] DIGIT THREE (Numeric) × [4.0] WORD JOINER (Format_FE) × [8.0] DIGIT FOUR (Numeric) × [4.0] WORD JOINER (Format_FE) × [12.0] COMMA (MidNum) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT FIVE (Numeric) × [4.0] WORD JOINER (Format_FE) × [8.0] DIGIT SIX (Numeric) × [4.0] WORD JOINER (Format_FE) × [8.0] DIGIT SEVEN (Numeric) × [4.0] WORD JOINER (Format_FE) × [12.0] FULL STOP (MidNumLet) × [4.0] WORD JOINER (Format_FE) × [11.0] DIGIT ONE (Numeric) × [4.0] WORD JOINER (Format_FE) × [8.0] DIGIT FOUR (Numeric) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] PERCENT SIGN (Other) × [4.0] WORD JOINER (Format_FE) ÷ [999.0] LATIN SMALL LETTER B (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u2060\u0061\u2060\u0024\u2060\u002D\u2060\u0033\u2060\u0034\u2060\u002C\u2060\u0035\u2060\u0036\u2060\u0037\u2060\u002E\u2060\u0031\u2060\u0034\u2060\u0025\u2060\u0062\u2060\u2060", - new String[] { "\u0061\u2060", "\u0033\u2060\u0034\u2060\u002C\u2060\u0035\u2060\u0036\u2060\u0037\u2060\u002E\u2060\u0031\u2060\u0034\u2060", "\u0062\u2060\u2060" }); - - // ÷ 2060 ÷ 0033 × 2060 × 0061 × 2060 × 2060 ÷ # ÷ [0.2] WORD JOINER (Format_FE) ÷ [999.0] DIGIT THREE (Numeric) × [4.0] WORD JOINER (Format_FE) × [10.0] LATIN SMALL LETTER A (ALetter) × [4.0] WORD JOINER (Format_FE) × [4.0] WORD JOINER (Format_FE) ÷ [0.3] - assertAnalyzesTo(analyzer, "\u2060\u0033\u2060\u0061\u2060\u2060", - new String[] { "\u0033\u2060\u0061\u2060\u2060" }); - - } -} Index: modules/analysis/common/src/test/org/apache/lucene/analysis/core/generateJavaUnicodeWordBreakTest.pl =================================================================== --- modules/analysis/common/src/test/org/apache/lucene/analysis/core/generateJavaUnicodeWordBreakTest.pl (revision 1022158) +++ modules/analysis/common/src/test/org/apache/lucene/analysis/core/generateJavaUnicodeWordBreakTest.pl (working copy) @@ -61,6 +61,7 @@ import org.apache.lucene.analysis.Analyzer; import org.apache.lucene.analysis.BaseTokenStreamTestCase; +import org.junit.Ignore; /** * This class was automatically generated by ${script_name} @@ -81,6 +82,7 @@ * \\p{WordBreak = Numeric} (Excludes full-width Arabic digits) * [\\uFF10-\\uFF19] (Full-width Arabic digits) */ +\@Ignore public class ${class_name} extends BaseTokenStreamTestCase { public void test(Analyzer analyzer) throws Exception { Index: modules/analysis/common/src/java/org/apache/lucene/analysis/standard/UAX29Tokenizer.java =================================================================== --- modules/analysis/common/src/java/org/apache/lucene/analysis/standard/UAX29Tokenizer.java (revision 1022158) +++ modules/analysis/common/src/java/org/apache/lucene/analysis/standard/UAX29Tokenizer.java (working copy) @@ -1,4 +1,4 @@ -/* The following code was generated by JFlex 1.5.0-SNAPSHOT on 10/3/10 9:07 AM */ +/* The following code was generated by JFlex 1.5.0-SNAPSHOT on 10/13/10 12:12 AM */ package org.apache.lucene.analysis.standard; @@ -85,107 +85,109 @@ "\1\0\u01ca\1\4\0\14\1\16\0\5\1\7\0\1\1\1\0\1\1"+ "\21\0\160\2\5\1\1\0\2\1\2\0\4\1\1\6\7\0\1\1"+ "\1\5\3\1\1\0\1\1\1\0\24\1\1\0\123\1\1\0\213\1"+ - "\1\0\7\2\234\1\13\0\46\1\2\0\1\1\7\0\47\1\1\0"+ + 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"\2\0\76\13\2\0\152\13\46\0\7\1\14\0\5\1\5\0\1\1"+ + "\1\2\12\1\1\0\15\1\1\0\5\1\1\0\1\1\1\0\2\1"+ + "\1\0\2\1\1\0\154\1\41\0\u016b\1\22\0\100\1\2\0\66\1"+ + "\50\0\14\1\4\0\20\2\1\6\2\0\1\5\1\6\13\0\7\2"+ + "\14\0\2\10\30\0\3\10\1\6\1\0\1\7\1\0\1\6\1\5"+ + "\32\0\5\1\1\0\207\1\2\0\1\2\7\0\1\7\4\0\1\6"+ + "\1\0\1\7\1\0\12\3\1\5\1\6\5\0\32\1\4\0\1\10"+ + "\1\0\32\1\13\0\70\4\2\2\37\1\3\0\6\1\2\0\6\1"+ + "\2\0\6\1\2\0\3\1\34\0\3\2\4\0"; /** * Translates characters to character classes @@ -530,7 +532,7 @@ char [] map = new char[0x10000]; int i = 0; /* index in packed string */ int j = 0; /* index in unpacked array */ - while (i < 2138) { + while (i < 2174) { int count = packed.charAt(i++); char value = packed.charAt(i++); do map[j++] = value; while (--count > 0); @@ -803,28 +805,28 @@ zzMarkedPos = zzMarkedPosL; switch (zzAction < 0 ? zzAction : ZZ_ACTION[zzAction]) { - case 2: - { if (populateAttributes(WORD_TYPE)) return true; + case 5: + { if (populateAttributes(IDEOGRAPHIC_TYPE)) return true; } case 7: break; - case 6: - { if (populateAttributes(HIRAGANA_TYPE)) return true; + case 1: + { /* Not numeric, word, ideographic, hiragana, or SE Asian -- ignore it. */ } case 8: break; - case 5: - { if (populateAttributes(IDEOGRAPHIC_TYPE)) return true; + case 3: + { if (populateAttributes(NUMERIC_TYPE)) return true; } case 9: break; + case 6: + { if (populateAttributes(HIRAGANA_TYPE)) return true; + } + case 10: break; case 4: { if (populateAttributes(SOUTH_EAST_ASIAN_TYPE)) return true; } - case 10: break; - case 3: - { if (populateAttributes(NUMERIC_TYPE)) return true; - } case 11: break; - case 1: - { /* Not numeric, word, ideographic, hiragana, or SE Asian -- ignore it. */ + case 2: + { if (populateAttributes(WORD_TYPE)) return true; } case 12: break; default: Index: modules/analysis/common/src/java/org/apache/lucene/analysis/standard/StandardTokenizerImpl.jflex =================================================================== --- modules/analysis/common/src/java/org/apache/lucene/analysis/standard/StandardTokenizerImpl.jflex (revision 1022158) +++ modules/analysis/common/src/java/org/apache/lucene/analysis/standard/StandardTokenizerImpl.jflex (working copy) @@ -47,7 +47,7 @@ */ %% -%unicode 5.2 +%unicode 6.0 %integer %final %public @@ -234,7 +234,7 @@ // annex. That means that satisfactory treatment of languages like Chinese // or Thai requires special handling. // -// In Unicode 5.2, only one character has the \p{Line_Break = Contingent_Break} +// In Unicode 6.0, only one character has the \p{Line_Break = Contingent_Break} // property: U+FFFC (  ) OBJECT REPLACEMENT CHARACTER. // // In the ICU implementation of UAX#29, \p{Line_Break = Complex_Context} Index: modules/analysis/common/src/java/org/apache/lucene/analysis/standard/StandardTokenizerImpl.java =================================================================== --- modules/analysis/common/src/java/org/apache/lucene/analysis/standard/StandardTokenizerImpl.java (revision 1022158) +++ modules/analysis/common/src/java/org/apache/lucene/analysis/standard/StandardTokenizerImpl.java (working copy) @@ -1,4 +1,4 @@ -/* The following code was generated by JFlex 1.5.0-SNAPSHOT on 10/3/10 9:07 AM */ +/* The following code was generated by JFlex 1.5.0-SNAPSHOT on 10/13/10 12:12 AM */ package 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"\6\1\3\0\1\1\4\0\12\3\34\1\10\2\2\0\27\1\15\2"+ + "\14\0\35\1\3\0\4\2\57\1\16\2\16\0\1\1\12\3\46\0"+ + "\51\1\16\2\11\0\3\1\1\2\10\1\2\2\2\0\12\3\6\0"+ + "\33\105\1\106\4\0\60\105\1\106\1\105\3\106\2\105\2\106\5\105"+ + "\2\106\1\105\1\106\1\105\30\0\5\105\41\0\6\1\2\0\6\1"+ + "\2\0\6\1\11\0\7\1\1\0\7\1\221\0\43\1\10\2\1\0"+ + "\2\2\2\0\12\3\6\0\u2ba4\1\14\0\27\1\4\0\61\1\u2104\0"+ + "\u012e\107\2\0\76\107\2\0\152\107\46\0\7\1\14\0\5\1\5\0"+ + "\1\1\1\2\12\1\1\0\15\1\1\0\5\1\1\0\1\1\1\0"+ + "\2\1\1\0\2\1\1\0\154\1\41\0\u016b\1\22\0\100\1\2\0"+ + "\66\1\50\0\14\1\4\0\20\2\1\6\2\0\1\5\1\6\13\0"+ + "\7\2\14\0\2\10\30\0\3\10\1\6\1\0\1\7\1\0\1\6"+ + "\1\5\32\0\5\1\1\0\207\1\2\0\1\2\7\0\1\7\4\0"+ + "\1\6\1\0\1\7\1\0\12\3\1\5\1\6\5\0\32\1\4\0"+ + "\1\10\1\0\32\1\13\0\70\4\2\2\37\1\3\0\6\1\2\0"+ + "\6\1\2\0\6\1\2\0\3\1\34\0\3\2\4\0"; /** * Translates characters to character classes @@ -2440,7 +2442,7 @@ char [] map = new char[0x10000]; int i = 0; /* index in packed string */ int j = 0; /* index in unpacked array */ - while (i < 2300) { + while (i < 2336) { int count = packed.charAt(i++); char value = packed.charAt(i++); do map[j++] = value; while (--count > 0); @@ -2713,36 +2715,36 @@ zzMarkedPos = zzMarkedPosL; switch (zzAction < 0 ? zzAction : ZZ_ACTION[zzAction]) { - case 2: - { return WORD_TYPE; + case 1: + { /* Not numeric, word, ideographic, hiragana, or SE Asian -- ignore it. */ } case 9: break; - case 4: - { return SOUTH_EAST_ASIAN_TYPE; + case 6: + { return HIRAGANA_TYPE; } case 10: break; + case 2: + { return WORD_TYPE; + } + case 11: break; case 8: { return URL_TYPE; } - case 11: break; - case 7: - { return EMAIL_TYPE; - } case 12: break; case 5: { return IDEOGRAPHIC_TYPE; } case 13: break; - case 1: - { /* Not numeric, word, ideographic, hiragana, or SE Asian -- ignore it. */ + case 7: + { return EMAIL_TYPE; } case 14: break; case 3: { return NUMERIC_TYPE; } case 15: break; - case 6: - { return HIRAGANA_TYPE; + case 4: + { return SOUTH_EAST_ASIAN_TYPE; } case 16: break; default: Index: modules/analysis/common/src/java/org/apache/lucene/analysis/standard/ASCIITLD.jflex-macro =================================================================== --- modules/analysis/common/src/java/org/apache/lucene/analysis/standard/ASCIITLD.jflex-macro (revision 1022158) +++ modules/analysis/common/src/java/org/apache/lucene/analysis/standard/ASCIITLD.jflex-macro (working copy) @@ -15,8 +15,8 @@ */ // Generated from IANA Root Zone Database -// file version from Sunday, October 3, 2010 11:34:02 AM UTC -// generated on Sunday, October 3, 2010 1:07:42 PM UTC +// file version from Tuesday, October 12, 2010 11:34:09 AM UTC +// generated on Wednesday, October 13, 2010 4:12:27 AM UTC // by org.apache.lucene.analysis.standard.GenerateJflexTLDMacros ASCIITLD = "." ( Index: modules/analysis/common/src/java/org/apache/lucene/analysis/standard/READ_BEFORE_REGENERATING.txt =================================================================== --- modules/analysis/common/src/java/org/apache/lucene/analysis/standard/READ_BEFORE_REGENERATING.txt (revision 1022158) +++ modules/analysis/common/src/java/org/apache/lucene/analysis/standard/READ_BEFORE_REGENERATING.txt (working copy) @@ -18,4 +18,4 @@ WARNING: if you change StandardTokenizerImpl*.jflex and need to regenerate the tokenizer, only use the trunk version of JFlex 1.5 (with a minimum - SVN revision 591) at the moment! + SVN revision 597) at the moment! Index: modules/analysis/common/src/java/org/apache/lucene/analysis/standard/UAX29Tokenizer.jflex =================================================================== --- modules/analysis/common/src/java/org/apache/lucene/analysis/standard/UAX29Tokenizer.jflex (revision 1022158) +++ modules/analysis/common/src/java/org/apache/lucene/analysis/standard/UAX29Tokenizer.jflex (working copy) @@ -53,7 +53,7 @@ */ %% -%unicode 5.2 +%unicode 6.0 %final %public %apiprivate @@ -247,7 +247,7 @@ // annex. That means that satisfactory treatment of languages like Chinese // or Thai requires special handling. // -// In Unicode 5.2, only one character has the \p{Line_Break = Contingent_Break} +// In Unicode 6.0, only one character has the \p{Line_Break = Contingent_Break} // property: U+FFFC (  ) OBJECT REPLACEMENT CHARACTER. // // In the ICU implementation of UAX#29, \p{Line_Break = Complex_Context}